FCC ID: CAS2000-4231 Mobile Transceiver

 

User Manual Please refer to the user manual exhibits, T2000 user manual part 1 to 10, uploaded for CAS2000-6231, under EA510507. The T2000 user manual covers several models including this one. Specific references of where to find schematics, detalied mechanical drawings, part lists and other info among the parts of the manual will be further uploaded.

 

 

R2000-00-301 Revision Package 301 M2000-00-301 Revision Package Product Code: R2000-00-301 February 1998 Introduction Revision package R2000-00-301 is the first update of the T2000 Series II service manual. It includes the following information:

PCB information for the following new PCBs:

IPN 220-01389-03: T2000-700/-900 RF PCB IPN 220-01389-02: T2000 TCXO/Tx audio PCB IPN 220-01377-02: T201X HC05 logic PCB IPN 220-01377-03: T201X HC11 logic PCB IPN 220-01344-04: T2020/T203X/T2040/T2050/T2060 HC11 logic PCB Parts list updates & corrections. Servicing information on the following new accessory kits:

T2000-A03/-A04 /-A16 remote loom kits T2000-A4500 CTCSS & T2000-A4502 scrambler kits T2000-A70 data modem kit This revision also contains corrections and additions to other sections of the M2000-00-300 man-

ual. These changes are indicated by a vertical line in the margin, or an arrow with a number, to show where text has been removed. The Index, containing the List of Effective Pages, has been updated to include these changes. Revision Package Contents Description Revision Package Page Numbers Pages to Replace Section Index 1 3 4 6 7 7.6 7.7 7.9 7.10 7.11 7.12 7.13 7.14 7.15 7.16 7.17 Index General Information Introduction To Servicing Functional Tests Tuning & Adjustment PCB Information T2000-700/-900 RF PCB T2000-800 RF PCB T2000 TCXO/Tx Audio PCB 1 to 20 1.5 to 1.10 3.1 to 3.12 4.1 & 4.2 6.1 to 6.8 7.1 & 7.2 7.6.11 to 7.6.20 7.7.1 & 7.7.2 7.9.1 & 7.9.2 7.9.7 to 7.9.12 1 to 18 1.5 to 1.10 3.1 to 3.12 4.1 & 4.2 6.1 to 6.8 7.1 & 7.2 Add after 7.6.10 7.7.1 & 7.7.2 7.9.1 & 7.9.2 Add after 7.9.6 T2010 & T2015 Logic PCB 7.10.11 to 7.10.30 Add after 7.10.10 T2020/T203X/T2040/T2050/T2060 Logic PCB 7.11.13 to 7.11.24 Add after 7.11.10 7.12.1 & 7.12.2 T2010/T2030 Control Head PCB T2015/T2060 Control Head PCB 7.13.1 & 7.13.2 7.14.1 to 7.14.4 T2020/T2040/T2050 Control Head PCB 7.15.1 & 7.15.2 T2035 Control Head PCB T2000 EMC Filter PCB 7.16.1 & 7.16.2 7.17.1 & 7.17.2 T2000 Data Interface Decoupling PCB 7.12.1 & 7.12.2 7.13.1 & 7.13.2 7.14.1 to 7.14.4 7.15.1 & 7.15.2 7.16.1 & 7.16.2 7.17.1 & 7.17.2 Copyright TEL 28/02/98 continued on next page Revision Package 301 R2000-00-301 Section Description 8 8.1 8.10 8.12 8.13 8.15 8.16 Accessories T2008 Power Supply T2000-A450X CTCSS & Scrambler Kits T2000-A60 Dual Port UART Kit T2000-A66 Single Port UART Kit T2000-A70 Data Modem Kit T2000-A03/-A04/-A16 Remote Kits Revision Package Page Numbers Pages to Replace 8.1 & 8.2 8.1 & 8.2 8.1.17 & 8.1.18 8.10.1 to 8.10.10 8.12.5 & 8.12.6 8.13.1 to 8.13.8 8.15.1 to 8.15.18 8.16.1 to 8.16.8 8.1.17 & 8.1.1 8.10.1 to 8.10.10 8.12.5 & 8.12.6 8.13.1 to 8.13.8 Add after 8.13.8 The coloured pages between the sections may be discarded. Additional Revision Packages Additional revision packages can be ordered from your nearest Tait branch or approved dealer. Quote the Tait Product Code (R2000-00-301) when ordering. 28/02/98 Copyright TEL M2000-00 1 T2000 Series II Service Manual Issue 301 March 1998 M2000-00-301 Copyright TEL 31/12/97 2 Head Office New Zealand Tait Electronics Ltd 558 Wairakei Road P.O. Box 1645 Christchurch New Zealand Phone: 64 3 358-3399 Fax: 64 3 358-3636 Australia Tait Electronics (Aust) Pty Ltd 275 Toombul Road Northgate 4013 P.O. Box 679 Virginia Queensland 4014 Australia Phone: 61 7 3865-7799 Toll Free: 1 300 304-344 Fax: 61 7 3865-7990 E-mail: helpdesk@tait.com.au M2000-00 Thailand Tait Mobile Radio Ltd 14/1 Suwan Tower, Ground Floor Soi Saladaeng 1 North Sathorn Rd Bangrak Bangkok 10500 Thailand Phone: 662 267-6290 Fax: 662 267-6293 E-mail: taitthd@loxinfo.co.th United Kingdom Tait Mobile Radio Ltd Ermine Business Park Ermine Road Huntingdon Cambridgeshire PE18 6YA United Kingdom Phone: 44 1480-52255 Fax: 44 1480-411996 E-mail: techsupport@tait.co.uk USA Tait Electronics (USA) Inc. 9434 Old Katy Road Suite 110 Houston Texas 77055 USA Phone: 1 713 984-8684 Toll Free: 1 800 222-1255 Fax: 1 713 468-6944 E-mail: tech@taitus.com Germany Tait Mobilfunk GmbH Willsttterstrae 50 D-90449 Nrnberg 60 Germany Phone: 49 911 967-460 Fax: 49 911 967-4679 E-mail: tait@t-online.de Hong Kong Tait Mobile Radio (Hong Kong) Ltd Room 703A New East Ocean Centre 9 Science Museum Road Tsim Sha Tsui East Hong Kong Phone: 852 2369-3040 Fax: 852 2369-3009 E-mail: 106122.2060@compuserve.com New Zealand Tait Communications Ltd Unit 4, 75 Blenheim Road P.O. Box 1185 Christchurch Phone: 64 3 348-3301 Fax: 64 3 343-0558 E-mail: nsc@tcl.tait.co.nz Singapore Tait Electronics (Far East) Pte Ltd 4 Leng Kee Road SIS Building #05-11A Singapore 159088 Phone: 65 471-2688 Fax: 65 479-7778 E-mail: taittfe@singnet.com.sg Canada Tait Mobile Radio Inc. Unit 5, 158 Anderson Avenue Markham Ontario L6E1A9 Canada Phone: 1 905 472-1100 Fax: 1 905 472-5300 E-mail: 110252.44@compuserve.com Taiwan Tait Mobile Radio (Taiwan) Ltd 1104, 142 Chung Hsiao E Rd Sec 4 Taipei Taiwan Phone: 886 2 2731-1290 Fax: 886 2 2711-6351 E-mail: tait8503@ms7.hinet.net France Tait France S.A.R.L. 2 avenue de la Cristallerie 92 316 Svres, Cedex France Phone: 33 1 41 14-05-50 Fax: 33 1 41 14-05-55 E-mail: 100675.651@compuserve.com 31/12/97 Copyright TEL M2000-00 About This Manual 3 Scope Format This manual contains general, technical and servicing informa-

tion on T2000 Series II mobile two-way radios. We have published this manual in a ring binder so that revision packages containing additional information can be added as required. Revision Packages Revision packages will normally be published to coincide with the release of information on a new PCB, and may also contain additions or corrections pertaining to other parts of the manual. Revision Control 2 PCB Information If you return the customer registration card at the front of this manual, you will be notified when revision packages containing new PCB information and/or text are available. You may then order as many packages as you require from your local Tait Company. Revision packages are supplied ready-punched for inclusion in your manual. Each page in this manual has a date of issue. This is to comply with various Quality Standards, but will also serve to identify which pages have been updated and when. Each page and its publication date is listed in the List of Effective Pages, and a new list containing any new/revised pages and their publica-

tion dates will be sent with each revision package. Any portion of text that has been changed is marked by a verti-

cal line (as shown at left) in the outer margin of the page. Where the removal of an entire paragraph means there is no text left to mark, an arrow (as shown at left) will appear in the outer mar-

gin. The number beside the arrow will indicate how many para-

graphs have been deleted. The manual issue and revision status are indicated by the last three digits of the manual product code. These digits start at 100 and will increment through 101, 102, 103, etc., as revision pack-

ages are published, e.g:

3 0 1 issue status revision status Thus, Issue 301 indicates the first revision to issue 3, and means that one package should have been added to the manual. The issue digit will only change if there is a major product revision, or if the number of revision packages to be included means that the manual becomes difficult to use, at which point a new issue manual will be published in a new ring binder. PCB information is provided for all current issue PCBs, as well as all previous issue PCBs manufactured in production quanti-

ties, and is grouped according to PCB. Thus, you will find the parts list, grid reference index (if necessary), PCB layouts and circuit diagram(s) for each individual PCB grouped together. Copyright TEL 31/11/96 4 Errors M2000-00 If you find an error in this manual, or have a suggestion on how it might be improved, please do not hesitate to contact the Tech-

nical Writer, Product Support Group, Tait Mobile Radio Divi-

sion, Tait Electronics Ltd, P.O. Box 1645, Christchurch, New Zealand. Technical Information Any enquiries regarding this manual or the equipment it describes should be addressed in the first instance to your nearest approved Tait Dealer or Service Centre. Further tech-

nical assistance may be obtained from the Product Support Group, Tait Mobile Radio Division, Tait Electronics Ltd, Christchurch, New Zealand. Updating Equipment And Manuals In the interests of improving performance, reliability or servicing, Tait Electronics Ltd reserve the right to update their equipment and/or manuals without prior notice. Copyright All information contained in this manual is the property of Tait Electronics Ltd. All rights are reserved. This manual may not, in whole or part, be copied, photocopied, reproduced, translated stored or reduced to any electronic medium or machine readable form without prior written permission from Tait Electronics Ltd. Ordering Tait Service Manuals Service Manuals should be ordered from your nearest Tait Branch or approved Dealer. When ordering, quote the Tait product code and, where applicable, the version. Date Of Issue M2000-00-300 T2000 Series II Service Manual Issue 300 published January 1997 Issue 301 published March 1998 31/11/96 Copyright TEL M2000-00 List Of Effective Pages The total number of pages in this Manual is 484, as listed below. 5 Page Issue Date 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 1.10 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.13 2.14 2.15 2.16 2.17 31/12/97 31/12/97 31/10/96 31/10/96 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/10/96 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/12/97 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 2.18 2.19 2.20 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 5.11 5.12 5.13 5.14 5.15 5.16 31/10/96 31/10/96 blank 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/12/97 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 Copyright TEL 31/12/97 6 5.17 5.18 5.19 5.20 5.21 5.22 5.23 5.24 5.25 5.26 5.27 5.28 5.29 5.30 5.31 5.32 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 7.1 7.2 7.3 7.4 7.1.1 7.1.2 7.1.3 7.1.4 7.1.5 7.1.6 7.1.7 7.1.8 7.1.9 7.1.10 7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 7.2.7 7.2.8 7.2.9 7.2.10 7.3.1 7.3.2 7.3.3 7.3.4 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/12/97 31/12/97 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31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 (fold-out) blank 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 Copyright TEL M2000-00 7.7.9 7.7.10 7.8.1 7.8.2 7.8.3 7.8.4 7.8.5 7.8.6 7.9.1 7.9.2 7.9.3 7.9.4 7.9.5 7.9.6 7.9.7 7.9.8 7.9.9 7.9.10 7.9.11 7.9.12 7.10.1 7.10.2 7.10.3 7.10.4 7.10.5 7.10.6 7.10.7 7.10.8 7.10.9 7.10.10 7.10.11 7.10.12 7.10.13 7.10.14 7.10.15 7.10.16 7.10.17 7.10.18 7.10.19 7.10.20 7.10.21 7.10.22 7.10.23 7.10.24 7.10.25 7.10.26 7.10.27 7.10.28 7.10.29 7.10.30 7.11.1 7.11.2 7.11.3 7.11.4 31/10/96 (fold-out) blank 31/10/96 blank 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 blank 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 (fold-out) blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) 31/10/96 (fold-out) 31/10/96 (fold-out) blank 31/12/97 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31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 blank 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 blank 31/10/96 31/10/96 31/10/96 blank 31/12/97 blank Copyright TEL 31/12/97 8 7.17.3 7.17.4 7.17.5 7.17.6 8.1 8.2 8.1.1 8.1.2 8.1.3 8.1.4 8.1.5 8.1.6 8.1.7 8.1.8 8.1.9 8.1.10 8.1.11 8.1.12 8.1.13 8.1.14 8.1.15 8.1.16 8.1.17 8.1.18 8.1.19 8.1.20 8.1.21 8.1.22 8.1.23 8.1.24 8.2.1 8.2.2 8.3.1 8.3.2 8.3.3 8.3.4 8.4.1 8.4.2 8.5.1 8.5.2 8.5.3 8.5.4 8.6.1 8.6.2 8.6.3 8.6.4 8.7.1 8.7.2 8.7.3 8.7.4 8.8.1 8.8.2 8.8.3 8.8.4 31/10/96 31/10/96 31/10/96 blank 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 M2000-00 8.8.5 8.8.6 8.8.7 8.8.8 8.9.1 8.9.2 8.10.1 8.10.2 8.10.3 8.10.4 8.10.5 8.10.6 8.10.7 8.10.8 8.10.9 8.10.10 8.11.1 8.11.2 8.11.3 8.11.4 8.11.5 8.11.6 8.11.7 8.11.8 8.11.9 8.11.10 8.11.11 8.11.12 8.11.13 8.11.14 8.11.15 8.11.16 8.11.17 8.11.18 8.12.1 8.12.2 8.12.3 8.12.4 8.12.5 8.12.6 8.12.7 8.12.8 8.12.9 8.12.10 8.12.11 8.12.12 8.12.13 8.12.14 8.13.1 8.13.2 8.13.3 8.13.4 8.13.5 8.13.6 31/10/96 31/10/96 31/10/96 blank 31/10/96 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 fold-out blank 31/10/96 fold-out blank 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 Copyright TEL 9 8.16.7 8.16.8 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 31/12/97 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 M2000-00 8.13.7 8.13.8 8.14.1 8.14.2 8.14.3 8.14.4 8.14.5 8.14.6 8.14.7 8.14.8 8.14.9 8.14.10 8.14.11 8.14.12 8.14.13 8.14.14 8.14.15 8.14.16 8.14.17 8.14.18 8.14.19 8.14.20 8.14.21 8.14.22 8.14.23 8.14.24 8.14.25 8.14.26 8.14.27 8.14.28 8.15.1 8.15.2 8.15.3 8.15.4 8.15.5 8.15.6 8.15.7 8.15.8 8.15.9 8.15.10 8.15.11 8.15.12 8.15.13 8.15.14 8.15.15 8.15.16 8.15.17 8.15.18 8.16.1 8.16.2 8.16.3 8.16.4 8.16.5 8.16.6 31/12/97 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 fold-out blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 Copyright TEL 31/12/97 10 Contents M2000-00 1 1.1 1.2 General Information Introduction . 1.2 Specifications . 1.3 Introduction. 1.3 1.2.1 General. 1.3 1.2.2 Receiver Performance . 1.5 1.2.3 1.2.4 Transmitter Performance . 1.7 Frequency Reference . 1.8 1.2.5 1.2.6 Trunking . 1.9 1.2.6.1 T2030, T2035, T2040 & T2050 Models . 1.9 1.2.6.2 T2060 Model . 1.9 1.3 Operating Instructions . 1.9 1.4 Product Codes . 1.10 2 Circuit Description 2.1 Design Overview . 2.2 2.2 Synthesiser . 2.3 2.3 Audio & Regulators. 2.4 2.4 2.5 2.6 2.7 2.8 2.9 TCXO/TX Audio PCB. 2.4 IF PCB . 2.5 T2000-100 & -400 RF PCB . 2.6 T2000-100 & -400 Receiver . 2.6 2.6.1 T2000-100 & -400 Exciter . 2.7 2.6.2 2.6.3 T2000-100 & -400 Power Amplifier . 2.7 T2000-200 RF PCB . 2.8 T2000-200 Receiver. 2.8 2.7.1 T2000-200 Exciter . 2.9 2.7.2 2.7.3 T2000-200 Power Amplifier . 2.9 T2000-300 RF PCB . 2.10 T2000-300 Receiver. 2.10 2.8.1 2.8.2 T2000-300 Exciter . 2.11 T2000-300 Power Amplifier . 2.11 2.8.3 T2000-500, T2000-600, T2000-700, -900 & -000 RF PCB. 2.12 T2000-500, -600, -700, -900 & -000 Receiver . 2.12 2.9.1 T2000-500, -600, -700 -900 & -000 Exciter . 2.13 2.9.2 2.9.3 T2000-500, -600, -700, -900 & -000 Power Amplifier. 2.13 31/12/97 Copyright TEL M2000-00 11 2.10 T2000-800 RF PCB . 2.14 T2000-800 Receiver. 2.14 T2000-800 Exciter . 2.15 T2000-800 Power Amplifier . 2.15 2.10.1 2.10.2 2.10.3 2.11 Control Module . 2.16 T2010 & T2015 HC05 Logic PCB . 2.16 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB . 2.19 2.11.1 2.11.2 3 3.1 Introduction To Servicing Servicing Precautions . 3.2 Caution: Accidental Transmit . 3.2 3.1.1 Caution: Antenna Loading . 3.2 3.1.2 3.1.3 Caution: Beryllium Oxide & Power Transistors . 3.2 Caution: CMOS Devices . 3.2 3.1.4 3.1.5 Caution: Screw Head Types . 3.3 3.2 Disassembly Instructions . 3.5 To Gain Access To The Logic PCB. 3.5 3.2.1 To Remove The Bottom Cover And Microprocessor Shield . 3.5 3.2.2 3.2.3 To Detach The Control Head . 3.6 3.2.3.1 Locally Mounted Models . 3.6 3.2.3.2 Remotely Mounted Models . 3.6 3.2.4 To Disassemble The Control Head . 3.7 3.2.4.1 T2010, T2015, T203X & T2060 Radios . 3.7 3.2.4.2 T2020, T2040 & T2050 Radios . 3.9 To Detach The EMC Filter PCB . 3.11 3.2.5 3.2.6 To Remote A Locally Mounted T2020, T2040 & T2050 . 3.11 3.3 Power Amplifier - Special Instructions . 3.12 To Replace PA Transistors . 3.12 3.3.1 3.3.2 To Remove Case Mica Capacitors . 3.12 3.4 Repair . 3.13 Surface Mount Devices . 3.13 3.4.1 Surface Mount Device (SMD) Precautions. 3.13 3.4.1.1 3.4.1.2 Servicing Equipment Required . 3.13 3.4.1.3 Removal & Replacement Of SMD Components . 3.15 3.4.1.4 Common Causes Of SMD Failure . 3.17 3.4.2 Leaded Component Removal. 3.17 3.4.2.1 Desoldering Iron Method . 3.17 3.4.2.2 Component Cutting Method . 3.18 3.5 Programming . 3.18 4 Functional Tests 4.1 Test Equipment Required. 4.2 4.2 Connecting The Radio. 4.3 Copyright TEL 31/12/97 12 4.3 Trunked Radios . 4.4 Trunking System Check . 4.4 4.3.1 M2000-00 4.4 Receiver Performance Tests . 4.5 To Check The Squelch Operation. 4.5 To Check The Squelch Ratio . 4.5 To Check The Audio Output Level And Distortion . 4.6 To Check The Sinad Sensitivity . 4.6 To Check The Signal+Noise To Noise Ratio. 4.7 To Check The Ultimate Signal To Noise Ratio. 4.7 RSSI. 4.7 To Check The Operation Of The Noise Blanker . 4.8 4.4.1 4.4.2 4.4.3 4.4.4 4.4.5 4.4.6 4.4.7 4.4.8 4.5 Transmitter Performance Tests . 4.9 4.5.1 Audio Processor . 4.9 4.5.1.1 To Check The Limiter Circuit Operation . 4.9 4.5.1.2 To Check The Audio ALC Operation . 4.9 4.5.1.3 To Check The Gain Of The Audio Processor . 4.10 4.5.2 Modulation Characteristics. 4.10 4.5.2.1 To Check The Above Limiting Response . 4.10 4.5.2.2 To Check The Below Limiting Response . 4.10 To Check The RF Power Control Circuit . 4.11 4.5.3 5 Fault Finding 5.1 Servicing Warning . 5.2 5.2 Visual Checks . 5.2 5.3 Component Checks . 5.2 Transistor Check. 5.2 Integrated Circuit (IC) Check . 5.2 5.3.1 5.3.2 5.4 DC Checks. 5.3 5.5 Receiver RF Checks . 5.4 VCO Frequency . 5.4 Control Line Voltages . 5.4 RF Sensitivity . 5.5 5.5.1 5.5.2 5.5.3 5.6 5.7 5.8 Transmitter RF Checks . 5.5 Trunked Radios: System Check . 5.6 5.7.1 Base Station Check . 5.6 5.7.1.1 T2030 Radios . 5.6 5.7.1.2 T2040 Radios . 5.6 Base Station Control Channel Hunt. 5.6 5.7.2 Trunked Radios: Test Mode . 5.7 5.8.1 Test Mode Overview . 5.7 5.8.2 Manual Test Mode (MTM) . 5.7 5.8.2.1 T2030 & T2035 MTM Operation. 5.8 31/12/97 Copyright TEL M2000-00 13 5.8.2.2 T2040 & T2050 MTM Operation. 5.9 5.8.3 Computer Controlled Test Mode (CCTM) . 5.9 5.8.3.1 CCTM Selection . 5.10 5.8.3.2 CCTM Protocol. 5.10 5.8.4 Power-Up State. 5.11 5.8.5 Test Facilities Available. 5.11 5.8.5.1 Resetting The Radio. 5.11 5.8.5.2 Test Facilities Table . 5.12 5.8.6 Trunked Radios: Radio Mode/Status Display Codes . 5.15 5.9 Options Interface Specifications . 5.17 5.10 Fault Finding Charts . 5.20 Radio Wont Switch On. 5.21 5.10.1 Radio Wont Program . 5.22 5.10.2 Synthesiser Faults. 5.23 5.10.3 Receiver Front End Faults. 5.24 5.10.4 Receiver IF Faults . 5.25 5.10.5 5.10.6 Receiver Mute Faults . 5.26 5.10.7 No Audio On Receive . 5.27 5.10.8 Transmitter RF Low Power Faults. 5.28 5.10.9 Transmitter Power Control Faults. 5.30 5.10.10 Transmit Audio Absent. 5.31 5.10.11 Trunked Radios: Radio Wont Acquire A Control Channel . 5.32 6 6.1 6.2 6.3 6.4 Tuning & Adjustment Tuning Precautions . 6.2 Tuning & Adjustment Points . 6.3 Trunked Radios . 6.5 Transmitter Adjustments . 6.5 6.4.1 Power Output . 6.5 TCXO Alignment . 6.6 6.4.2 Dual Point Modulation Adjustment . 6.6 6.4.3 6.4.4 CTCSS Modulation Adjustment . 6.7 6.4.5 LTR Code Deviation Adjustment. 6.7 6.4.6 Modulation Adjustment . 6.7 Selcall Tone Deviation . 6.8 6.4.7 6.4.8 FFSK Adjustment (Trunked Models Only) . 6.8 6.4.8.1 T203X Radios . 6.8 6.4.8.2 T2040 Radios . 6.8 6.5 Receiver Adjustments . 6.9 RF Alignment . 6.9 Internal Mute Control . 6.10 RSSI . 6.10 L Level Set-Up (Trunked Radios Only) . 6.10 6.5.1 6.5.2 6.5.3 6.5.3.1 Copyright TEL 31/12/97 14 7 7.1 7.2 7.3 7.4 7.5 7.6 M2000-00 PCB Information T2000-100 RF PCB Parts List . IPN 220-01331-02 . 7.1.1 Mechanical & Miscellaneous Parts . ". 7.1.4 Grid Reference Index. ". 7.1.5 PCB Layout - Top. ". 7.1.7 PCB Layout - Bottom. ". 7.1.8 Circuit . ". 7.1.9 T2000-200 RF PCB Parts List . IPN 220-01202-10 . 7.2.1 Mechanical & Miscellaneous Parts . ". 7.2.4 Grid Reference Index. ". 7.2.5 PCB Layout - Top. ". 7.2.7 PCB Layout - Bottom. ". 7.2.8 Circuits . ". 7.2.9 T2000-300 RF PCB Parts List . IPN 220-01314-01 . 7.3.1 Mechanical & Miscellaneous Parts . ". 7.3.4 Grid Reference Index. ". 7.3.5 PCB Layout - Top. ". 7.3.7 PCB Layout - Bottom. ". 7.3.8 Circuits . ". 7.3.9 T2000-400 RF PCB Parts List . IPN 220-01204-11 . 7.4.1 Mechanical & Miscellaneous Parts . ". 7.4.4 Grid Reference Index. ". 7.4.5 PCB Layout - Top. ". 7.4.7 PCB Layout - Bottom. ". 7.4.8 Circuits . ". 7.4.9 T2000-500/-600 RF PCB Parts List . IPN 220-01205-14 . 7.5.1 Mechanical & Miscellaneous Parts . ". 7.5.6 Grid Reference Index. ". 7.5.7 PCB Layout - Top. ". 7.5.9 PCB Layout - Bottom. ". 7.5.10 Circuits . ". 7.5.11 T2000-700/-900 RF PCB Parts List . IPN 220-01289-02 . 7.6.1 Mechanical & Miscellaneous Parts . ". 7.6.4 Grid Reference Index. ". 7.6.5 PCB Layout - Top. ". 7.6.7 PCB Layout - Bottom. ". 7.6.8 Circuit . ". 7.6.9 31/12/97 Copyright TEL M2000-00 15 7.7 7.8 7.9 7.9 T2000-800 RF PCB Parts List . IPN 220-01305-03 . 7.7.1 Mechanical & Miscellaneous Parts . " . 7.7.4 Grid Reference Index . " . 7.7.5 PCB Layout - Top . " . 7.7.7 PCB Layout - Bottom. " . 7.7.8 Circuits . " . 7.7.9 T2000 IF PCB Parts List . IPN 220-01384-00 . 7.8.1 PCB Layout - Top . " . 7.8.3 PCB Layout - Bottom. " . 7.8.4 Circuits . " . 7.8.5 T2000 TCXO/TX Audio PCB Parts List . IPN 220-01389-00 . 7.9.1 PCB Layout - Top . " . 7.9.3 PCB Layout - Bottom. " . 7.9.4 Circuits . " . 7.9.5 T2000 TCXO/TX Audio PCB Parts List . IPN 220-01389-02 . 7.9.7 PCB Layout - Top. " . 7.9.9 PCB Layout - Bottom. " . 7.9.10 Circuits . " . 7.9.11 7.10 T2010 & T2015 HC05 Logic PCB Parts List . IPN 220-01377-01 . 7.10.1 Mechanical & Miscellaneous Parts . " . 7.10.4 Grid Reference Index . " . 7.10.5 PCB Layout - Top . " . 7.10.7 PCB Layout - Bottom. " . 7.10.8 Circuit . " . 7.10.9 7.10 T2010 & T2015 HC05 Logic PCB Parts List . IPN 220-01377-02 . 7.10.11 Mechanical & Miscellaneous Parts . " . 7.10.14 Grid Reference Index . " . 7.10.15 PCB Layout - Top. " . 7.10.17 PCB Layout - Bottom. " . 7.10.18 Circuit . " . 7.10.19 7.10 T2010 & T2015 HC05 Logic PCB Parts List . IPN 220-01377-03 . 7.10.21 Mechanical & Miscellaneous Parts . " . 7.10.24 Grid Reference Index . " . 7.10.25 PCB Layout - Top. " . 7.10.27 PCB Layout - Bottom. " . 7.10.28 Circuit . " . 7.10.29 Copyright TEL 31/12/97 16 M2000-00 7.11 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB Parts List . IPN 220-01344-02 . 7.11.1 Mechanical & Miscellaneous Parts . ". 7.11.4 Grid Reference Index. ". 7.10.5 PCB Layout - Top. ". 7.11.7 PCB Layout - Bottom. ". 7.11.8 Circuits . ". 7.11.9 7.11 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB Parts List . IPN 220-01344-04 . 7.11.13 Mechanical & Miscellaneous Parts . ". 7.11.16 Grid Reference Index. ". 7.10.17 PCB Layout - Top . ". 7.11.19 PCB Layout - Bottom. ". 7.11.20 Circuits. ". 7.11.21 7.12 T2010 & T2030 Control Head PCB Parts List . IPN 220-01331-02 . 7.12.1 Mechanical & Miscellaneous Parts . ". 7.12.2 PCB Layout - Top. ". 7.12.3 PCB Layout - Bottom. ". 7.12.4 Circuits . ". 7.12.5 7.13 T2015 & T2060 Control Head PCB Parts List . IPN 220-01320-01 . 7.13.1 Mechanical & Miscellaneous Parts . ". 7.13.2 PCB Layout - Top. ". 7.13.3 PCB Layout - Bottom. ". 7.13.4 Circuits . ". 7.13.5 7.14 T2020, T2040 & T2050 Control Head PCB Parts List . IPN 220-01321-04 . 7.14.1 Mechanical & Miscellaneous Parts . ". 7.14.3 PCB Layout - Top. ". 7.14.5 PCB Layout - Bottom. ". 7.14.6 Circuits . ". 7.14.7 7.15 T2035 Control Head PCB Parts List . IPN 220-01322-03 . 7.15.1 Mechanical & Miscellaneous Parts . ". 7.15.2 PCB Layout - Top. ". 7.15.3 PCB Layout - Bottom. ". 7.15.4 Circuits . ". 7.15.5 7.16 T2000 EMC Filter PCB Parts List . IPN 220-01383-01 . 7.16.1 PCB Layout - Top. ". 7.16.3 PCB Layout - Bottom. ". 7.16.4 Circuit . ". 7.16.5 7.17 T2000 Data Interface Decoupling PCB Parts List . IPN 220-01388-01 . 7.17.1 PCB Layout - Top. ". 7.17.3 PCB Layout - Bottom. ". 7.17.4 Circuit . ". 7.17.5 31/12/97 Copyright TEL M2000-00 17 8 8.1 Accessories T2008 Power Supply . 8.1.1 Operation. 8.1.2 8.1.1 8.1.2 Performance Specifications. 8.1.3 Precautions . 8.1.5 8.1.3 Circuit Operation . 8.1.6 8.1.4 Installation. 8.1.8 8.1.5 8.1.6 Introduction To Servicing . 8.1.10 Setting Up The Power Supply . 8.1.12 8.1.7 Fault Finding. 8.1.14 8.1.8 Repair. 8.1.15 8.1.9 8.1.10 PCB Information. 8.1.17 8.2 Connection To External Devices . 8.2.1 Introduction . 8.2.1 Applications . 8.2.1 Connections. 8.2.2 T2010 & T2015 BCD Selection . 8.2.2 8.2.1 8.2.2 8.2.3 8.2.4 8.3 8.4 8.5 8.6 8.7 8.8 8.9 T2000-500 & T2000-600 1-7W Versions. 8.3.1 Components Required. 8.3.2 8.3.1 Fitting. 8.3.2 8.3.2 8.3.3 Set-Up . 8.3.4 Specifications . 8.3.4 8.3.4 T2000-05 Remote Speaker Kit . 8.4.1 8.4.1 Components Required. 8.4.1 Fitting. 8.4.1 8.4.2 T2000-06 Desktop Microphone Kit . 8.5.1 8.5.1 Introduction . 8.5.1 Fitting. 8.5.1 8.5.2 T2000-06 Set-Up . 8.5.1 8.5.3 8.5.4 Sensitivity . 8.5.2 T2000-07 DTMF Microphone Kit. 8.6.1 Fitting. 8.6.1 8.6.1 8.6.2 Operation. 8.6.1 T2000-07 Set-Up . 8.6.1 8.6.3 T2000-34 Selcall Kit . 8.7.1 8.7.1 Components Required. 8.7.2 Fitting. 8.7.2 8.7.2 8.7.3 Programming . 8.7.3 T2000-36 Selcall Kit . 8.8.1 Components Required. 8.8.2 8.8.1 Fitting. 8.8.2 8.8.2 8.8.3 PCB Information. 8.8.4 T2000-40 DTMF Kit . 8.9.1 Fitting. 8.9.1 8.9.1 8.9.2 Programming . 8.9.1 Copyright TEL 31/12/97 18 M2000-00 8.10 T2000-A450X CTCSS & Scrambler Kit . 8.10.1 8.10.1 Components Required. 8.10.2 Fitting . 8.10.2 8.10.2 T2000-A450X Link Options. 8.10.3 8.10.3 8.10.4 PCB Information. 8.10.5 8.11 T2000-50 Handsfree Kit. 8.11.1 8.11.1 Components Required. 8.11.2 8.11.2 Fitting . 8.11.2 Fitting The Complete Unit In The Vehicle . 8.11.3 8.11.3 T2000-50 Set-Up . 8.11.5 8.11.4 8.11.5 Signal Specifications. 8.11.7 8.11.6 Specifications. 8.11.8 8.11.7 Circuit Description . 8.11.8 8.11.8 PCB Information. 8.11.10 8.12 T2000-60 Dual Port UART Kit . 8.12.1 8.12.1 Components Required. 8.12.2 Fitting . 8.12.3 8.12.2 T2000-60 Link Options. 8.12.4 8.12.3 8.12.4 T2000-60 Set-Up . 8.12.5 Signal Specifications. 8.12.7 8.12.5 8.12.6 PCB Information. 8.12.9 8.13 T2000-A66 Single Port UART Kit. 8.13.1 8.13.1 Components Required. 8.13.2 Fitting . 8.13.2 8.13.2 8.13.3 Signal Specifications. 8.13.3 PCB Information. 8.13.4 8.13.4 8.14 T2000-80 Line Interface Kit. 8.14.1 8.14.1 Components Required. 8.14.2 Fitting . 8.14.2 8.14.2 Line Interface Options . 8.14.4 8.14.3 8.14.4 T2000-80 Set-Up . 8.14.7 8.14.5 Signal Specifications. 8.14.9 8.14.6 Applications . 8.14.10 8.14.7 Specifications. 8.14.16 8.14.8 Circuit Description . 8.14.18 8.14.9 PCB Information. 8.14.21 8.15 T2000-A70 Data Modem Kit. 8.15.1 8.15.1 Components Required. 8.15.2 8.15.2 Fitting . 8.15.2 T2000-A70 Link Options . 8.15.4 8.15.3 Signal Specifications. 8.15.5 8.15.4 8.15.5 Programming . 8.15.6 8.15.6 Circuit Description . 8.15.12 8.15.7 PCB Information. 8.15.13 8.16 T2000-A03/-A04/-A16 Remote Loom Kits . 8.16.1 8.16.1 Components Required. 8.16.2 Fitting To Locally Mounted Radios . 8.16.2 8.16.2 8.16.3 Fitting To Remote Mounted Radios. 8.16.6 31/12/97 Copyright TEL M2000-00 19 9 9.1 9.2 Software Identifying The Software Version Number . 9.2 Software History . 9.3 T2010 & T2015 Radios . 9.3 9.2.1 T2020 Radios . 9.4 9.2.2 T2030 & T3035 Radios . 9.5 9.2.3 9.2.4 T2040 Radios . 9.6 T2050 Radios . 9.7 9.2.5 9.2.6 T2060 Radios . 9.8 List Of Illustrations T2000 TCXO/TX Audio PCB Block Diagram . 2.4 Figure 2.1 T2000 IF PCB Block Diagram . 2.5 Figure 2.2 T2000-100 & -400 RF PCB Block Diagram . 2.6 Figure 2.3 T2000-200 RF PCB Block Diagram. 2.8 Figure 2.4 T2000-300 RF PCB Block Diagram. 2.10 Figure 2.5 T2000-500, -600, -700, -900 & -000 RF PCB Block Diagram . 2.12 Figure 2.6 T2000-800 RF PCB Block Diagram. 2.14 Figure 2.7 T2010 & T2030 Control Head Block Diagram . 2.17 Figure 2.8 T2015 & T2060 Control Head Block Diagram . 2.17 Figure 2.9 T2020, T2040 & T2050 Control Head. 2.18 Figure 2.10 Anti-Static Bench Set-Up. 3.2 Figure 3.1 Screwdriver Identification . 3.3 Figure 3.2 T2000 Series II Radio Assembly . 3.4 Figure 3.3 T2010, T2015 & T203X Control Head Assembly . 3.7 Figure 3.4 T2020, T2040 & T2050 Control Head Assembly - Locally Mounted. 3.9 Figure 3.5 T2020, T2040 & T2050 Control Head Assembly - Remotely Mounted. 3.10 Figure 3.6 EMC Filter PCB Mounting . 3.11 Figure 3.7 Identifying SMD Components . 3.14 Figure 3.8 SMD Soldering Guide . 3.16 Figure 3.9 Suggested Test Equipment Set-Up . 4.3 Figure 4.1 RF Test Cable . 5.5 Figure 5.1 RF & TXCO/Tx Audio PCBs - Tuning & Adjustment Points . 6.4 Figure 6.1 Receiver Tuning Amplifier . 6.9 Figure 6.2 T2008 Float Charging Protection Circuit . 8.1.9 Figure 8.1.1 T2008 Typical Waveforms . 8.1.15 Figure 8.1.2 T2000-500/600 PA - Top Side. 8.3.2 Figure 8.3.1 T2000-500/600 PA - Bottom Side . 8.3.3 Figure 8.3.2 T2000-500/600 PA - Bottom Side . 8.3.3 Figure 8.3.3 T2000 Power Connector . 8.4.2 Figure 8.4.1 T2000-34 Selcall PCB Mounting - T2010 & T2015 Logic PCB . 8.7.3 Figure 8.7.1 Figure 8.8.1 T2000-36 Selcall PCB Mounting . 8.8.2 Figure 8.10.1 T2000-A450X PCB Mounting . 8.10.2 Figure 8.11.1 T2000-50 Handsfree PCB Mounting . 8.11.2 Figure 8.11.2 T2000-50 Test Equipment Set-Up. 8.11.5 Copyright TEL 31/12/97 20 M2000-00 Figure 8.11.3 T2000-50 9 Way D-Range Connector (S21) . 8.11.7 Figure 8.12.1 T2000-60 UART PCB Mounting . 8.12.3 Figure 8.12.2 T2000-60 Test Equipment Set-Up. 8.12.5 Figure 8.12.3 T2000-60 15 Way D-Range connector (S21) . 8.12.8 Figure 8.13.1 T2000-A66 Single Port UART PCB Mounting . 8.13.3 Figure 8.13.2 9 Way D-Range Connector (SKT1). 8.13.3 Figure 8.14.1 T2000-80 Line Interface PCB Mounting (T2010/T2015 shown) . 8.14.2 Figure 8.14.2 T2000-80 Test Equipment Set-Up. 8.14.7 Figure 8.14.3 T2000-80 15 Way D-Range connector (S21) . 8.14.9 Figure 8.14.4 T2000-80 Line Interface PCB Block Diagram . 8.14.18 Figure 8.15.1 T2000-A70 PCB Mounting. 8.15.2 Figure 8.15.2 T2000-A70 Data Modem PCB Mounting . 8.15.3 Figure 8.15.3 Data Interface Decoupling PCB Mounting: Series I Chassis . 8.15.3 Figure 8.15.4 Data Interface Decoupling PCB Mounting: Series II Chassis . 8.15.4 Figure 8.15.5 9 Way D-Range Connector (SKT1) . 8.15.5 Figure 8.16.1 Remote Control Head Assembly . 8.16.3 Figure 8.16.2 Connector PCB Mounting . 8.16.4 Figure 8.16.3 EMC FIlter PCB Mounting . 8.16.4 Figure 8.16.4 Dummy Front Panel Assembly . 8.16.5 List Of Tables Table 5.1 Table 5.2 Table 5.3 Table 5.4 Table 5.5 Table 5.6 Table 6.1 Table 8.15.1 Table 8.15.2 Table 8.15.3 Table 8.15.4 T2000 Test Facilities . 5.13 Radio Mode/Status Display . 5.16 Options Connectors - Audio Signal Specifications . 5.17 Options Connectors - Supply Voltage Specifications . 5.17 Options Connectors - Logic Signal Specifications . 5.18 BCD Channel Selection (T2010 & T2015 only) . 5.19 Tuning & Adjustment Point . 6.3 Message Format . 8.15.7 Messages To The Radio Unit . 8.15.8 Messages From The Radio Unit . 8.15.10 Software Test Commands . 8.15.11 31/12/97 Copyright TEL M2000-00 1.5 Remote Control Head Dimensions:

Length Width Height Weight (radio & control head)

.. 26mm

.. 159mm

.. 51mm

.. 1.2kg Receiver Performance 1.2.3 Type:

All Except T2000-200 T2000-200

.. triple conversion superheterodyne

.. dual conversion superheterodyne Sensitivity:

12dB Sinad 20dB Sinad (psophometric) 20dB Quieting

.. better than -117dBm

.. better than -113dBm

.. better than -113dBm IF Amplifiers:

Frequencies:

T2000-200 T2000-100, -300, -400 T2000-500, -600, -700, -900, -000 T2000-800

.. 10.7MHz and 455kHz

.. 27.7MHz, 10.7MHz and 455kHz

.. 49.1MHz, 10.7MHz and 455kHz

.. 61.9MHz, 10.7MHz and 455kHz First Local Oscillator Injection (with respect to signal):

T2000-200, -300 T2000-100, -400, -500, -600, -700, -800,

-900, -000

.. high side low side

.. Second Local Oscillator Injection (with respect to signal):

T2000-100, -300, -400 T2000-200, -500, -600, -700, -800, -900, -000 .. . high side low side Third Local Oscillator Injection (with respect to signal):

T2000-100, -300, -400 T2000-500, -600, -700 -800, -900, -000

.. . low side low side Bandwidth:

Narrow Band Medium Band Wide Band

.. 7.5kHz

.. 12kHz

.. 15kHz Signal-to-Noise Ratio (with respect to 100% deviation, at RF level of -47dBm):

Narrow Band Medium Band Wide Band All Except T2000-800 T2000-800

.. 45dB

.. 48dB

.. 50dB

.. 45dB Copyright TEL 31/12/97 1.6 Audio:

Minimum Load Impedance Rated Power (into 4W Distortion:

@ Rated Power (1kHz)

@ 0.5W (0.3 to 3.0kHz) Response Bandwidth M2000-00

.. 2W

.. 4W (at 1kHz)

.. <5%

.. <3% (narrow band)

<2.5% (medium band)

<2% (wide band)

.. within +1, -3dB of 6dB/octave de-emphasis

.. 300Hz to 3kHz Selectivity

.. better than 70dB Spurious Response Attenuation All Except T2000-000, -800 T2000-000 T2000-800

.. 75dB (80dB EIA)

.. 60dB

.. 70dB (70dB EIA) Intermodulation Response Attenuation

.. 66dB (75dB EIA) Spurious Emissions

(conducted & radiated to 1GHz) Spurious Emissions

(conducted & radiated 1 to 4GHz) Blocking Co-channel Rejection:

Narrow Band Medium Band Wide Band Group Delay Squelch:

Preset Level Ratio Voting Levels

.. better than -57dBm

.. better than -47dBm

.. better than -23dBm

.. better than 9dB

.. better than 7dB

.. better than 6dB

.. 50m s (300Hz to 3kHz)

.. 11dB sinad

.. >70dB

.. >20dB sinad

(applies to T2020 only) 31/12/97 Copyright TEL M2000-00 1.7 1.2.4 Transmitter Performance Power Output:

Maximum:

All Except T2000-800 T2000-8000 High (high setting):

All Except T2000-800 T2000-8000 Low (low setting):

T2000-200, -300, -400 T2000-100, -500, -600, -700, -900 T2000-800 Low Power Version

. . 30W

.. 25W

.. 25W

.. 15W

.. 1 to 25W

.. 5 to 25W

.. 5 to 15W

.. 1 to 7W (T2000-500, -600) Duty Cycle (33%)

.. 2 minutes Tx, 4 minutes Rx Lock Up Time (synthesiser)

.. 25ms (from PTT to 90% output power within 2kHz, not including micro. delay) Spurious Emissions

(conducted & radiated to 1GHz) Spurious Emissions

(conducted & radiated to 1 to 4GHz)

.. better than -36dBm

.. better than -30dBm Adjacent Channel Power:

Narrow Band Medium Band Wide Band Group Delay Modulation System:

Type Deviation Limiting:

Narrow Band Medium Band Wide Band Bandwidth:

Narrow Band Medium & Wide Band Responses:

In Limiting Below Limiting Above 3kHz

-70dBc

-80dBc

.. better than -65dBc

.. . . +200/-50m s (300Hz to 3kHz)

.. direct FM

.. 2.5kHz (peak) max. . 4kHz (peak) max. . 5kHz (peak) max. . 300Hz to 2.55kHz below limiting or 450Hz to 2.55kHz in limiting

.. 300Hz to 3kHz below limiting or 450Hz to 3kHz in limiting

.. within +0dB, -4dB of maximum system deviation

.. within +1, -3dB of 6dB/octave pre-emphasis

.. greater than 25dB/octave roll-off Copyright TEL 31/10/96 1.8 Audio:

M2000-00 Microphone Type Input For 60% Deviation

.. dynamic or electret

.. 1.5mVrms maximum (at 1kHz) Distortion Hum & Noise:

All Except T2000-800:

Narrow Band Medium Band Wide Band T2000-800:

Wide Band Mismatch Capability:

Ruggedness Stability

.. 5%

.. 39dB

.. 43dB

.. 45dB

.. 40dB

.. 2 minutes transmission into infinite VSWR

.. VSWR 5:1 (all phase angles) Transmit Timer (non-trunking models)

.. programmable up to 4 minutes, or continuous. 1.2.5 Frequency Reference Oscillator Frequency

.. 12.8MHz Crystal Stability And Source Details

.. see table below:

Product Code T2XX-XX1 T2XX-XX3*

T2XX-XX5 T2XX-XX6 Frequency Tolerance

(ppm) 5 3 2.5 2.0 Temperature Range (C) Frequency Source

-10 to +60

-30 to +60

-30 to +60

-30 to +60 TE/45 xtal VXO-2605A Module VXO-2605A-1 Module TDC 60281 Module

*. Not fitted to T2000-200 due to low modulatibility. Fitted only to 400MHz versions and above, due to low modulatibility. 31/10/96 Copyright TEL M2000-00 1.2.6 Trunking 1.9 1.2.6.1 T2030, T2035, T2040 & T2050 Models Data Modulation

.. as per MPT1317 Data Deviation (Tx: 60% full system deviation):

Narrow Band Medium Band Wide Band 1.2.6.2 T2060 Model System

.. 1.5kHz

.. 2.4kHz

.. 3kHz

.. LTR trunked1, systems x groups = 24 Data Deviation (Tx)

.. 1kHz 1.3 Operating Instructions Refer to the Users Guide supplied with the radio. These are also available separately under the following IPNs:

T2010/T2015 T2020 T2030/T2035 T2040 T2060 459-20100-0X 459-20200-0X 459-20300-0X 459-20400-0X 459-20600-0X Comprehensive Operators Manuals are also available for T2020 and T2040 radios. These Manuals cover such topics as advanced user operations and the use of trunked radios for data applications. These are available under the following IPNs:

T2020 T2040 409-20200-0X 409-20400-0X 1. LTR is a trademark of E F Johnson & Co. Copyright TEL 31/12/97 1.10 1.4 Product Codes M2000-00 The 3 groups of digits in a T2000 product code provide information about the radios model, RF type and options fitted, according to the conventions described below. The following explanation of the T2000 product codes is not intended to suggest that any combination of features is necessarily available in any one radio. For details regard-

ing availability of specific T2000 radios, consult your nearest Tait dealer or subsidiary. Model The Model group indicates the basic features of the radio, as follows:

T20XX-XXX-XXX 4 channels 24 channels 100 channels 4 calls, all preset 1000 calls, including 20 preset T2010 T2015 T2020 T2030 T2035 T2040 dialled calls T2050 dual mode T2040 or T2020 operation trunked, non-trunked T2060 LTR, systems x groups = 24 trunked trunked trunked trunked RF Type RF Type group uses 3 digits to indicate the basic RF configuration of the radio. The first digit in the RF Type group designates frequency band. T20XX-XXX-XXX 1 for 220 to 270MHz 2 for 66 to 88MHz 3 for 136 to 174MHz 4 for 175 to 225MHz 5 for 400 to 470MHz 6 for 450 to 520MHz 7 for 330 to 360MHz 8 for 800 to 870MHz transmit 851 to 870MHz receive 9 for 360 to 400MHz 0 for 500 to 530MHz The second digit in the RF Type group designates radio IF bandwidth. T20XX-XXX-XXX 1 for wide band (15kHz) 2 for narrow band (7.5kHz) 3 for medium band (12.5kHz) The third digit in the RF Type group designates frequency stability. T20XX-XXX-XXX refer to Frequency Reference on page 1.8. Options T20XX-XXX-XXX The third group of digits covers a wide range of software and mar-

ket specific options. The large number of options and their frequent changes preclude listing them here. 31/10/96 Copyright TEL M2000-00 Introduction To Servicing 3.1 3 Introduction To Servicing This Section provides information necessary for servicing T2000 Series II radios, and covers the following topics:

Section Title Page 3.1 Servicing Precautions 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 Caution: Accidental Transmit Caution: Antenna Loading Caution: Beryllium Oxide & Power Transistors Caution: CMOS Devices Caution: Screw Head Types 3.2 Disassembly Instructions 3.2.1 3.2.2 3.2.3 3.2.3.1 3.2.3.2 3.2.4 3.2.4.1 3.2.4.2 3.2.5 3.2.6 To Gain Access To The Logic PCB To Remove The Bottom Cover And Microprocessor Shield To Detach The Control Head Locally Mounted Models Remotely Mounted Models To Disassemble The Control Head T2010, T2015, T203X & T2060 Radios T2020, T2040 & T2050 Radios To Detach The EMC Filter PCB To Remote A Locally Mounted T2020, T2040 & T2050 3.3 3.4 Power Amplifier - Special Instructions 3.3.1 3.3.2 To Replace PA Transistors To Remove Case Mica Capacitors Repair 3.4.1 3.4.1.1 3.4.1.2 3.4.1.3 3.4.1.4 3.4.2 3.4.2.1 3.4.2.1 Surface Mount Devices Surface Mount Device (SMD) Precautions Servicing Equipment Required Removal & Replacement Of SMD Components Common Causes Of SMD Failure Leaded Component Removal Desoldering Iron Method Component Cutting Method 3.5 Programming 3.2 3.2 3.2 3.2 3.2 3.3 3.5 3.5 3.5 3.6 3.6 3.6 3.7 3.7 3.9 3.11 3.11 3.12 3.12 3.12 3.13 3.13 3.13 3.13 3.15 3.17 3.17 3.17 3.18 3.18 Copyright TEL 30/12/97 3.2 3.1 Introduction To Servicing M2000-00 Servicing Precautions 3.1.1 Caution: Accidental Transmit Under certain circumstances the microprocessor can key the transmitter. Ensure that all instruments are protected from accidental transmit at all times. 3.1.2 Caution: Antenna Loading The equipment has been designed to operate with a 50W termination impedance, but will tolerate a wide range of antenna loading conditions. However, it is strongly recom-

mended that the transmitter is not operated in the absence of a suitable load. Failure to observe this precaution may result in damage to the transmitter power output stage. 3.1.3 Caution: Beryllium Oxide & Power Transistors The RF power transistors in the T2000 all contain some beryllium oxide. This substance, while perfectly harmless in its normal solid form, can become a severe health hazard when it has been reduced to dust. For this reason the RF power transistors should not be scratched, mutilated, filed, machined, or physically damaged in any way that can produce dust particles. 3.1.4 Caution: CMOS Devices This equipment contains CMOS Devices which are susceptible to damage from static charges. Care when handling these devices is essential. For correct handling procedures refer to manufacturers data books covering CMOS devices, e.g. Philips Data Handbook Covering CMOS Devices; Motorola CMOS Data Book Section 5 (Handling Procedures), etc. The following diagram shows a typical anti-static bench set-up. conductive wrist strap conductive rubber bench mat to building earth

(not mains earth) via 1M series resistor metal frame Figure 3.1 Anti-Static Bench Set-Up 31/10/96 Copyright TEL M2000-00 Introduction To Servicing 3.3 3.1.5 Caution: Screw Head Types Pozidriv screws are the preferred standard on all T2000 series equipment. Pozidriv No. 1 and 2 screwdrivers will fit all pozidriv screws used in the T2000: Philips cross-head screwdrivers are not satisfactory for use on these screws. The following diagram identifies the differences between Philips and Pozidriv screw-

drivers. Pozidriv Philips internal notches no special markings

"star" markings between slots slots with parallel sides slots with tapered sides driving flutes with parallel sides driving flutes with tapered sides ridges between driving flutes Figure 3.2 Screwdriver Identification The diagrams on the following pages show the types of screws used in the T2000 Series II radios, their locations and torque specifications. Copyright TEL 31/10/96 3.4 Introduction To Servicing M2000-00 3 4 8 14 10 12 1 2 6 11 13 3 4 5 7 9 12 14 Item Description IPN Quantity Torque (in.lb) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 TOP COVER LOGIC PCB SCREW M3X8 PANPOZI TAPTITE (LOGIC PCB SCREWS) MACHINE SCREW M4X25 (MICRO. SHIELD SCREWS) MICROPROCESSOR SHIELD CHASSIS D-RANGE BLANKING PLATE SCREW M3X8 PANPOZI TAPTITE (RF CONNECTOR SCREWS) RF CONNECTOR PLATE RF CONNECTOR RF PCB SCREW M3X8 PANPOZI TAPTITE (RF PCB SCREWS) BOTTOM COVER M4X35 PANPOZI TAPTITE (BOTTOM COVER SCREWS) 303-23134-01 SEE PARTS LIST 349-00020-32 345-00050-18 319-01164-XX 308-13093-XX 360-01053-XX 349-00020-32 SEE PARTS LIST

(SECTION 7) 349-00020-32 303-23135-XX 349-00020-49 1 1 3 3 1 1 1 2 1 1 1 4 1 4 Figure 3.3 T2000 Series II Radio Assembly 8 12 8 8 12 31/10/96 Copyright TEL M2000-00 Introduction To Servicing 3.5 3.2 Disassembly Instructions Caution: To carry out alignment it is necessary to remove only the top cover (1) and logic PCB retaining screws (3). It is essential that the bottom cover (13) and microprocessor shield (5) with its three retaining screws (4) are torqued down as specified in Figure 3.3. Caution: Various electronic components within the radio can be damaged by elec-

trostatic discharge. A properly grounded earth mat and wrist strap should be used at all times (refer to Section 3.1.4). 3.2.1 To Gain Access To The Logic PCB Refer to Figure 3.3. Remove the top cover (1) by unscrewing the four bottom cover screws (14). Remove the three logic PCB retaining screws (3). It should now be possible to open out the logic PCB (2), giving access to both sides of the logic PCB, and access to the RF PCB (11) tuning points, audio, plug-in TCXO PCB and loop filter components. 3.2.2 To Remove The Bottom Cover And Microprocessor Shield Refer to Figure 3.3. Remove the top cover and logic PCB screws as instructed in Section 3.2.1, then remove the three microprocessor shield retaining screws (4). Remove the screw securing the earthing wire from the control head to the micro-

processor shield. It should now be possible to lift off the microprocessor shield (5) and the bottom cover (13). This will give access to both sides of the RF PCB and IF PCBs, and enable the con-

trol head to be removed. Copyright TEL 31/10/96 3.6 Introduction To Servicing M2000-00 3.2.3 To Detach The Control Head 3.2.3.1 Locally Mounted Models Remove all covers, as instructed in Section 3.2.2. Unplug the loom running between the control head and the logic PCB. Note:

In EMC model radios, the loom connects to a Micromatch connector on the EMC filter PCB (refer to Section 3.2.5). 3.2.3.2 Remotely Mounted Models Remove the four screws on the front of the radio dummy front panel. This will give access to the control head loom, which can now be unplugged. Note:

In EMC model radios, the loom connects to a Micromatch connector on the EMC filter PCB (refer to Section 3.2.5). 30/12/97 Copyright TEL M2000-00 Introduction To Servicing 3.7 3.2.4 To Disassemble The Control Head 3.2.4.1 T2010, T2015, T203X & T2060 Radios 7 8 1 2 4 3 5 6 9 10 12 11 14 13 16 15 Item Description IPN Quantity Torque (in.lb) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 KNOB MICROPHONE GROMMET FRONT PANEL VOLUME POT NUT VOLUME POT WASHER VOLUME POT LIGHTSPREADER LIGHTSPREADER BUTTON BASIC KEYPAD VOLUME POT POT PCB MICROPHONE CONNECTOR SPEAKER CONTROL HEAD PCB (T2010, T2015, T203X, OR T2060) NO 4X3/8 SCREW (CONTROL HEAD SCREWS) ADAPTOR PLATE NO 4X5/8 SCREW (ADAPTOR PLATE SCREWS) 311-01042-XX 360-02003-XX 316-03095-XX SEE PARTS LIST

(SECTION 7) 304-07037-XX 304-07035-XX 311-03095-XX SEE PARTS LIST

(SECTION 7) 250-00010-19 SEE PARTS LIST 349-00010-22 301-00001-XX 349-00010-24 1 1 1 1 1 1 1 1 1 1 1 1 1 3 1 4 8 8 Figure 3.4 T2010, T2015 & T203X Control Head Assembly Refer to Figure 3.4. Remove the control head from the main chassis, as instructed in Section 3.2.3. Remove the four adaptor plate retaining screws (16). Remove the control head PCB retaining screws (14). Copyright TEL 31/10/96 3.8 Introduction To Servicing M2000-00 The screws used in the control head are No. 4 Plastites, and should not be con-

fused with the M3 screws used elsewhere. When being replaced, the No. 4 Plas-

tite screws must be tightened to a torque of 8in.lb (0.9Nm). With the control head face down, gently remove the PCB (13), along with the key-

pad (8) and lightspreader (7). Do not disturb the positioning or height of the LEDs, as this is critical for reas-

sembly. Remove the speaker by carefully removing the four speaker retaining spire nuts. Remove of the volume knob (1) and volume pot nut (5) to access the volume knob light spreader (6). 31/10/96 Copyright TEL M2000-00 Introduction To Servicing 3.9 3.2.4.2 T2020, T2040 & T2050 Radios 6 7 8 1 2 3 12 4 9 5 10 11 13 14 15 16 Item Description IPN Quantity Torque (in.lb) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 KNOB MICROPHONE GROMMET FRONT PANEL VOLUME POT NUT VOLUME POT WASHER LIQUID CRYSTAL DISPLAY (LCD) LIGHTSPREADER ENHANCED KEYPAD VOLUME POT POT PCB MICROPHONE CONNECTOR LENS CONTROL HEAD PCB (T2020, T2040 OR T2050) NO 4X3/8 SCREW (CONTROL HEAD SCREWS) ADAPTOR PLATE NO 4X5/8 SCREW (ADAPTOR PLATE SCREWS) 311-01042-XX 360-02003-XX 316-06427-XX SEE PARTS LIST

(SECTION 7) 008-02029-XX 304-07036-XX 311-03096-XX SEE PARTS LIST

(SECTION 7) 312-01046-XX SEE PARTS LIST 349-00010-22 301-00001-XX 349-00010-24 1 1 1 1 1 1 1 1 1 1 1 1 1 3 1 4 8 8 Figure 3.5 T2020, T2040 & T2050 Control Head Assembly - Locally Mounted Refer to Figure 3.5 and Figure 3.6. Remove the control head from the main chassis, as instructed in Section 3.2.3. Remove the four adaptor plate/remote back panel retaining screws (16). Remote mounted models also have two captive nuts (17) fitted in the back cover. Note: EMC model radios have 4 ESD plugs fitted over the remote back panel screws. These will need to be removed to access the remote back panel screws. Remove the control head PCB retaining screws (14). The screws used in the control head are No. 4 Plastites, and should not be con-

fused with the M3 screws used elsewhere. When being replaced, the No. 4 Plas-

tite screws must be tightened to a torque of 8in.lb (0.9Nm). Copyright TEL 30/12/97 3.10 Introduction To Servicing M2000-00 With the control head face down, gently remove the PCB (13), along with the key-

pad (8) and lightspreader (7). Do not disturb the positioning or height of the LEDs, as this is critical for reas-

sembly. Carefully remove the LCD (6) and lens (12). Lay the front panel (3) on a horizontal surface, with the light spreader (7) in place. Remove the volume knob (1) and volume knob nut (5) to access the lightspreader and keypad (8). Before reassembly, the LCD and PCB edge connectors should be wiped with alco-

hol. Take care to ensure the alcohol does not come in contact with the coating on the light spreader, as this will dissolve on contact with alcohol. Item Description IPN Quantity Torque (in.lb) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 KNOB MICROPHONE GROMMET FRONT PANEL VOLUME POT NUT VOLUME POT WASHER LIQUID CRYSTAL DISPLAY (LCD) LIGHTSPREADER ENHANCED KEYPAD VOLUME POT POT PCB MICROPHONE CONNECTOR LENS CONTROL HEAD PCB (T2020, T2040 OR T2050) NO 4X3/8 SCREW (CONTROL HEAD SCREWS) REMOTE BACK PANEL NO 4X5/8 SCREW (REMOTE BACK SCREWS) CAPTIVE NUT M4 PRESSED REMOTING CONNECTOR COVER 360-02003-XX 316-06427-XX SEE PARTS LIST

(SECTION 7) 008-02029-XX 304-07036-XX 311-03096-XX SEE PARTS LIST

(SECTION 7) 312-01046-XX SEE SECTION 7 PARTS 349-00010-22 318-08432-XX 349-00010-24 352-00010-17 316-85125-XX 1 1 1 1 1 1 1 1 1 1 1 1 1 3 1 4 2 1 8 8 Figure 3.6 T2020, T2040 & T2050 Control Head Assembly - Remotely Mounted 30/12/97 Copyright TEL M2000-00 Introduction To Servicing 3.11 3.2.5 To Detach The EMC Filter PCB Refer to Figure 3.7. Remove the top cover and open the logic PCB, as described in Section 3.2.1. Remove the microprocessor shield and bottom cover, as described in Section 3.2.2. The control head (locally mounted models) or dummy front panel (remotely mounted models) can now be removed. Unplug the loom running between the logic PCB and EMC filter PCB (18). Unplug the loom running between the EMC filter PCB and the control head. Remove the 4 EMC filter PCB retaining screws. The EMC filter PCB can now be lifted from the chassis. Figure 3.7 EMC Filter PCB Mounting 3.2.6 To Remote A Locally Mounted T2020, T2040 & T2050 Refer to Section 8.16, T2000-A03/-A04/-A16 Remote Loom Kits. Copyright TEL 30/12/97 3.12 3.3 Introduction To Servicing M2000-00 Power Amplifier - Special Instructions Caution: As the location of certain components in the PA is critical to performance, it is important that any components removed or disturbed are refitted in exactly the same location. 3.3.1 To Replace PA Transistors Desolder the tabs by heating them with a soldering iron, then lifting them up towards the transistor with a thin stainless steel spike or screwdriver. Unscrew the transistor mounting stud nut or screws and remove the transistor. Trim the tabs of the replacement to make them similar to the faulty item, then lightly tin the underside of the tabs. Apply a thin layer of heatsink compound to the underside of the transistor. Screw the transistor tightly to the heatsink then solder the tabs. Do not solder the tabs before tightening the screws or nut, as this will fracture the device. 3.3.2 To Remove Case Mica Capacitors Apply a heavy duty soldering iron to the top of the capacitor case. When the solder is molten, ease the capacitor away from the PCB with a thin stainless steel spike or screwdriver. 31/10/96 Copyright TEL M2000-00 Functional Tests 4.1 4 Functional Tests This Section details test procedures will confirm that the T2000 has been adjusted cor-

rectly and is fully operational. The following topics are covered:

Section Title 4.1 4.2 4.3 4.4 Test Equipment Required Connecting The Radio Trunked Radios 4.3.1 Trunking System Check Receiver Performance Tests 4.4.1 4.4.2 4.4.3 4.4.4 4.4.5 4.4.6 4.4.7 4.4.8 To Check The Squelch Operation To Check The Squelch Ratio To Check The Audio Output Level & Distortion To Check The Sinad Sensitivity To Check The Signal+Noise to Noise Ratio To Check The Ultimate Signal To Noise Ratio RSSI To Check The Operation Of The Noise Blanker 4.5 Transmitter Performance Tests 4.5.1 4.5.1.1 4.5.1.2 4.5.1.3 4.5.2 4.5.2.1 4.5.2.2 4.5.3 Audio Processor To Check The Limiter Circuit Operation To Check The Audio ALC Operation To Check The Gain Of The Audio Processor Modulation Characteristics To Check The Above Limiting Response To Check The Below Limiting Response To Check The RF Power Control Circuit Page 4.2 4.3 4.4 4.4 4.5 4.5 4.5 4.6 4.6 4.7 4.7 4.7 4.8 4.9 4.9 4.9 4.9 4.10 4.10 4.10 4.10 4.11 Copyright TEL 31/10/96 4.2 4.1 Functional Tests M2000-00 Test Equipment Required The following equipment is required for functional testing. Power supply cord, wired as shown in Section 8.3. Power supply adjustable between 9 & 16V DC, with a capacity of at least 8A. VHF or UHF signal generator: good quality FM 50W 200mV (0dBm) pd (e.g. HP8640B, Marconi 2019).

, usable from 0.1V (-127dBm) to Frequency counter: 10Hz to 650MHz, 2ppm stability, with at least a 2s time base res-

olution (e.g. Opto). Audio signal generator: 600W output, -50 to 0dB level, fully adjustable, sine wave output 10Hz to 100kHz (e.g. Trio 203, HP204C/D). FM deviation meter (e.g. Sayrosa 257 or 252), with the following specifications:

low residual FM resolution down to a full scale of 1kHz and a minimum of 10kHz

- maximum positive and negative peak display

- 15kHz low pass filter

- detected audio output facility. Note: When using with LTR or DCS, the deviation meter must have a good low fre-

quency response, to avoid incorrect deviation readings. Sinad meter or audio distortion analyser, 1kHz notch type (e.g. HP334A, HP339A or Helper Instruments Sinadder). AC millivoltmeter (e.g. Trio VT-106). Digital multimeter (e.g. Fluke 75). 20MHz dual channel oscilloscope and X10 . X1 scope probes (e.g. Trio CS1022). RF power meter, 50W

; RF detecting element 50W and 5W for appropriate frequency ranges (e.g. Bird Meter 6154 or 611). RF power attenuator, 50W 150W).

, total attenuation 30dB (e.g. Weinschel 40-40-33 30dB, Microphone test box (refer to Figure 4.1). A multifunction test set may be used as long as it has the appropriate function to per-

form the calibration correctly e.g. Rhode & Schwarz CMS52 Radio Communications Test Set, with a high stability oscillator. 31/12/97 Copyright TEL M2000-00 Tuning & Adjustment 6.1 6 Tuning & Adjustment This Section details procedures for tuning and adjustment of T2000 series II radios. This is normally only required during product manufacture or after major servicing. The following topics are covered in this Section:

Section Title 6.1 6.2 6.3 6.4 6.5 Tuning Precautions Tuning & Adjustment Points Trunked Radios Transmitter Adjustments 6.4.1 6.4.2 6.4.3 6.4.4 6.4.7 6.4.5 6.4.7 6.4.8 6.4.8.1 6.4.8.2 6.5.1 6.5.2 6.5.3 6.5.3.1 Power Output TCXO Alignment Dual Point Modulation Adjustment CTCSS Modulation Adjustment Modulation Adjustment LTR Code Deviation Adjustment Selcall Tone Deviation FFSK Adjustment (Trunked Models Only) T203X Radios T2040 Radios Receiver Adjustment RF Alignment Internal Mute Control RSSI L Level Set Up (Trunked Radios Only) Page 6.2 6.3 6.5 6.5 6.5 6.6 6.6 6.7 6.7 6.7 6.7 6.8 6.8 6.8 6.9 6.9 6.10 6.10 6.10 Copyright TEL 31/10/96 6.2 6.1 Tuning & Adjustment M2000-00 Tuning Precautions Refer to Section 4.1 for a list of test equipment required and a suggested test set-up. The following precautions must be observed when carrying out the alignment procedures in this Section. The microprocessor shield must remain in place throughout the alignment proce-

dure, with its 3 retaining screws torqued down to 8in.lbf (0.9Nm). To gain access to the alignment test points and adjustment controls, it is only neces-

sary to remove the top cover and logic PCB mounting screws (refer to Section 3.2.1). For accurate tuning, the test cable connecting the signal generator or power meter to the T2000 must be as short as practical and fitted with a mating BNC connector. Do not use adaptors, sniffer couplings, etc., which introduce changes to cable impedance and errors in test results. Non-metallic tuning tools must be used for the alignment of all coil slugs. The use of metallic tools will result in tuning errors. Tuning tools need to be of correct size to avoid the damage to coil slugs. The RF PA and audio output IC have a direct unswitched supply, and are therefore not controlled by the control head on/off switch. This switch removes power only from the regulated supplies. Caution: Under certain circumstances the microprocessor can key the transmitter. Ensure that all instruments are protected from accidental PTT at all times. 31/10/96 Copyright TEL M2000-00 Tuning & Adjustment 6.3 6.2 Tuning & Adjustment Points The following table lists tuning and adjustment points, and Figure 6.1 shows their posi-

tion on the RF and TCXO/Tx audio PCBs. The PCB layouts in Section 7 have all relevant logic PCB test and adjustment points marked. Tuning/Adjustment Point:

Designator RV153 RV222 RV324 CV212 L104 to L106 L114 & L116 L119 L203 RV906 RV907 RV923 RV507

#RV508

#RV599 Test Points:

Designator TSP901 TP601 TP602 TP603 TP604 TP605 TP606 TP607 Location RF PCB TCXO/Tx audio PCB logic PCB Location TCXO/Tx audio PCB logic PCB Function internal squelch control dual point modulation control high power control x4 multiplier

(only used in T2000-800) front end tuning

(not used in T2000-800) IF tuning quad coil x3 /x4 multiplier

(not used in T2000-200) CTCSS deviation control deviation control frequency control low power control T2010, T2015 & T2020:

signalling adjust (not fitted as standard) T203X, T2040, T2050 & T2060:

FFSK adjust Function dual point modulation test point Rx audio (detected) Tx CTCSS Rx CTCSS Rx audio Tx audio ALC audio pre-amp output Table 6.1 Tuning & Adjustment Point Copyright TEL 31/12/97 6.4 Tuning & Adjustment M2000-00

(T2000-800 only) Figure 6.1 RF & TXCO/Tx Audio PCBs - Tuning & Adjustment Points-

31/12/97 Copyright TEL M2000-00 Tuning & Adjustment 6.5 6.3 Trunked Radios The test facility enables T2000 trunked radios to emulate a multichannel radio, using the frequencies reserved for trunking. For a description of how to put the radio in test mode, refer to Section 5.8 Trunked Radios: Test Mode. Once the radio is in test mode, tuning and adjustment can be car-

ried out as described in Section 6.4 and Section 6.5. Caution: When in test mode, connect the antenna socket to a dummy load to pre-

vent interference with trunking systems. Avoid testing on channels in use locally. 6.4 Transmitter Adjustments In this Section, deviation settings are given first for wide band, followed by settings for medium band in brackets ( ) and settings for narrow band in square brackets [ ]. 6.4.1 Power Output Set up the test equipment as shown in Section 4, and close the PTT switch. Turn RV324 fully clockwise and check that the output power is greater than 30W for all channels. Select a channel programmed for high power and adjust RV324 for 25W. Check that the transmit current is approximately the values stated below:

Model T2000-100 T2000-200 T2000-300 T2000-400 T2000-500 T2000-600 T2000-700/900 T2000-800 Current 6A 6A 6A 6A 6.5A 7A 6.5A 6A Select a channel programmed for low power and adjust RV507 for the required output power. Copyright TEL 31/10/96 6.6 Tuning & Adjustment 6.4.2 TCXO Alignment M2000-00 Close the PTT switch and monitor the transmit frequency with a frequency coun-

ter. Adjust RV923 on the TCXO/Tx audio PCB for a channel frequency within 100Hz at ambient temperature. 6.4.3 Dual Point Modulation Adjustment DC isolate the audio generator from TSP901 using a capacitor (10F is sufficient). Set the audio generator to 7kHz and inject the audio into the dual point modula-

tion input TSP901 on the TCXO/Tx audio PCB. Close the PTT switch and select the lowest frequency channel. Adjust the audio generator level to give a reading of 5.2kHz deviation on the modulation meter. Remove any filters selected on the deviation or modulation meter which could give erroneous readings. Select the highest frequency channel and check that the deviation is 4.8kHz. If not, adjust the audio generator output level so that the average deviation of the two channels is 5kHz. The difference in deviation between the two channels must be less than 800Hz. Select the lowest frequency channel, set the audio generator to 70Hz and inject the audio at TSP901. Adjust RV222 to give 4.8kHz deviation on the modulation meter. Select the highest frequency channel and check that the deviation is 5.2kHz. If not, adjust RV222 so that the average deviation of the two channels is 5kHz. The difference in deviation between the two channels must be less than 400Hz. 31/10/96 Copyright TEL M2000-00 Tuning & Adjustment 6.7 6.4.4 CTCSS Modulation Adjustment The following instructions apply only to those radios with CTCSS activated and must be carried out before any further modulation adjustment can proceed. Refer to the T2000 Programming Manual for the CTCSS channel programming instructions. The frequency range of the CTCSS tone is 67 to 250.3Hz. Switch to any channel with CTCSS activated. Close the PTT switch. Adjust RV906, on the TCXO PCB, to set the CTCSS tone peak deviation for 660Hz 100Hz (530Hz 80Hz) [330Hz 50Hz] on the modulation meter. 6.4.5 LTR Code Deviation Adjustment Close the PTT switch and set up a continuous call. This can be an LTR Repeater Talkaround call, a Repeater Interconnect Call (RIC) or an on-channel call. Adjust RV906 on the TCXO PCB to set the LTR code deviation to 1kHz (900Hz)

[600Hz]. Note:

The deviation meter must have a good low frequency response to avoid incor-

rect readings. 6.4.6 Modulation Adjustment Complete the dual point modulation and CTCSS modulation adjustments (Sec-

tion 6.4.3 and Section 6.4.4) before commencing the modulation adjustment. Apply a 3kHz sine wave at a level of -40dBm to the microphone input. Select a channel with CTCSS activated and close the PTT switch. If CTCSS is disa-

bled, select any channel. Adjust RV907 for a +5kHz (+4kHz) [+2.5kHz] deviation reading on the modula-

tion meter. Maintain the same sine wave output level and sweep the audio frequency from 300Hz to 3.3kHz. Find the frequency of maximum + deviation and readjust RV907 for +5kHz

(+4kHz) [+2.5kHz] deviation. Reset the modulation meter to read - deviation. Slowly sweep the audio frequency from 300Hz to 3kHz. If the - deviation peak is found to exceed -5kHz (-4kHz) [-2.5kHz], readjust RV907 for a peak deviation of

-5kHz (-4kHz) [-2.5kHz] at that frequency. The peak deviation should not exceed 5kHz (4kHz) [2.5kHz] on any channel. Copyright TEL 31/12/97 6.8 Tuning & Adjustment M2000-00 6.4.7 Selcall Tone Deviation This is normally preset at 60% of voice deviation. If adjustment is needed, fit

#RV508 (refer to Section 7 for a component description) to the logic PCB, and pro-

ceed as follows. 2 Adjust #RV508 for 3kHz (2.4kHz) [1.5kHz] deviation reading on the modula-

tion meter. Check to ensure that no limiting occurs in IC901. 6.4.8 FFSK Adjustment (Trunked Models Only) 6.4.8.1 T203X Radios Enter test mode (refer to Section 5.8, Trunked Radios: Test Mode). Press the front panel clear key

. Adjust #RV599 for 3kHz 200Hz (2.4kHz 160Hz) [1.5kHz 100Hz] deviation reading on the modulation meter. 6.4.8.2 T2040 Radios Enter test mode (refer to Section 5.8, Trunked Radios: Test Mode). Select test function 10 using the control head. Adjust #RV599 for 3kHz 200Hz (2.4kHz 160Hz) [1.5kHz 100Hz] deviation reading on the modulation meter. 31/12/97 Copyright TEL M2000-00 PCB Information 7.1 7 PCB Information This Section provides parts lists, circuit diagrams and component location information on the individual PCBs within the T2000 Series II radio. The following PCBs are covered within this Section:

Section Title 7.1 7.2 7.3 7.4 7.5 7.6 7.7 7.8 7.9 T2000-100 RF PCB T2000-200 RF PCB T2000-300 RF PCB T2000-400 RF PCB T2000-500/-600 RF PCB T2000-700/-900 RF PCB T2000-800 RF PCB T2000 IF PCB T2000 TCXO/Tx Audio PCB 7.10 T2010 & T2015 HC05 Logic PCB Page 7.1.1 7.2.1 7.3.1 7.4.1 7.5.1 Frequency

(MHz) 220 to 270 66 to 88 136 to 174 175 to 225 400 to 530 330 to 400 800 to 870 IPN 220-01331-02 IPN 220-01202-10 IPN 220-01314-01 IPN 220-01204-11 IPN 220-01205-14 IPN 220-01289-01 IPN 220-01389-03 7.6.1 7.6.11 IPN 220-01305-03 IPN 220-01384-00 IPN 220-01389-00 IPN 220-01389-02 IPN 220-01377-01 IPN 220-01377-02 IPN 220-01377-03 IPN 220-01344-02 IPN 220-01344-04 7.7.1 7.8.1 7.9.1 7.9.7 7.10.1 7.10.11 7.10.23 7.11.1 7.11.13 7.11 7.12 7.13 7.14 7.15 7.16 7.17 T2020, T203X, T2040, T2050 &

T2060 HC11 Logic PCB T2010/T2030 Control Head PCB IPN 220-01319-01 7.12.1 T2015/T2060 Control Head PCB IPN 220-01320-01 7.13.1 T2020/40 /50 Control Head PCB IPN 220-01321-04 7.14.1 T2035 Control Head PCB IPN 220-01322-03 7.15.1 T2000 EMC Filter PCB IPN 220-01383-01 7.16.1 T2000 Data Interface Decoupling PCB IPN 220-01388-01 7.17.1 Copyright TEL 31/12/97 7.2 PCB Information PCB Identification M2000-00 All PCBs are identified by a unique 10 digit internal part number (IPN), e.g. 220-01330-02, which is screen printed onto the PCB (usually the top side). The last 2 digits of this number define the issue status, which starts at 00 and increments through 01, 02, 03, etc. as the PCB is updated. Some issue PCBs never reach full produc-

tion status, and are therefore not included in this manual. A letter following the 10 digit IPN has no relevance in identifying the PCB for service purposes. In the following diagram of the T2000-66 UART PCB, the IPN is 220-01348-03, (i.e. issue 03 of the PCB). It is important that you identify which issue PCB you are working on so that you can refer to the appropriate PCB information. 31/11/96 Copyright TEL M2000-00 T2000-700/-900 RF PCB IPN 220-01289-03 7.6.11 7.6 T2000-700/-900 RF PCB T2000-700/-900 Parts List (IPN 220-01289-03) Parts List Amendments Var 7XX 9XX 9XX 7XX 9XX 9XX 7XX 9XX 7XX 9XX 9XX 7XX 9XX 7XX 9XX Ref C1 C2 C3 C100 C101 C102 C104 C105 C106

#C107

#C107 C108

#C109 C110 C111

#C112

#C112

#C113 C114

#C115

#C115

#C117

#C117

#C118 C119

#C121

#C121

#C122

#C122 C123 C124 C125 C126 C127 C128 C129 C130 C132 C133 C134 C135 C136 C137 C138 C139 C140 C141 C142 C145 C146 C147 C148 C149 C150 C151 C152 C152A C153 C153A C154 C155 C156 C157 C158 C174 C175 C176 C179 C180 C181 C182 C184 C185 C186 C187 C188 C189 C190 Description IPN 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-22120-01 CAP CER 0805 CHIP 12P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-21100-01 CAP CER 0805 CHIP 1PO +/-0.25P NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 015-21470-01 CAP CER 0805 CHIP 4P7 +/-0.25P NPO 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21820-01 CAP CER 0805 CHIP 8P2 +/-0.25P NPO 015-22470-01 CAP CER 0805 CHIP 47P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 015-21120-01 CAP CER 0805 CHIP 1P2 +/-0.25 NPO 5 015-21150-01 CAP CER 0805 CHIP 1P5 +/-0.25P NPO 015-21820-01 CAP CER 0805 CHIP 8P2 +/-0.25P NPO 015-22470-01 CAP CER 0805 CHIP 47P 5% NPO 50V 015-21820-01 CAP CER 0805 CHIP 8P2 +/-0.25P NPO 015-22120-01 CAP CER 0805 CHIP 12P 5% NPO 50V 015-21120-01 CAP CER 0805 CHIP 1P2 +/-0.25 NPO 5 015-21150-01 CAP CER 0805 CHIP 1P5 +/-0.25P NPO 015-21820-01 CAP CER 0805 CHIP 8P2 +/-0.25P NPO 015-22470-01 CAP CER 0805 CHIP 47P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 015-22100-01 CAP CER 0805 CHIP 10P +/-0.5P NPO 5 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 015-22100-01 CAP CER 0805 CHIP 10P +/-0.5P NPO 5 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-21330-01 CAP CER 0805 CHIP 3P3 +/-0.25P NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 015-22120-01 CAP CER 0805 CHIP 12P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-22470-01 CAP CER 0805 CHIP 47P 5% NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-22470-01 CAP CER 0805 CHIP 47P 5% NPO 50V 015-22120-01 CAP CER 0805 CHIP 12P 5% NPO 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-22100-01 CAP CER 0805 CHIP 10P +/-0.5P NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V Ref C191 C192 C193 C194 C195 C197 C198 C199 C200 C201 C202 C203 C204 C205 C206 C207 C208 C209 C210 C211 C212 C213 C214 C215 C216 C217 C218 C219 C220 C221 C222 C223 C224 C225 C227 C228 C229 C230 C231 C232 C233 C234 C235 C236 C237 C238 C239 C240 C241 C242 C243 C244 C245 C246 C247 C249 C250 C251 C252 C253 C300

#C301

#C301

#C302

#C302

#C303

#C303 C304

#C305

#C305

#C306

#C306 C307

#C308

#C308

#C309

#C309 C310 Var 7XX 9XX 7XX 9XX 7XX 9XX 7XX 9XX 7XX 9XX 7XX 9XX 7XX 9XX Description IPN 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-22560-01 CAP CER 0805 CHIP 56P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-23180-01 CAP CER 0805 CHIP 180P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 022-55100-10 CAP MYLAR AI 10N 5% 63V POTTED 022-57100-02 CAP MYLAR AI 1M 20% 50V POTTED 022-06100-15 CAP MET POLYSTR 100N 5% 50V 5.6MM HI 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-23270-01 CAP CER 0805 CHIP 270P 5% NPO 50V 015-22270-01 CAP CER 0805 CHIP 27P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-23270-01 CAP CER 0805 CHIP 270P 5% NPO 50V 015-21470-01 CAP CER 0805 CHIP 4P7 +/-0.25P NPO 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-22270-01 CAP CER 0805 CHIP 27P 5% NPO 50V 015-22470-01 CAP CER 0805 CHIP 47P 5% NPO 50V 015-21100-01 CAP CER 0805 CHIP 1PO +/-0.25P NPO 50V 015-23270-01 CAP CER 0805 CHIP 270P 5% NPO 50V 015-23270-01 CAP CER 0805 CHIP 270P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 015-21270-01 CAP CER 0805 CHIP 2P7 +/-0.25P NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21820-01 CAP CER 0805 CHIP 8P2 +/-0.25P NPO 50V 015-23270-01 CAP CER 0805 CHIP 270P 5% NPO 50V 015-22820-01 CAP CER 0805 CHIP 82P 5% NPO 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-23180-01 CAP CER 0805 CHIP 180P 5% NPO 50V 015-22820-01 CAP CER 0805 CHIP 82P 5% NPO 50V 015-03150-06 CAP CER 1210 CHIP 150P NPO 500V GRM42-2 015-23270-01 CAP CER 0805 CHIP 270P 5% NPO 50V 015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-21820-01 CAP CER 0805 CHIP 8P2 +/-0.25P NPO 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 015-02150-06 CAP CER 1210 CHIP 15P NPO 500V GRM4 015-02180-06 CAP CER 1210 CHIP 18P NPO 500V GRM4 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22150-01 CAP CER 0805 CHIP 15P 5% NPO 50V 015-22120-01 CAP CER 0805 CHIP 12P 5% NPO 50V 015-22270-01 CAP CER 0805 CHIP 27P 5% NPO 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-22470-01 CAP CER 0805 CHIP 47P 5% NPO 50V 015-22120-01 CAP CER 0805 CHIP 12P 5% NPO 50V 015-22560-01 CAP CER 0805 CHIP 56P 5% NPO 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V Copyright TEL 31/12/97 IPN 220-01289-03 7.6.12 T2000-700/-900 RF PCB Var 7XX 9XX 7XX 9XX 7XX 9XX 7XX 9XX 7XX 9XX Ref C311 C312

#C313

#C313

#C314

#C314 C315 C316 C317 C318 C319 C320 C321

#C323

#C323 C324 C325 C326 C327 C328 C329

#C330

#C330

#C331

#C331 C332 C333 C334 C335 C336 C337 C339 C340 C341 C342 C343 C344 C345 C346 C347 C348 C349 C350 C351 C352 C353 C360 C361 C403 C410 C411 C412 C413 C414 C415 C416 C419 C420 C423 C424 C425 C426 C427 C428 C429 C430 C431 C453 C454 C455 D1 D100 D101 D102 D103 D105 D106 D107 D108 D110 D111 D140A D202 D203 D204 D205 D206 D208 D209 D301 D303 D304 D401 IC101 IC201 IC202 Description IPN 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 015-22100-01 CAP CER 0805 CHIP 10P +/-0.5P NPO 5 015-21470-01 CAP CER 0805 CHIP 4P7 +/-0.25P NPO 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-03150-06 CAP CER 1210 CHIP 150P NPO 500V GRM42-2 015-02330-03 CAP CER CHIP 33P 5% NPO 500V HIQ GRH111 015-02330-03 CAP CER CHIP 33P 5% NPO 500V HIQ GRH111 015-02270-03 CAP CER CHIP 27P 5% NPO 500V HIQ GR 015-02180-03 CAP CER CHIP 18P 5% 500V HIQ GRH111 015-02330-03 CAP CER CHIP 33P 5% NPO 500V HIQ GRH111 015-02330-03 CAP CER CHIP 33P 5% NPO 500V HIQ GRH111 015-03150-06 CAP CER 1210 CHIP 150P NPO 500V GRM42-2 029-02470-02 CAP MICA 5MM CASE 47P 5%

020-07470-04 CAP ELECT RADL 4M7 25V 20% 8X13MM SOLID 029-02470-02 CAP MICA 5MM CASE 47P 5%

015-01820-06 CAP CER 1210 CHIP 8P2 NPO 500V GRM4 015-02100-06 CAP CER 1210 CHIP 10P 5% NPO 500V G 015-01820-06 CAP CER 1210 CHIP 8P2 NPO 500V GRM4 015-02100-06 CAP CER 1210 CHIP 10P 5% NPO 500V G 015-03150-06 CAP CER 1210 CHIP 150P NPO 500V GRM42-2 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-01270-06 CAP CER 1210 CHIP 2P7 NPO 200V GRM42-2 015-03150-06 CAP CER 1210 CHIP 150P NPO 500V GRM42-2 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-01560-06 CAP CER 1210 CHIP 5P6 NPO 500V GRM42-2 015-01560-06 CAP CER 1210 CHIP 5P6 NPO 500V GRM42-2 015-01560-06 CAP CER 1210 CHIP 5P6 NPO 500V GRM42-2 015-01470-06 CAP CER 1210 CHIP 4P7 NPO 500V GRM42-2 015-01560-06 CAP CER 1210 CHIP 5P6 NPO 500V GRM42-2 015-01390-06 CAP CER 1210 CHIP 3P9 NPO 500V GRM42-2 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21220-01 CAP CER 0805 CHIP 2P2 +/-0.25P NPO 50V 015-21220-01 CAP CER 0805 CHIP 2P2 +/-0.25P NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21470-01 CAP CER 0805 CHIP 4P7 +/-0.25P NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-21150-01 CAP CER 0805 CHIP 1P5 +/-0.25P NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-21330-01 CAP CER 0805 CHIP 3P3 +/-0.25P NPO 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-09470-05 CAP ELECT RADL 470M 16V 10X12.5MM 020-19100-02 CAP ELECT RADL 1000M 16V 12X20MM 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-08560-09 CAP ELECT RADL 56M 50V 6.3X15.5MM L/S 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 020-08560-09 CAP ELECT RADL 56M 50V 6.3X15.5MM L/S 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 001-00012-90 001-10000-99 001-10043-90 001-10043-90 001-10043-90 001-10000-18 001-10000-18 001-10000-17 001-10000-17 001-10000-17 001-10000-17 001-10000-18 001-10000-70 001-10043-90 001-10043-90 001-10006-39 001-10006-39 001-10000-18 001-10000-18 001-00013-45 001-00012-50 001-00012-50 001-10000-70

(S) DIODE MR2520L OVERVOLT SUPPRESSOR

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE IN

(S) DIODE SMD BB439 SI VARICAP SOD323

(S) DIODE SMD BB439 SI VARICAP SOD323

(S) DIODE SMD BB439 SI VARICAP SOD323

(S) DIODE SMD BAT18 BANDSWITCH SOT-23 S

(S) DIODE SMD BAT18 BANDSWITCH SOT-23 S

(S) DIODE SMD DUAL BAT-17 SCHOTTKY SML

(S) DIODE SMD DUAL BAT-17 SCHOTTKY SML

(S) DIODE SMD DUAL BAT-17 SCHOTTKY SML

(S) DIODE SMD DUAL BAT-17 SCHOTTKY SML

(S) DIODE SMD BAT18 BANDSWITCH SOT-23

(S) DIODE SMD BAV70 DUAL SWITCH SOT-23

(S) DIODE SMD BB439 SI VARICAP SOD323

(S) DIODE SMD BB439 SI VARICAP SOD323

(S) DIODE SMD VARICAP BB639 SOD323

(S) DIODE SMD VARICAP BB639 SOD323

(S) DIODE SMD BAT18 BANDSWITCH SOT-23 S

(S) DIODE SMD BAT18 BANDSWITCH SOT-23 S

(S) DIODE SCHOTTKY 1SS97/2

(S) DIODE PIN UM9401 UHF PWR SWITCH

(S) DIODE PIN UM9401 UHF PWR SWITCH

(S) DIODE SMD BAV70 DUAL SWITCH SOT-23 002-10033-71 002-10451-58 002-10330-78

(S) IC SMD MC3371D-R2 FM IF DETECT RSS

(S) IC SMD MC145158DW2 FREQ SYNTH SOIC

(S) IC MC33078D-R2 DUAL AMP LO NOISE S Ref IC203 IC402 IC403 IC404 L1 L104 L105 L106 L107 L108 L109 L110 L114 L116 L117 L118 L119 L120 L121 L200 L201 L202 L203 L204 L205 L206 L207 L208 L209 L210 L211 L212

#L300

#L300 L301 L302 L303 L304 L304A L305 L306 L307 L308 L308A L309 L310 L311 L312 L313 L314 L316 L316A L317 L318 L319 L320

#L321

#L321 L322 L323 L324 L325 L326 L331 L401 P1 P2 P3 P5 P6 P7 Q100 Q101 Q102 Q103 Q105 Q106 Q107 Q108 Q109 Q110 Q115 Q201 Q202 Q203 Q204 Q205 Q206 Q207 Q208 Q209 Q210 Q211 Q212 Q213 M2000-00 Var IPN 002-10120-22 002-00013-70 002-00078-08 002-00078-05 Description

(S) IC SMD MC12022AD-R2 PRESC 8-P

(S) IC TDA1020 AF PWR AMP 9PIN SIL

(S) IC MC7808ACT 8V REG(LINEAR)1AMP TO

(S) IC MC7805ACT 5V REG(LINEAR)1AMP TO 7XX 9XX 7XX 9XX LINK WIRE AI ZERO OHM 0.6MM WIRE 030-50000-00 050-00016-74 COIL RF 23NH NOM 2.5T BRASS CORE SHIELD 050-00016-74 COIL RF 23NH NOM 2.5T BRASS CORE SHIELD 050-00016-74 COIL RF 23NH NOM 2.5T BRASS CORE SHIELD 050-00016-65 COIL BALUN 7.2MM2 5X0.5PINS 5T/4 456DB-

050-00016-65 COIL BALUN 7.2MM2 5X0.5PINS 5T/4 456DB-

052-08140-15 COIL A/W 1.5T/4.0MM HOR 0.8MM WIRE 056-00021-60 IND FXD 330NH 6.6X2.7MM AXIAL NON MAGNE 050-00016-62 COIL IF 1UH AT 30MHZ 6MMSQX6.2MMH CAN 2 050-00016-62 COIL IF 1UH AT 30MHZ 6MMSQX6.2MMH CAN 2 050-00016-65 COIL BALUN 7.2MM2 5X0.5PINS 5T/4 456DB-

050-00016-65 COIL BALUN 7.2MM2 5X0.5PINS 5T/4 456DB-

050-00016-55 COIL TAIT NO 655 455KHZ QUAD COIL 7MM C IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 1 057-10005-03 IND 0805 BLM21A121 EMI SUPRSN 120 OHM @

057-10120-03 IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 1 057-10005-03 056-10100-00 IND FXD SMD 100NH 3.2*2.5*1.6 SIEMENS S 056-10100-00 IND FXD SMD 100NH 3.2*2.5*1.6 SIEMENS S 050-00016-62 COIL IF 1UH AT 30MHZ 6MMSQX6.2MMH CAN 2 IND FXD SMD 100NH 10% MLF3216DR 1206 CH 057-00100-02

(L) IND SMD 330NH SIEMENS SMID02 056-10330-02

(L) IND SMD 330NH SIEMENS SMID02 056-10330-02

(L) IND TRANSMISSION LINE 84MM RG405 T2 051-00574-00 IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS S 056-10330-00 056-10330-00 IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS S IND FXD SMD 47NH 3.2*2.5*1.6 SIEMENS SM 056-10047-00 IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS S 056-10330-00 056-10033-00 IND FXD SMD 33NH 3.2*2.5*1.6 SIEMENS SM 052-08335-10 COIL A/W 1T/3.5MM SMD 0.8MM WIRE 052-08340-10 COIL A/W 1T/4.0MM SMD 0.8MM WIRE 052-08140-15 COIL A/W 1.5T/4.0MM HOR 0.8MM WIRE 052-08130-15 COIL A/W 1.5T/3.0MM HOR 0.8MM WIRE 056-00021-60 030-50000-00 030-50000-00 052-08130-25 COIL A/W 2.5T/3.0MM HOR 0.8MM WIRE 057-10005-03 052-08125-15 COIL A/W 1.5T/2.5MM HOR 0.8MM WIRE 052-08130-65 COIL A/W 6.5T/3.0MM HOR 0.8MM WIRE 030-50000-00 030-50000-00 052-08130-65 COIL A/W 6.5T/3.0MM HOR 0.8MM WIRE 052-08130-65 COIL A/W 6.5T/3.0MM HOR 0.8MM WIRE 056-00021-60 052-08150-55 COIL A/W 5.5T/5.0MM HOR 0.8MM WIRE 030-50000-00 052-08130-65 COIL A/W 6.5T/3.0MM HOR 0.8MM WIRE 030-50000-00 051-00005-28 COIL TAIT NO 528 HAIRPIN 17MM T550A 052-08130-15 COIL A/W 1.5T/3.0MM HOR 0.8MM WIRE 056-00021-04 052-08135-35 COIL A/W 3.5T/3.5MM HOR 0.8MM WIRE 052-08320-10 COIL A/W 1T/2.0MM SMD 0.8MM WIRE 052-08320-10 COIL A/W 1T/2.0MM SMD 0.8MM WIRE 052-08135-25 COIL A/W 2.5T/3.5MM HOR 0.8MM WIRE 052-08135-25 COIL A/W 2.5T/3.5MM HOR 0.8MM WIRE 052-08130-35 COIL A/W 3.5T/3.0MM HOR 0.8MM WIRE 052-08135-25 COIL A/W 2.5T/3.5MM HOR 0.8MM WIRE 052-08135-25 COIL A/W 2.5T/3.5MM HOR 0.8MM WIRE 057-10005-03 050-00016-50 COIL TAIT NO 650 455KHZ 5.6MM CAN IND FXD 330NH 6.6X2.7MM AXIAL NON MAGNE LINK WIRE AI ZERO OHM 0.6MM WIRE LINK WIRE AI ZERO OHM 0.6MM WIRE LINK WIRE AI ZERO OHM 0.6MM WIRE LINK WIRE AI ZERO OHM 0.6MM WIRE IND FXD 330NH 6.6X2.7MM AXIAL NON MAGNE IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 1 IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 1 LINK WIRE AI ZERO OHM 0.6MM WIRE LINK WIRE AI ZERO OHM 0.6MM WIRE IND FXD 330NH AXIAL 240-00026-24 CONN PADLE BRD 16 WAY MICRO MATCH 1-2155 240-00026-26 CONN PADLE BRD 12 WAY MICRO MATCH 1-2155 240-00026-21 240-00010-76 240-00010-76 240-00020-72 HEADER 2 WAY PCB MTG ULTREX PLUG CAP HOUSING 7-POS CONN 172039-1 PLUG HEADER 10WAY MICROMATCH PCB MTD 1-

PLUG HEADER 10WAY MICROMATCH PCB MTD 1-

000-10003-12 000-10095-10 000-10008-57 000-10095-10 000-10095-10 000-10008-48 000-10008-92 000-10008-92 000-10008-24 000-10008-92 000-10008-48 000-10008-57 000-10008-48 000-10008-48 000-10008-48 000-10008-57 000-10008-48 000-10008-57 000-10008-48 000-10008-57 000-10003-12 000-10008-07 000-10095-10 000-10008-48

(S) XSTR SMD BFR31 N JFET SOT-23

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BFS17 NPN SOT-23 UHF SMALL

(S) XSTR SMD BFS17 NPN SOT-23 UHF SMALL

(S) XSTR SMD BF824 PNP SOT-23 RF SMALL

(S) XSTR SMD BFS17 NPN SOT-23 UHF SMALL

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BFR31 N JFET SOT-23

(S) XSTR SMD BC807 PNP SOT-23 AF LO PWR

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 31/12/97 Copyright TEL M2000-00 T2000-700/-900 RF PCB IPN 220-01289-03 7.6.13 Var Ref Q214 Q215 Q300 Q301 Q302 Q303 Q304 Q305 Q306 Q401 Q402 Q403 Q404 Q405 R100 R101 R102 R103 R104 R105 R106 R107 R108 R112 R113 R114 R115 R116 R117 R118 R119 R120 R121 R122 R123 R131 R132 R133 R135 R138 R140 R140A R141 R142 R142A R143 R143A R144 R144A R145 R145A R146 R147 R148 R149 R150 R151 R152 R153 RV153 R155 R156 R157 R158 R159 R160 R161 R194 R195 R196 R197 R198 R199 R213 R214 R217 R218 R219 R220 R221 R222 RV222 R223 R224 R225 R226 R227 R228 R229 R230 R231 R232 R233 R234 R235 R236 R237 IPN 000-10057-10 000-10057-10 000-10095-10 000-00032-47 000-00032-56 000-10008-48 000-00012-15 000-00022-75 000-00032-65 000-10008-57 000-10008-17 000-10008-48 000-10008-07 000-10008-07 Description

(S) XSTR SMD MMBR571 NPN SOT-23 UHF LO

(S) XSTR SMD MMBR571 NPN SOT-23 UHF LO

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR MRF559 NPN XPACK UHF PWR 0.5W

(S) XSTR MRF630 NPN TO-39 UHF PWR 3W

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR BD234 PNP AF PWR TO126

(S) XSTR SD1433-04 NPN STUD MTG UHF PWR

(S) XSTR MRF646 NPN 6LFL UHF PWR 45W

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BC817-25 NPN SOT-23 AF LO

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BC807 PNP SOT-23 AF LO PWR

(S) XSTR SMD BC807 PNP SOT-23 AF LO PWR 036-13330-00 RES M/F 0805 CHIP 330E 5%

036-14390-00 RES M/F 0805 CHIP 3K9 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-13120-00 RES M/F 0805 CHIP 120E 5%

036-12180-00 RES M/F 0805 CHIP 18E 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-12470-00 RES M/F 0805 CHIP 47E 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-13820-00 RES M/F 0805 CHIP 820E 5%

036-15120-00 RES M/F 0805 CHIP 12K 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-13820-00 RES M/F 0805 CHIP 820E 5%

036-13180-00 RES M/F 0805 CHIP 180E 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-15680-00 RES M/F 0805 CHIP 68K 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-14150-00 RES M/F 0805 CHIP 1K5 5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-15680-00 RES M/F 0805 CHIP 68K 5%

036-16120-00 RES M/F 0805 CHIP 120K 5%

036-14150-00 RES M/F 0805 CHIP 1K5 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-13220-00 RES M/F 0805 CHIP 220E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-14330-00 RES M/F 0805 CHIP 3K3 5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

042-05470-07 RES PRESET 47K CARBON 6MM FLAT DUAL AD 036-16100-00 RES M/F 0805 CHIP 100K 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-12470-00 RES M/F 0805 CHIP 47E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-10000-00 RES M/F 0805 CHIP ZERO OHM 036-15680-00 RES M/F 0805 CHIP 68K 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-13330-00 RES M/F 0805 CHIP 330E 5%

036-14120-00 RES M/F 0805 CHIP 1K2 5%

036-12470-00 RES M/F 0805 CHIP 47E 5%

036-15120-00 RES M/F 0805 CHIP 12K 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-14680-00 RES M/F 0805 CHIP 6K8 5%

036-13330-00 RES M/F 0805 CHIP 330E 5%

036-12470-00 RES M/F 0805 CHIP 47E 5%

042-05470-07 RES PRESET 47K CARBON 6MM FLAT DUAL AD 036-15220-00 RES M/F 0805 CHIP 22K 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

036-15150-00 RES M/F 0805 CHIP 15K 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-14330-00 RES M/F 0805 CHIP 3K3 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-13390-00 RES M/F 0805 CHIP 390E 5%

036-13180-00 RES M/F 0805 CHIP 180E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-17100-00 RES M/F 0805 CHIP 1M 5%

036-13180-00 RES M/F 0805 CHIP 180E 5%

036-13330-00 RES M/F 0805 CHIP 330E 5%

036-12470-00 RES M/F 0805 CHIP 47E 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

Var Ref R238 R239 R240 R241 R242 R243 R244 R245 R247 R248 R250 R251 R252 R253 R254 R255 R256 R257 R258 R259 R260 R261 R262 R266 R267 R268 R269 R270 R271 R272 R273 R274 R275 R276 R277 R278 R282 R284 R285 R286 R287 R288 R301 R302 R303 R304 R305 R307 R308 R309 R310 R311 R312 R314 R315 R315A R316 R317 R319 R319A R320 R321 R322 RV324 R325 R326 R327 R328 R329 R330 R332 R333 R337 R418 R420 R421 R422 R425 R426 R427 R428 R429 R430 R431 R432 R433 R434 R437 R440 R441 R442 R443 R444 R445 Description IPN 036-14820-00 RES M/F 0805 CHIP 8K2 5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-14150-00 RES M/F 0805 CHIP 1K5 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-10000-00 RES M/F 0805 CHIP ZERO OHM 036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-13150-00 RES M/F 0805 CHIP 150E 5%

036-13820-00 RES M/F 0805 CHIP 820E 5%

036-12470-00 RES M/F 0805 CHIP 47E 5%

036-12330-00 RES M/F 0805 CHIP 33E 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-14150-00 RES M/F 0805 CHIP 1K5 5%

036-14120-00 RES M/F 0805 CHIP 1K2 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-13390-00 RES M/F 0805 CHIP 390E 5%

036-12180-00 RES M/F 0805 CHIP 18E 5%

036-12330-00 RES M/F 0805 CHIP 33E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-14330-00 RES M/F 0805 CHIP 3K3 5%

036-14330-00 RES M/F 0805 CHIP 3K3 5%

036-12560-00 RES M/F 0805 CHIP 56E 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-13220-00 RES M/F 0805 CHIP 220E 5%

036-13220-00 RES M/F 0805 CHIP 220E 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-14390-00 RES M/F 0805 CHIP 3K9 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-12330-00 RES M/F 0805 CHIP 33E 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-13120-00 RES M/F 0805 CHIP 120E 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-15390-00 RES M/F 0805 CHIP 39K 5%

036-13220-00 RES M/F 0805 CHIP 220E 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

030-53270-20 RES FILM AI 270E 5% 0.4W 4X1.6MM 036-13100-00 RES M/F 0805 CHIP 100E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

030-03220-00 RES FILM 220E 5% 0.25W 7X2.5MM 030-54120-20 RES FILM AI 1K2 5% 0.4W 4X1.6MM 036-12680-00 RES M/F 0805 CHIP 68E 5%

030-53180-20 RES FILM AI 180E 5% 0.4W 4X1.6MM 036-13180-00 RES M/F 0805 CHIP 180E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

030-03470-00 RES FILM 470E 5% 0.25W 7X2.5MM 030-52220-20 RES FILM AI 22E 5% 0.4W 4X1.6MM 030-52220-20 RES FILM AI 22E 5% 0.4W 4X1.6MM 036-13150-00 RES M/F 0805 CHIP 150E 5%

030-53470-20 RES FILM AI 470E 5% 0.4W 4X1.6MM 030-52470-20 RES FILM AI 47E 5% 0.4W 4X1.6MM 030-52470-20 RES FILM AI 47E 5% 0.4W 4X1.6MM 030-55270-20 RES FILM AI 27K 5% 0.4W 4X1.6MM 036-16470-00 RES M/F 0805 CHIP 470K 5%

030-02100-00 RES FILM 10E 5% 0.25W 7X2.5MM 042-06470-06 RES PRESET 470/500K 25% 6MM ROUND TOP 030-55270-20 RES FILM AI 27K 5% 0.4W 4X1.6MM 036-16220-00 RES M/F 0805 CHIP 220K 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

030-53150-20 RES FILM AI 150E 5% 0.4W 4X1.6MM 036-15470-00 RES M/F 0805 CHIP 47K 5%

036-16220-00 RES M/F 0805 CHIP 220K 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-10000-00 RES M/F 0805 CHIP ZERO OHM 036-13680-00 RES M/F 0805 CHIP 680E 5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-11470-00 RES M/F 0805 CHIP 4E7 5%

036-12220-00 RES M/F 0805 CHIP 22E 5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-14680-00 RES M/F 0805 CHIP 6K8 5%

036-16100-00 RES M/F 0805 CHIP 100K 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-13100-00 RES M/F 0805 CHIP 100E 5%

036-12470-00 RES M/F 0805 CHIP 47E 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-16270-00 RES M/F 0805 CHIP 270K 5%

036-15560-00 RES M/F 0805 CHIP 56K 5%

036-13220-00 RES M/F 0805 CHIP 220E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-14180-00 RES M/F 0805 CHIP 1K8 5%

Variants:

7XX 9XX 330-380MHz 360-400MHz Copyright TEL 31/12/97 IPN 220-01289-03 7.6.14 T2000-700/-900 RF PCB M2000-00 T2000-700/-900 Mechanical & Miscellaneous Parts IPN Description IPN 005-10000-10 062-00010-14 065-00010-11 200-00010-05 205-00010-12 220-01289-03 240-00020-51 240-00020-54 240-02100-11 303-23135-02 303-50077-00 308-13093-02 316-85094-00 319-01164-01 319-01167-00 349-00020-30 349-00020-31 349-00020-32 349-00020-34 349-00020-48 349-00020-49 352-00010-35 356-00010-05 360-01053-02 362-01027-01 362-01028-00 362-01058-00 365-01391-01 Description TEST POINT SMD 0805 2.0 X 1.25 X 1.45 CAN 7.5MM SQ X 10.2MM TOKO MC-136 CANS TO BE PLACED OVER L107 L108 BEAD FERRITE 4S3 3*1*4MM RED L1, L307, L309, L314, L316, L304, L304A WIRE T/C 0.5MM CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY PCB T2000 330-380MHZ RF BRD PLUG 12 WAY 2*6 FLAT CABLE TERMN PLUG 16 WAY 2X8 FLAT CABLE TERMN MICROMATCH SKT COAX BNC 3.5MM PNL NO EARTH TAG COVER BTTM T2000 SII PNTD CMPLT CLIP A3M2525 T2000 AUDIO IC AND REG CHASSIS A1M2503 DIE CAST T2000 SERIES II PLATE A4M2160 BNC MTG UK 5X5 SERIES SHIELD A1M2507 DIE CAST T2000 MICROP SHIELD RX A3M2594 T2000 SCREW TAPTITE M3X6MM PAN POZI BZ SCREW TAPTITE M3X10MM PAN POZI BZ SCREW TAPTITE M3X8MM PAN POZI BZ Q306 =2 BNC PLATE =2 CHASSIS =2 SCREW M3*12 PAN POZI TAPTITE BZ SCREW M4X25MM PAN POZI TAPTITE II BRIGHT ZINC SCREW TAPTITE M4X35MM PAN POZI BZ TOP COVER NUT 8-32 UNC HEX RF PWR XSTR MTG NUT FOR Q305 TAG SOLDER 4MM LONG M6144/4.2 PLUG A3M2563 PLASTIC D-RANGE BLANKING GASKET A4M2564 RUBBER SEAL T2000 MAIN CONN GASKET A4M2652 130X3MM CONDUCT STRIPS T2000 GASKET TO-126 11.1X7.9 D2.4 SIL INSULATION

(L)LABEL BLNK 30*10.8MM TAMPERMARK VOID MATT S 31/12/97 Copyright TEL M2000-00 T2000-700/-900 RF PCB IPN 220-01289-03 7.6.15 T2000-700/-900 Grid Reference Index (IPN 220-01289-03) Circuit 1-V9 1-U8 1-V8 1-U3 1-T3 1-S2 1-S3 1-S3 1-R3 1-R3 1-T3 1-Q3 1-Q3 1-P3 1-P3 1-P3 1-P3 1-O3 1-O3 1-O3 1-N3 1-N2 1-M3 1-M3 1-H2 1-H2 1-H2 1-K5 1-L5 1-M5 1-M5 1-U6 1-O5 1-O6 1-P5 1-P6 1-P5 1-P6 1-Q5 1-Q6 1-Q5 1-L5 1-T4 1-U4 1-N5 1-O4 1-L4 1-O4 1-Q5 1-Q4 1-P4 1-Q4 1-R4 1-S4 1-S4 1-S4 1-T5 1-K4 1-J8 1-K8 1-K8 2-G5 1-L8 1-L7 1-N6 1-M8 1-I6 1-J7 1-N8 1-A6 1-K6 1-K7 1-M6 Device PCB 1:J10 C1 1:L10 C2 C3 1:L10 1:A5 C100 1:A6 C101 1:A6 C102 1:A6 C104 1:A6 C105 C106 1:B6 1:B6

#C107 1:A5 C108 1:B5

#C109 1:B5 C110 C111 1:B6 1:C5

#C112 1:C5

#C113 1:C5 C114 1:C6

#C115 1:C5

#C117

#C118 1:D5 1:D5 C119 1:C6

#C121 1:D5

#C122 1:D5 C123 C124 1:F6 1:F6 C125 1:G6 C126 1:E5 C127 1:E5 C128 1:E5 C129 C130 1:E4 1:D4 C132 1:E4 C133 1:D4 C134 1:E4 C135 C136 1:D4 1:D5 C137 1:D4 C138 1:C5 C139 1:C4 C140 1:C4 C141 C142 1:E5 1:E7 C145 1:D7 C146 1:E5 C147 1:E7 C148 C149 1:F5 1:F7 C150 1:F8 C151 1:F7 C152 1:F7 C152A 1:F8 C153 C153A 1:F8 1:E8 C154 1:E7 C155 1:E8 C156 1:E7 C157 1:F4 C158 C174 1:B2 1:A3 C175 1:A2 C176 1:B3 C179 1:A3 C180 C181 1:A3 1:C3 C182 1:B4 C184 1:E4 C185 1:E4 C186 1:E4 C187 C188 1:F4 1:B3 C189 1:B3 C190 C191 1:C2 Copyright TEL Device PCB 1:C2 C192 1:C2 C193 C194 1:F4 1:F4 C195 1:C3 C197 1:C2 C198 1:B3 C199 1:F4 C200 C201 1:L4 1:E4 C202 1:L3 C203 1:J5 C204 1:G4 C205 C206 1:H4 1:J3 C207 1:J2 C208 1:G3 C209 1:H2 C210 1:F2 C211 C212 1:G2 1:H4 C213 1:G4 C214 1:J4 C215 1:J3 C216 C217 1:L4 1:H4 C218 1:K3 C219 1:K4 C220 1:K4 C221 1:K4 C222 C223 1:G4 1:G4 C224 1:J4 C225 1:K6 C227 1:L5 C228 C229 1:J5 1:G2 C230 1:J6 C231 1:H6 C232 1:G3 C233 1:K3 C234 C235 1:L5 1:J6 C236 1:K6 C237 1:K5 C238 1:H5 C239 C240 1:G6 1:F6 C241 1:G4 C242 1:G5 C243 1:G3 C244 1:G5 C245 C246 1:H5 1:F2 C247 1:G5 C249 1:G3 C250 1:G3 C251 1:F3 C252 C253 1:F3 1:K3 C257 2:D9 C300 1:G6

#C301 1:G7

#C302

#C303 2:G10 1:G7 C304 1:G7

#C305 1:G7

#C306 1:F8 C307 1:G8

#C308

#C309 2:G8 2:H9 C310 1:H7 C311 C312 1:G8 Circuit 1-M7 1-N7 1-A7 1-A8 1-O7 1-M6 1-M7 1-B5 1-B4 1-J3 1-J4 1-C2 1-C2 2-L5 1-B6 1-B7 1-C7 1-D6 1-E6 1-F7 1-D4 1-C4 1-E4 1-E5 1-F4 1-F5 1-G4 1-G5 1-G5 1-H3 1-E3 1-E2 1-A0 1-C0 1-D1 1-D1 1-E7 1-E1 1-F1 1-C7 1-I3 1-C1 1-D0 1-C0 1-B0 1-F2 1-G1 1-G2 1-B3 1-E3 1-F7 1-F2 1-E2 1-F6 1-G0 1-G7 1-G6 1-G6 1-H6 1-F4 1-P1 1-H0 1-H0 1-N0 1-H0 1-I0 1-I0 1-I1 1-K0 1-K0 1-M1 1-T2 1-K1 Device PCB Circuit

#C313

#C314 C315 C316 C317 C318 C319 C320 C321

#C323 C324 C325 C326 C327 C328 C329

#C330

#C331 C332 C333 C334 C335 C336 C337 C339 C340 C341 C342 C343 C344 C345 C346 C347 C348 C349 C350 C351 C352 C353 C360 C361 C403 C410 C411 C412 C413 C414 C415 C416 C419 C420 C423 C424 C425 C426 C427 C428 C429 C430 C431 C453 C454 C455 D1 D100 D100 D101 D102 D103 D105 D106 D107 1:H10 2:G9 1:J7 1:J10 1:J10 1:H10 1:G10 2:G10 2:G10 2:F10 2:F10 2:F10 1:F9 2:D10 1:D9 2:D10 1:C9 1:C9 1:C9 1:B7 1:G8 1:B7 1:B8 1:D7 1:B8 1:A9 1:A10 1:A9 1:A10 1:A10 1:D8 1:D8 1:A7 1:J7 1:J7 1:A7 1:D9 1:B10 1:K7 1:K7 2:G9 1:J10 1:L10 1:J9 1:L9 1:L9 1:K9 1:K9 1:J10 1:J8 1:J9 1:K9 1:K8 1:K7 1:L7 1:L7 1:L7 1:J7 1:L8 1:G6 1:H7 1:H8 1:H7 1:K10 1:A6 1:A6 1:B5 1:C5 1:D5 1:C4 1:D4 1:B5 1-M0 1-L0 1-L1 1-P1 1-P1 1-M1 1-P1 1-O0 1-O0 1-P0 1-P0 1-P0 1-P1 1-Q0 1-Q1 1-R0 1-S0 1-R0 1-R0 1-T1 1-J1 1-S0 1-T0 1-T1 1-U0 1-U0 1-V0 1-U0 1-V0 1-V0 1-R1 1-R1 1-T1 1-U2 1-V2 1-T1 1-P1 1-U0 1-V2 1-K1 1-L0 1-S8 1-S9 1-T8 1-T9 1-T8 1-U9 1-U9 1-U8 1-J8 1-K8 1-K9 1-L9 1-N8 1-O9 1-P8 1-Q8 1-P8 1-M9 1-R8 1-M1 1-N1 1-J2 1-V9 1-S2 1-S2 1-Q3 1-P3 1-N3 1-T6 1-T6 1-S5 Device PCB 1:B5 D107 1:B4 D108 D108 1:B4 1:E6 D110 1:E6 D110 1:E6 D111 1:E6 D111 1:F7 D140A D202 1:G4 1:G4 D202 1:K5 D203 1:K5 D204 1:K5 D205 D206 1:K5 1:G5 D208 1:G5 D209 1:D8 D301 1:B7 D303 1:A7 D304 D401 1:L7 1:L7 D401 Circuit 1-S6 1-S5 1-S5 1-K3 1-K3 1-K3 1-K2 1-P4 1-C5 1-C5 1-A0 1-B0 1-A0 1-B0 1-F0 1-F1 1-S1 1-S0 1-T0 1-P9 1-P9 IC101 IC101 IC101 IC101 IC201 IC202 IC202 IC202 IC203 IC402 IC402 IC403 IC404 L1

#L104

#L105

#L106 L107 L108 L109 L110 L114 L116 L117 L118 L119 L120 L121 L200 L201 L202 L203 L204 L205 L206 L207 L208 L209 L210 L211 L212

#L300

#L301 L302 L303 L304

#L305 L306

#L307 L308 1:B3 1:B3 1:B3 1:B3 1:H3 1:K3 1:K3 1:K3 1:G4 1:J10 1:J10 1:J8 1:J8 1:K10 1:B6 1:C6 1:D6 1:E6 1:D6 1:F6 1:E5 1:D4 1:C5 1:B4 1:B4 1:A3 1:F4 1:A5 1:G5 1:G3 1:F2 1:F3 1:F3 1:K5 1:K5 2:K5 1:L6 1:K6 1:H5 1:G5 1:H5 1:G8 1:G7 1:G7 1:H9 1:G8 1:H9 1:J7 1:G10 1:G10 1-K6 2-H5 1-L7 1-O7 1-B4 1-G4 2-K5 1-J4 1-E2 2-N5 1-S8 1-K9 1-K8 1-U9 1-Q2 1-P2 1-N2 1-J3 1-L3 1-H3 1-L5 1-P5 1-Q5 1-R5 1-T5 1-K8 1-L4 1-T3 1-C2 1-G7 1-E6 1-F6 1-H7 1-A0 1-B0 1-C0 1-C1 1-D0 1-F2 1-G0 1-F1 1-J0 1-H0 1-I0 1-L1 1-L0 1-L0 1-L1 1-M0 1-N0 31/12/97 IPN 220-01289-03 7.6.16 T2000-700/-900 RF PCB M2000-00 Device PCB R428 1:K8 1:K7 R429 1:L7 R430 1:K7 R431 1:L7 R432 R433 1:K7 1:J7 R434 1:L10 R437 1:H7 R440 1:H8 R441 1:H8 R442 R443 1:H8 1:H7 R444 1:H8 R445 1:B2 RV153 1:J3 RV222 RV324 1:E8 Circuit 1-L9 1-M8 1-O9 1-O8 1-P9 1-P9 1-Q9 1-V6 1-M1 1-N1 1-N1 1-N1 1-O1 1-O1 1-L6 1-C6 1-R2 S4 1:B10 SHIELD 1:C5 1-W0 2-K4 TOPSLOT 1:L10 TSP5 1:E4 1:E8 TSP7 2-K3 1-M4 1-S4 Device PCB L308A 1:H10 1:G10 L309 1:F10 L310 1:F9 L311 1:J8 L312 L313 1:B7 1:E9 L314 1:F9 L316 1:F9 L316A 1:D9 L317 1:D8 L318 L319 1:D7 1:B7 L320 1:C10

#L321 1:B9 L322 1:B10 L323 1:B10 L324 L325 1:A7 1:A7 L326 1:J7 L331 L401 1:L8 Circuit 1-N0 1-O1 1-O1 1-O1 1-L2 1-S1 1-P1 1-Q0 1-Q0 1-Q1 1-R1 1-S1 1-S0 1-R0 1-U0 1-U0 1-V0 1-T1 1-T1 1-U2 1-N9 P1 P2 P3 P5 P6 P7 Q100 Q101 Q102 Q103 Q105 Q106 Q107 Q108 Q109 Q110 Q115 Q201 Q202 Q203 Q204 Q205 Q206 Q207 Q208 Q209 Q210 Q211 Q212 Q213 Q214 Q215 Q300 Q301 Q302 Q303 Q304 Q305 Q306 Q401 Q402 Q403 Q404 Q405 R100 R101 R102 R103 R104 R105 R106 R107 1:L3 1:K7 1:K10 1:B4 1:K2 1:K9 1:F7 1:B6 1:A5 1:E5 1:E7 1:F8 1:F8 1:E8 1:E7 1:E7 1:C2 1:J3 1:H2 1:H3 1:H3 1:J4 1:J4 1:J3 1:J3 1:H3 1:K3 1:G2 1:K6 1:H5 1:H6 1:J6 1:G7 1:G8 1:G9 1:J7 1:J7 2:F10 2:E10 1:L8 1:L7 1:H8 1:H8 1:H7 1:A6 1:A5 1:A5 1:A6 1:B6 1:A5 1:B5 1:C5 2-D5 2-D4 2-D4 2-H4 2-G2 2-D2 1-O4 1-R3 1-S3 1-M5 1-P4 1-P4 1-R4 1-S4 1-T4 1-U4 1-N6 1-B7 1-D7 1-C5 1-C5 1-D4 1-D5 1-E5 1-E5 1-E4 1-F4 1-E7 1-D0 1-D1 1-F1 1-F0 1-I0 1-J0 1-L0 1-K1 1-L1 1-O0 1-Q0 1-N9 1-O9 1-N1 1-N1 1-O1 1-R3 1-S3 1-S3 1-S3 1-R3 1-S3 1-Q3 1-P3 Device PCB R108 1:D5 1:E5 R112 1:D5 R113 1:E5 R114 1:E5 R115 R116 1:E5 1:E4 R117 1:E5 R118 1:E4 R119 1:F7 R120 1:E7 R121 R122 1:C5 1:B5 R123 1:E7 R131 1:D4 R132 1:D7 R133 1:E7 R135 R138 1:C3 1:F7 R140 1:E7 R140A 1:F7 R141 1:F8 R142 R142A 1:F8 1:E8 R143 1:E8 R143A 1:F8 R144 1:F8 R144A 1:F8 R145 R145A 1:E8 1:F7 R146 1:E7 R147 1:E8 R148 1:E7 R149 R150 1:E7 1:B3 R151 1:B3 R152 1:F7 R153 1:C2 R155 1:C3 R156 R157 1:C2 1:C2 R158 1:C3 R159 1:B2 R160 1:C2 R161 R194 1:C3 1:L2 R195 1:F4 R196 1:F4 R197 1:C3 R198 1:F4 R199 R213 1:K3 1:J3 R214 1:H5 R217 1:H2 R218 1:J2 R219 R220 1:J2 1:H2 R221 1:K2 R222 1:H3 R223 1:J2 R224 1:G3 R225 R226 1:H2 1:J3 R227 1:G3 R228 1:H4 R229 1:J4 R230 1:H4 R231 R232 1:J4 1:J3 R233 1:H3 R234 1:J3 R235 1:K4 R236 R237 1:K3 1:K4 R238 1:K3 R239 R240 1:K3 Circuit 1-O3 1-K5 1-M5 1-L5 1-M5 1-M5 1-L6 1-M6 1-O6 1-N4 1-N4 1-P3 1-Q3 1-T4 1-U6 1-U4 1-U4 1-N6 1-O4 1-O4 1-O4 1-R4 1-P4 1-S4 1-Q4 1-Q4 1-R4 1-Q4 1-R4 1-R5 1-S5 1-S5 1-T5 1-T4 1-K7 1-K6 1-O4 1-N7 1-N8 1-N7 1-N7 1-P8 1-L8 1-M6 1-O6 1-A7 1-J7 1-I7 1-M7 1-J9 1-B6 1-B7 2-K6 1-C7 1-D7 1-D6 1-D6 1-E7 1-B5 1-C6 1-B5 1-C5 1-E4 1-C5 1-D4 1-D4 1-D5 1-D5 1-E4 1-E5 1-F5 1-F5 1-F5 1-F4 1-F4 1-G4 Device PCB R241 1:K4 1:J4 R242 1:J4 R243 1:K4 R244 1:H4 R245 R247 1:K4 1:L4 R248 1:J5 R250 1:H5 R251 1:J6 R252 1:L6 R253 R254 1:H5 1:H5 R255 1:H6 R256 1:J6 R257 1:J6 R258 1:K6 R259 R260 1:H5 1:K6 R261 1:J5 R262 1:L6 R266 1:L6 R267 R268 1:L6 1:G5 R269 1:G5 R270 1:G5 R271 1:G5 R272 1:G5 R273 R274 1:G6 1:G6 R275 1:G4 R276 1:K6 R277 1:L4 R278 R282 1:G2 1:F4 R284 1:L3 R285 1:L2 R286 1:L3 R287 1:L3 R288 R301 1:F7 1:G7 R302 1:G7 R303 1:H8 R304 1:F9 R305 R307 1:H9 1:H7 R308 1:G7 R309 1:G8 R310 1:K7 R311 1:J7 R312 R314 1:H10 1:H10 R315 1:H10 R315A 1:J7 R316 1:H10 R317

#R318 2:G10 2:G10

#R319 1:A10 R320 1:D8 R321 1:E9 R322 1:B8 R325 R326 1:D8 1:H7 R327 1:D8 R328 1:D8 R329 1:D8 R330 1:D7 R332 R333 1:J7 1:E8 R337 1:J3 R418 1:J4 R420 1:J4 R421 R422 1:K8 1:L10 R425 1:L9 R426 R427 1:L9 Circuit 1-G5 1-H4 1-H3 1-I3 1-D3 1-A0 1-H4 1-D2 1-F1 1-D0 1-C1 1-E2 1-E2 1-E1 1-E0 1-F0 1-D0 1-F2 1-B0 1-D1 1-C1 1-D1 1-D1 1-G1 1-G0 1-G0 1-G1 1-G2 1-H1 1-G0 1-B2 1-D0 1-I4 1-E7 1-J3 1-I4 1-I3 1-J4 1-J4 1-I0 1-I0 1-I1 1-K0 1-I1 1-L1 1-J0 1-J0 1-K0 1-K1 1-L1 1-M0 1-M0 1-M0 1-K1 1-M0 1-N0 1-N0 1-W0 1-R1 1-P1 1-T0 1-R2 1-S2 1-S2 1-R1 1-S1 1-S1 1-L2 1-S2 1-G6 1-H4 1-I3 1-L9 1-S9 1-T8 1-T8 31/12/97 Copyright TEL M2000-00 T2000-700/-900 RF PCB IPN 220-01289-03 7.6.17 T2000-700/-900 RF PCB (IPN 220-01289-03) - Bottom Side Copyright TEL 31/12/97 IPN 220-01289-03 7.6.18 T2000-700/-900 RF PCB M2000-00 T2000-700/-900 RF PCB (IPN 220-01289-03) - Top Side 31/12/97 Copyright TEL M2000-00 7.7 T2000-800 RF PCB T2000-800 Parts List (IPN 220-01305-03) T2000-800 RF PCB IPN 220-01305-03 7.7.1 Parts List Amendments R258: Changed from 10W Mechanical parts corrections: Delete IPN 362-00010-08 (insulating gasket)

(IPN 036-10000-00) to improve power output (6/05/97) to 0W Add IPN 240-02100-11 (BNC socket) Add IPN 353-00020-12 (0.9mm flat washer) Var Ref C1 C2 C3 C100 C104 C106 C107 C108 C109 C110 C124 C125 C126 C127 C128 C129 C130 C133 C134 C135 C136 C137 C138 C139 C140 C141 C142 C149 C158 C174 C175 C176 C179 C180 C181 C182 C184 C185 C186 C187 C188 C189 C190 C191 C192 C193 C194 C195 C197 C198 C199 C200 C201 C202 C203 C204 C205 C206 C207 C208 C209 C210 C211 CV212 Description IPN 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-21330-01 CAP CER 0805 CHIP 3P3 +/-0.25P NPO 50V 015-21180-01 CAP CER 0805 CHIP 1P8 +/-0.25 NPO 50V 015-21330-01 CAP CER 0805 CHIP 3P3 +/-0.25P NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-22390-01 CAP CER 0805 CHIP 39P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 015-22150-01 CAP CER 0805 CHIP 15P 5% NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-23120-01 CAP CER 0805 CHIP 120P 5% NPO 50V 015-21680-01 CAP CER 0805 CHIP 6P8 +/-0.25P NPO 50V 015-22150-01 CAP CER 0805 CHIP 15P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 015-22390-01 CAP CER 0805 CHIP 39P 5% NPO 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23560-08 CAP CER 0805 CHIP 560P 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-21100-01 CAP CER 0805 CHIP 1PO +/-0.25P NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-23100-01 CAP CER 0805 CHIP 100P 5% NPO 50V 015-22560-01 CAP CER 0805 CHIP 56P 5% NPO 50V 028-02200-01 CAP TRIM 4/20P N750 TOP ADJ RED MUR TZ Ref C213 C214 C215 C216 C217 C218 C219 C220 C221 C222 C223 C224 C225 C226 C227 C229 C230 C231 C232 C233 C235 C236 C237 C238 C240 C241 C242 C243 C244 C245 C246 C247 C248 C249 C250 C251 C252 C253 C254 C255 C256 C301 C303 C304 C305 C306 C307 C308 C309 C310 C311 C312 C313 C314 C315 C316 C317 C318 C319 C320 C321 C322 C324 C325 Var Description IPN 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 022-55100-10 CAP MYLAR AI 10N 5% 63V POTTED 022-57100-02 CAP MYLAR AI 1M 20% 50V POTTED 022-06100-15 CAP MET POLYSTR 100N 5% 50V 5.6MM HI 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-21560-01 CAP CER 0805 CHIP 5P6 +/-0.25P NPO 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-21120-01 CAP CER 0805 CHIP 1P2 +/-0.25 NPO 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-21330-01 CAP CER 0805 CHIP 3P3 +/-0.25P NPO 50V 015-21330-01 CAP CER 0805 CHIP 3P3 +/-0.25P NPO 50V 015-21390-01 CAP CER 0805 CHIP 3P9 +/-0.25P NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22560-01 CAP CER 0805 CHIP 56P 5% NPO 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-21270-01 CAP CER 0805 CHIP 2P7 +/-0.25P NPO 50V 020-09100-07 CAP ELECT 100M 10V 6.3X7MM 5MM 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-23120-01 CAP CER 0805 CHIP 120P 5% NPO 50V 015-22180-01 CAP CER 0805 CHIP 18P 5% NPO 50V 015-22120-01 CAP CER 0805 CHIP 12P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-21270-01 CAP CER 0805 CHIP 2P7 +/-0.25P NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-21390-01 CAP CER 0805 CHIP 3P9 +/-0.25P NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-21470-01 CAP CER 0805 CHIP 4P7 +/-0.25P NPO 50V 015-21470-01 CAP CER 0805 CHIP 4P7 +/-0.25P NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-21330-01 CAP CER 0805 CHIP 3P3 +/-0.25P NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V Copyright TEL 31/12/97 IPN 220-01305-03 7.7.2 T2000-800 RF PCB M2000-00 Var Ref C326 C328 C329 C330 C331 C332 C333 C334 C335 C336 C337 C338 C339 C340 C341 C342 C343 C344 C345 C346 C347 C348 C349 C350 C351 C352 C353 C354 C355 C356 C357 C358 C359 C360 C361 C362 C363 C364 C365 C366 C367 C403 C410 C411 C412 C413 C414 C415 C416 C419 C420 C423 C424 C425 C426 C427 C428 C429 C430 C431 D1 D100 D107 D108 D110 D202 D203 D204 D205 D206 D208 D301 D302 D303 D304 D401 IC101 IC201 IC202 IC203 IC402 IC403 IC404 IC405 Var Description IPN 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-02330-06 CAP CER 1210 CHIP 33P NPO 500V GRM42-2 015-01270-06 CAP CER 1210 CHIP 2P7 NPO 200V GRM42-2 015-21100-01 CAP CER 0805 CHIP 1PO +/-0.25P NPO 50V 015-01330-06 CAP CER 1210 CHIP 3P3 NPO 500V GRM42-2 015-01330-06 CAP CER 1210 CHIP 3P3 NPO 500V GRM42-2 015-21100-01 CAP CER 0805 CHIP 1PO +/-0.25P NPO 50V 015-01270-06 CAP CER 1210 CHIP 2P7 NPO 200V GRM42-2 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-02330-06 CAP CER 1210 CHIP 33P NPO 500V GRM42-2 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 022-06330-03 CAP METAL POLYES 330N 10% 50V 5MM L/S 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-57100-55 CAP ELECT AI RDL 1UF 50V 4X7MM 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-57100-55 CAP ELECT AI RDL 1UF 50V 4X7MM 015-22330-01 CAP CER 0805 CHIP 33P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-58470-05 CAP ELECT AI RDL 47M 16V 6.3X7MM 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-09470-05 CAP ELECT RADL 470M 16V 10X12.5MM 020-19100-02 CAP ELECT RADL 1000M 16V 12X20MM 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 020-08560-09 CAP ELECT RADL 56M 50V 6.3X15.5MM L/S 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 020-57470-10 CAP ELECT AI RDL 4U7 50V LO ESR 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 020-08560-09 CAP ELECT RADL 56M 50V 6.3X15.5MM L/S 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 001-00012-90 001-10000-99 001-10000-17 001-10000-17 001-10014-00 001-10000-70 001-10005-35 001-10005-35 001-10005-35 001-10005-35 001-10014-01 001-00013-45 001-00012-50 001-00012-50 001-00010-26 001-10000-70 002-10033-71 002-10451-58 002-10330-78 002-10120-22 002-00013-70 002-00078-08 002-00078-05 004-00070-73

(S) DIODE MR2520L OVERVOLT SUPPRESSOR

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE INL

(S) DIODE SMD DUAL BAT-17 SCHOTTKY SML S

(S) DIODE SMD DUAL BAT-17 SCHOTTKY SML S

(LS) DIODE SMD BAT14-099R QUAD CRSSD SCH

(S) DIODE SMD BAV70 DUAL SWITCH SOT-23 C

(S) DIODE SMD VARICAP BB535 SOD323

(S) DIODE SMD VARICAP BB535 SOD323

(S) DIODE SMD VARICAP BB535 SOD323

(S) DIODE SMD VARICAP BB535 SOD323

(LS) DIODE SMD BAR14-1 DUAL SI PIN SOT-2

(S) DIODE SCHOTTKY 1SS97/2

(S) DIODE PIN UM9401 UHF PWR SWITCH

(S) DIODE PIN UM9401 UHF PWR SWITCH

(S) DIODE BA482 RF SWITCH

(S) DIODE SMD BAV70 DUAL SWITCH SOT-23 C

(S) IC SMD MC3371D-R2 FM IF DETECT RSSI

(S) IC SMD MC145158DW2 FREQ SYNTH SOIC

(S) IC MC33078D-R2 DUAL AMP LO NOISE SO

(S) IC SMD MC12022AD-R2 PRESC 8-P

(S) IC TDA1020 AF PWR AMP 9PIN SIL

(S) IC MC7808ACT 8V REG(LINEAR)1AMP TO-

(S) IC MC7805ACT 5V REG(LINEAR)1AMP TO-

(L) MODULE RF PWR MHW820-1 806-870MHZ 2 Ref L1 L107 L108 L110 L114 L116 L117 L118 L119 L120 L121 L200 L201 L202 L204 L205 L206 L207 L208 L209 L211 L213 L214 L300 L302 L304 L306 L308 L309 L311 L312 L313 L315 L316 L317 L318 L319 L320 L321 L322 L323 L324 L325 L326 L327 L331 L401 P1 P2 P3 P5 P6 P7 Q101 Q102 Q103 Q115 Q200 Q201 Q202 Q203 Q204 Q205 Q206 Q207 Q208 Q209 Q210 Q211 Q212 Q213 Q214 Q215 Q300 Q301 Q302 Q303 Q304 Q305 Q306 Q307 Q308 Q309 Q401 IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS SM IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS SM Description IPN LINK WIRE AI ZERO OHM 0.6MM WIRE 030-50000-00 BALUN MIXER SMD 617DB-1018 050-10061-70 BALUN MIXER SMD 617DB-1018 050-10061-70 056-00021-60 IND FXD 330NH 6.6X2.7MM AXIAL NON MAGNET 050-00016-62 COIL IF 1UH AT 30MHZ 6MMSQX6.2MMH CAN 29 050-00016-62 COIL IF 1UH AT 30MHZ 6MMSQX6.2MMH CAN 29 050-00016-65 COIL BALUN 7.2MM2 5X0.5PINS 5T/4 456DB-1 050-00016-65 COIL BALUN 7.2MM2 5X0.5PINS 5T/4 456DB-1 050-00016-55 COIL TAIT NO 655 455KHZ QUAD COIL 7MM CA IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 10 057-10005-03 IND 0805 BLM21A121 EMI SUPRSN 120 OHM @

057-10120-03 IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 10 057-10005-03 057-00100-00 IND FXD SMD 100NH 10% 2.5X3.5MM MUR LQN2 056-10820-00 IND FXD SMD 820NH 3.2*2.5*1.6 SIEMENS SM 050-00016-62 COIL IF 1UH AT 30MHZ 6MMSQX6.2MMH CAN 29 056-10330-00 056-10330-00 051-00616-00 COAX RES 28MM (STRIPPED) X 2.18MM T2000 056-10330-00 056-10330-00 056-10100-00 056-10100-00 056-10330-00 056-10330-00 056-10330-00 057-10005-03 057-10005-03 052-56130-85 COIL A/W 8.5T/3.0MM HOR 0.56MM WIRE 057-00015-00 052-56130-85 COIL A/W 8.5T/3.0MM HOR 0.56MM WIRE 056-00021-60 052-08330-10 COIL A/W 1T/3.0MM SMD 0.8MM WIRE 052-08130-25 COIL A/W 2.5T/3.0MM HOR 0.8MM WIRE 052-56130-85 COIL A/W 8.5T/3.0MM HOR 0.56MM WIRE 052-56130-85 COIL A/W 8.5T/3.0MM HOR 0.56MM WIRE 052-56130-85 COIL A/W 8.5T/3.0MM HOR 0.56MM WIRE 052-56130-85 COIL A/W 8.5T/3.0MM HOR 0.56MM WIRE 052-08130-35 COIL A/W 3.5T/3.0MM HOR 0.8MM WIRE 052-56130-85 COIL A/W 8.5T/3.0MM HOR 0.56MM WIRE 052-08340-10 COIL A/W 1T/4.0MM SMD 0.8MM WIRE 052-08345-10 COIL A/W 1T/4.5MM SMD 0.8MM WIRE 052-08335-10 COIL A/W 1T/3.5MM SMD 0.8MM WIRE LINK WIRE AI ZERO OHM 0.6MM WIRE 030-50000-00 LINK WIRE AI ZERO OHM 0.6MM WIRE 030-50000-00 057-10005-03 IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 10 057-10005-03 IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 10 050-00016-50 COIL TAIT NO 650 455KHZ 5.6MM CAN IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS SM IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS SM IND FXD SMD 100NH 3.2*2.5*1.6 SIEMENS SM IND FXD SMD 100NH 3.2*2.5*1.6 SIEMENS SM IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS SM IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS SM IND FXD SMD 330NH 3.2*2.5*1.6 SIEMENS SM IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 10 IND 0805 BLM21B05 EMI SUPRSN 5 OHM AT 10 IND FXD 330NH 6.6X2.7MM AXIAL NON MAGNET IND FXD 15NH +-5% 1206 CHIP MUR LQN1A15N 240-00026-24 CONN PADLE BRD 16 WAY MICRO MATCH 1-2155 240-00026-26 CONN PADLE BRD 12 WAY MICRO MATCH 1-2155 240-00026-21 240-00010-76 240-00010-76 240-00020-72 HEADER 2 WAY PCB MTG ULTREX PLUG CAP HOUSING 7-POS CONN 172039-1 PLUG HEADER 10WAY MICROMATCH PCB MTD 1-

PLUG HEADER 10WAY MICROMATCH PCB MTD 1-

000-10052-00 000-10008-57 000-10095-10 000-10008-48 000-10003-10 000-10008-57 000-10003-10 000-10008-48 000-10008-48 000-10008-57 000-10008-48 000-10008-57 000-10008-48 000-10008-57 000-10003-12 000-10008-48 000-10009-41 000-10008-48 000-10009-41 000-10057-10 000-10095-10 000-10095-10 000-00032-47 000-10008-48 000-00012-15 000-10008-48 000-10008-07 000-10008-48 000-10008-07 000-10008-48 000-10008-57

(LS) XSTR SMD BFG520/X 9GHZ RF SML SIG N

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD MMBFJ310 JFET SOT-23 UHF

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD MMBFJ310 JFET SOT-23 UHF

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BFR31 N JFET SOT-23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD MMBR941L RF LOW NOISE SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD MMBR941L RF LOW NOISE SOT23

(S) XSTR SMD MMBR571 NPN SOT-23 UHF LO P

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR SMD MMBR951 NPN UHF SOT-23

(S) XSTR MRF559 NPN XPACK UHF PWR 0.5W

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR BD234 PNP AF PWR TO126

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BC807 PNP SOT-23 AF LO PWR

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BC807 PNP SOT-23 AF LO PWR

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG 31/10/96 Copyright TEL M2000-00 T2000 TCXO/Tx Audio PCB IPN 220-01389-00 7.9.1 7.9 T2000 TCXO/Tx Audio PCB T2000 TCXO/Tx Audio Parts List (IPN 220-01389-00) Ref C901 C902 C903 C904 C905

#C906

#C906

#C906 C907 C908 C913 C914 C915 C916 C917 C918

&C919

&C920

&C921

&C922 C924 Var X1X X2X X3X XX1 XX1 XX1 XX1 Description IPN 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-11470-00 CAP 0603 CHIP 4P7 50V NPO +-0.25P 020-09100-07 CAP ELECT 100M 10V 6.3X7MM 5MM 015-25470-08 CAP CER 0805 CHIP 47N 10% X7R 50V 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 018-11150-00 CAP 0603 CHIP 1P5 50V NPO +-0.25P 018-11470-00 CAP 0603 CHIP 4P7 50V NPO +-0.25P 018-11150-00 CAP 0603 CHIP 1P5 50V NPO +-0.25P 018-12470-00 CAP 0603 CHIP 47P 50V NPO +-5%

014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 26 014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 26 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-23120-01 CAP CER 0805 CHIP 120P 5% NPO 50V 015-23120-01 CAP CER 0805 CHIP 120P 5% NPO 50V 018-12180-00 CAP 0603 CHIP 18P 50V NPO +-5%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V

&D901 XX1 001-10004-00

(S) DIODE SMD VARICAP BBY40 SOT23 IC901

&IC902

&IC902 IC903 XX3 XX5 002-10340-02 (S) IC SMD MC34002D LIN.OP-AM 539-00010-46 539-00010-48 002-10078-05 VCTCXO 12.8MHZ +-3.0PPM -30 TO +75 VCTCXO 12.8MHZ +-2.5PPM -30 TO +75

(S) IC SMD 78L05 5V REG

&Q901 XX1 000-10008-92 (S) XSTR SMD BFS17 NPN SO Ref

&R928

&R929

&R930 R931 R932 R957 S6 Var XX5 XX1 XX1 Description IPN 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-12470-00 RES 0603 CHIP 47E 1/16W +-5%

036-14390-00 RES M/F 0805 CHIP 3K9 5%

240-02010-76 SKT 10WAY MICROMATCH SIDE ENTRY PCB 1-21 TSP901 005-10000-10 TEST POINT SMD 0805 2.0 X 1.25 X 1.45

&X901 XX1 274-01058-00 XTAL 12.8MHZ TE/45 +-5PPM UM-1 3 LE 220-01389-00 PCB T2000 SII TCXO Variants:

X1X wide band (15kHz IF bandwidth) X2X X3X medium band (12kHz IF bandwidth) narrow/dual band (7.5kHz IF bandwidth) XX1 XX3 XX5 5ppm, -10 to +60C frequency stability 3ppm, -30 to +60C frequency stability 2.5ppm, -30 to +60C frequency stability X1X X2X X3X X1X X2X X3X X1X X2X X3X X1X X2X X3X X1X X2X X3X

#R835A X1X

#R835A X3X

#R835C X2X R900 R901 R902

#R903

#R903

#R903

#R904

#R904

#R904 RV906 RV907 R908

#R909

#R909

#R909

#R910

#R910

#R910

#R911

#R911

#R911 R912 R913 R914 XX1

&R915 XX1

&R916 XX1

&R917 XX1

&R918 XX1

&R919 XX1

&R920 XX1

&R921 XX1

&R922 XX3

&R923 XX5

&R923 XX3

&R924 XX5

&R924 XX1

&R925

&R926 XX1

&RV927 XX1 XX1

&R928

&R928 XX3 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

042-04200-02 RES PRESET 2K CARBON VERT SIDE ADJ 042-04200-02 RES PRESET 2K CARBON VERT SIDE ADJ 038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15560-00 RES 0603 CHIP 56K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-15180-00 RES 0603 CHIP 18K 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15560-00 RES 0603 CHIP 56K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-12330-00 RES M/F 0805 CHIP 33E 5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14150-00 RES 0603 CHIP 1K5 1/16W +-5%

036-12820-00 RES M/F 0805 CHIP 82E 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-14820-00 RES 0603 CHIP 8K2 1/16W +-5%

045-15100-00 RES NTC SMD 10K 5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

044-06100-04 RES PRESET 100K CERMET 20T SIDE AD 038-15820-00 RES 0603 CHIP 82K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

Copyright TEL 31/12/97 IPN 220-01389-00 7.9.2 T2000 TCXO/Tx Audio PCB M2000-00 31/10/96 Copyright TEL M2000-00 T2000 TCXO/Tx Audio PCB IPN 220-01389-02 7.9.7 7.9 T2000 TCXO/Tx Audio PCB T2000 TCXO/Tx Audio Parts List IPN 220-01389-02) Ref C901 C902 C903 C904 C905

#C906

#C906

#C906 C907 C908 C913 C914 C915 C916 C917 C918

&C919

&C920

&C921

&C922 C924 Var X1X X2X X3X XX1 XX1 XX1 XX1 Description

(L) CAP ELECT SMD 100U 6.3V 6.6*6.6MM IPN 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-11470-10 CAP 0603 CHIP 4P7 50V NPO +-0.1P 016-09100-01 015-25470-08 CAP CER 0805 CHIP 47N 10% X7R 50V 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 018-11150-10 CAP 0603 CHIP 1P5 50V NPO +-0.1P 018-11470-10 CAP 0603 CHIP 4P7 50V NPO +-0.1P 018-11150-10 CAP 0603 CHIP 1P5 50V NPO +-0.1P 018-12470-10 CAP 0603 CHIP 47P 50V NPO +-1%

014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-23120-01 CAP CER 0805 CHIP 120P 5% NPO 50V 015-23120-01 CAP CER 0805 CHIP 120P 5% NPO 50V 018-12180-10 CAP 0603 CHIP 18P 50V NPO +-1%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V

&D901 XX1 001-10004-00

(S) DIODE SMD VARICAP BBY40 SOT23 IC901

&IC902

&IC902 IC903 XX3 XX5 002-10340-02 539-00010-46 539-00010-48 002-10078-05

(S) IC SMD MC34002D LIN.OP-AMP DUAL SO VCTCXO 12.8MHZ +-3.0PPM -30 TO +75 VCTCXO 12.8MHZ +-2.5PPM -30 TO +75

(S) IC SMD 78L05 5V REG

&Q901 XX1 000-10008-92

(S) XSTR SMD BFS17 NPN SOT-23 UHF S Ref

&R928

&R928

&R928

&R929

&R930 R931 R932 R957 S6 Var XX1 XX3 XX5 XX1 XX1 Description IPN 038-15820-00 RES 0603 CHIP 82K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-12470-00 RES 0603 CHIP 47E 1/16W +-5%

036-14390-00 RES M/F 0805 CHIP 3K9 5%

240-02010-76 SKT 10WAY MICROMATCH SIDE ENTRY PCB 1-25 TSP901 005-10000-10 TEST POINT SMD 0805 2.0 X 1.25 X 1.45

&X901 XX1 274-01058-00 XTAL 12.8MHZ TE/45 +-5PPM UM-1 3 LE 220-01389-02 PCB T2000 SII TCXO Variants:

X1X wide band (15kHz IF bandwidth) X2X X3X medium band (12kHz IF bandwidth) narrow/dual band (7.5kHz IF bandwidth) XX1 XX3 XX5 5ppm, -10 to +60C frequency stability 3ppm, -30 to +60C frequency stability 2.5ppm, -30 to +60C frequency stability X1X X2X X3X X1X X2X X3X

#R835A X1X

#R835A X3X

#R835B X1X

#R835B X3X

#R835C X2X R900 R901 R902

#R903

#R903

#R903

#R904

#R904

#R904 RV906 RV907 R908

#R909

#R909

#R909

#R910

#R910

#R910

#R911

#R911

#R911 R912 R913 R914 XX1

&R915 XX1

&R916 XX1

&R917 XX1

&R918 XX1

&R919 XX1

&R920 XX1

&R921 XX1

&R922 XX3

&R923 XX5

&R923 XX3

&R924 XX5

&R924 XX1

&R925

&R926 XX1

&RV927 XX1 X1X X2X X3X X1X X2X X3X X1X X2X X3X 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

042-04200-02 RES PRESET 2K CARBON VERT SIDE ADJ 042-04200-02 RES PRESET 2K CARBON VERT SIDE ADJ 038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15560-00 RES 0603 CHIP 56K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-15180-00 RES 0603 CHIP 18K 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15560-00 RES 0603 CHIP 56K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-12330-00 RES M/F 0805 CHIP 33E 5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14150-00 RES 0603 CHIP 1K5 1/16W +-5%

036-12820-00 RES M/F 0805 CHIP 82E 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-14820-00 RES 0603 CHIP 8K2 1/16W +-5%

045-15100-00 RES NTC SMD 10K 5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

044-06100-04 RES PRESET 100K CERMET 20T SIDE AD Copyright TEL 31/12/97 IPN 220-01389-02 7.9.8 T2000 TCXO/Tx Audio PCB M2000-00 31/12/97 Copyright TEL M2000-00 T2000 TCXO/Tx Audio PCB IPN 220-01389-02 7.9.9 T2000 TCXO/Tx Audio PCB (IPN 220-01389-02) - Bottom Side Copyright TEL 31/12/97 IPN 220-01389-02 7.9.10 T2000 TCXO/Tx Audio PCB M2000-00 T2000 TCXO/Tx Audio PCB (IPN 220-01389-02) - Top Side 31/12/97 Copyright TEL M2000-00 T2010 & T2015 HC05 Logic PCB IPN 220-01377-02 7.10.11 7.10 T2010 & T2015 HC05 Logic PCB T2010 & T2015 HC05 Logic Parts List (IPN 220-01377-02) Parts List Amendments Var Ref C500 C501 C501A C502 C503 C504 C505 C506 C507 C509 C514 C515 C517 C518 C519 C520 C521 C522 C524 C525 C526 C527 C528 C530 C540 C541 C542 C543 C544 C545 C546 C600 C601 C602 C603 C604 C605 C606 C607 C608 C609 C610 C611 C612 C613 C614 C615 C616 C617 C618 C619 C620 C621 C622 C623 C624 C625 C626 C627 C628 C629 C630 C632 C633 Var Description IPN 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 015-23680-08 CAP CER 0805 CHIP 680P 10% X7R 50V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-12220-00 CAP 0603 CHIP 22P 50V NPO +-5%

018-12220-00 CAP 0603 CHIP 22P 50V NPO +-5%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-12220-00 CAP 0603 CHIP 22P 50V NPO +-5%

018-12220-00 CAP 0603 CHIP 22P 50V NPO +-5%

015-23680-08 CAP CER 0805 CHIP 680P 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13100-00 CAP 0603 CHIP 100P 50V NPO +-5%

018-13100-00 CAP 0603 CHIP 100P 50V NPO +-5%

018-13100-00 CAP 0603 CHIP 100P 50V NPO +-5%

018-13100-00 CAP 0603 CHIP 100P 50V NPO +-5%

015-24330-08 CAP CER 0805 CHIP 3N3 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 018-12820-00 CAP 0603 CHIP 82P 50V NPO +-5%

015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-12470-00 CAP 0603 CHIP 47P 50V NPO +-5%

014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 018-13100-00 CAP 0603 CHIP 100P 50V NPO +-5%

014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V Ref C634 C635 C636 C637 C638 C639 C640 C641 C642 C643 C644 C645 C646 C647 C648 C650 C651

#C700 C702

#C703 C705

#C730 D500 IC501 IC504 IC505 IC506 IC507 IC509

#IC510 IC511 IC513 IC601 IC602 IC603 IC604 IC614 L501 P1 P2 Q501 Q502 Q503 Q504 Q505 Q506 Q507 Q508 Q509 Q510 Q520 Q601 Q602 Q603 Q604 Q605 Q606 Q607 Q608 Description IPN 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-11470-00 CAP 0603 CHIP 4P7 50V NPO +-0.25P 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 267 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-10% 26 001-10000-70 002-10936-60 002-10340-64 002-26870-55 002-10140-21 002-10140-21 002-74905-95 002-74901-32 002-74901-32 002-10078-08 002-10003-24 002-10003-24 002-10003-24 002-10003-58 002-10040-53

(S) DIODE SMD BAV70 DUAL SWITCH SOT-23 C

(LS) IC SMD ST93C66CM6 4K EEPROM SER MI

(S) IC SMD MC34064 LO VOLT SENSE

(LSH) IC 68HC705C9 MPU (T201X 2.05) MAS

(S) IC MC14021BDR2 8BIT SHIFT REGSTR.SO

(S) IC MC14021BDR2 8BIT SHIFT REGSTR.SO

(S) IC SMD 74HC595 SHIFT REGISTER

(S) IC SMD 74HC132 HCMOS QUAD SCHMT SO

(S) IC SMD 74HC132 HCMOS QUAD SCHMT SO-

(S) IC SMD 78L08 8V REG SO8

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD LM358 DUAL OP AMP

(S) IC 4053 SMD TRIPLE 2CH MULTI-PLEXR 056-10330-02

(L) IND SMD 330NH SIEMENS SMID02 240-10000-01 CONN SMD 24WAY (PLUG) 240-10000-01 CONN SMD 24WAY (PLUG) 000-10084-81 000-10084-81 000-10008-69 000-10084-81 000-10085-71 000-10085-71 000-10003-12 000-10085-71 000-10085-71 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10085-71 000-10084-81 000-10084-81 000-10084-81

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC869 PNP 1W 2A SOT-89

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BFR31 N JFET SOT-23

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S Copyright TEL 31/12/97 IPN 220-01377-02 7.10.12 T2010 & T2015 HC05 Logic PCB M2000-00 Var Ref R501 R502 R503 R504 R505 R506 R507 RV507 R508 R509 R510 R511 R512 R513 R514 R515 R516 R518 R519 R520 R521 R522 R523 R524 R525 R526 R527 R528 R529 R530 R531 R532 R533 R534 R535 R536 R537 R538 R539 R540 R541 R542 R543 R544 R546 R547 R568 R569 R570 R571 R572 R574 R575 R578 R579 R580 R581 R582 R583 R584 R585 R586 R592 R593 R595

#R596 R599 R600 R601 R602 R603 R604 R605 R606 R607 R608 R609 R610 R611 R612 R613 R614 R615 R616 R617 R618 Description IPN 038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

042-15500-01 RES PRESET SMD 50K +-25% 4X4.5X2.5MM 0. 038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

036-16470-00 RES M/F 0805 CHIP 470K 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-15390-00 RES M/F 0805 CHIP 39K 5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-15820-00 RES M/F 0805 CHIP 82K 5%

036-14820-00 RES M/F 0805 CHIP 8K2 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

Ref R619 R620 R621 R622 R623 R624 R625 R626 R627 R628 R629 R630 R631 R632 R633 R634 R635 R636 R637 R638 R639 R640 R641 R642 R643 R644 R645 R646 R647 R648 R649 R650 R651 R652 R653 R654 R655 R656 R657 R658 R659 R660 R661 R662 R663 R664 R665 R666 R667 R668 R669 R670 R671 R672 R673 R674 R675 R676 R677 R678 R679 R680 R681 R682 R683 R684 R685 R686 R687 R688 R689 R690 R691 R692 R693 R694 R695 R696 R697 R698 R699 R700 R701 R702 R703 R704 Var Description IPN 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-14120-00 RES M/F 0805 CHIP 1K2 5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

036-16470-00 RES M/F 0805 CHIP 470K 5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

036-14180-00 RES M/F 0805 CHIP 1K8 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-14180-00 RES M/F 0805 CHIP 1K8 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

31/12/97 Copyright TEL T2010 & T2015 HC05 Logic PCB IPN 220-01377-02 7.10.13 Ref Var IPN Description M2000-00 Ref R705 R706 R707 R708

#R710

#R712

#R713

#R714 R720 R721

#R722

#R723 R724 R725 R726 R727

#R735

#SPEC1 S1 S2 S8 S13 S14 S15 SK505 Var Description IPN 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-04020-42 SKT 44 PIN SMD PLCC CHIP CARRIER X501 274-01070-00 XTAL 4.000MHZ HC49U/S C/W TEFLON INSULAT Copyright TEL 31/12/97 IPN 220-01377-02 7.10.14 T2010 & T2015 HC05 Logic PCB M2000-00 T2010 & T2015 HC05 Logic Mechanical & Miscellaneous Parts IPN Description IPN 219-02584-00 220-01377-02 240-00020-12 240-00100-13 240-02010-75 240-04021-63 252-00010-37 252-00010-49 265-00010-60 303-23134-02 303-30062-02 303-30063-02 303-30064-00 303-30065-03 340-00010-23 349-00010-49 349-00020-32 353-00010-32 362-01028-00 360-02003-01 365-00100-09 365-01376-00 365-01391-01 369-00020-46 399-00010-52 410-01099-01 410-01101-00 Description CABLE ASSEMBLY T2000 PWR CABLE

(L) PCB T2010/15 LOGIC HC05 COMMON PLATFOR PLUG MICROPHONE BT SR937 (PIN 2 MISSING) PLUG COAX BNC CORD MTG CRIMP URM76 SKT RECEPTL SML 172775-1 CONN 2WAY 24AWG (BLACK) INLINE HERMAPHRODITIC MIC AWC DYNAMIC 600E 6WAY M095D TINSEL SHLD'D MIC CLIP (SPRING STEEL CONTACT) FUSE 10A 12V AUTOMOTIVE STAPLE TYPE COVER TOP A1M2504 T2000 PNTD CMPLT CRADLE BODY A3M2551 T2000 BOTTOM CRADLE BODY A3M2552 T2000 TOP CRADLE CLIP A1M2550 T2000 KEY T2000 SII FUSEHLDR INLINE 3M 972 SCREW SELFTAP NO 10X1/2 IN TYPE AB PAN POZI BZ SCREW TAPTITE M3X8MM PAN POZI BZ WASHER M5 SHAKEPROOF EXT BZ GASKET A4M2652 130X3MM CONDUCT STRIPS GROMMET MIC CORD T2000 SII LABEL WHITE VINYL 15X11MM S/A LABEL A4A724 SOFTWARE

(L)LABEL BLNK 30*10.8MM TAMPERMARK VOID MA TAPE 6 X 6MM FOAM 1 SIDE S/A BAG PLASTIC 100*150MM

(L) PKG CARTON T2000 SERIES II CARTON T700/T2000 OUTER (5 UNIT EA) 31/12/97 Copyright TEL M2000-00 T2010 & T2015 HC05 Logic PCB 31/12/97 7.10.15 T2010 & T1015 HC05 Logic Grid Reference Index (IPN 220-01377-02) Device PCB ALC 2:G1 Circuit 1-V0 BOARD 2:N14 1-T4 C500 C501 C502 C503 C504 C505 C506 C507 C509 C514 C515 C517 C518 C519 C520 C521 C522 C524 C525 C526 C527 C528 C529 C530 C540 C541 C542 C543 C544 C545 C546 C547 C600 C601 C602 C603 C604 C605 C606 C607 C608 C609 C610 C611 C612 C613 C614 C615 C616 C617 C618 C619 C620 C621 C622 C623 C624 C625 C626 C627 C628 1:J3 1:J14 1:J10 1:K21 1:P21 1:J21 1:N21 1:N20 1:L15 1:J12 1:J12 1:M21 1:H9 1:F9 1:J16 1:H21 1:H3 1:B7 1:K3 1:K3 1:K3 1:L12 1:E22 1:E2 1:N19 1:N18 1:H9 1:G9 1:L4 1:L14 1:D6 1:G6 1:F8 1:K4 1:L4 1:K5 1:F10 1:K6 1:J8 1:L3 1:L5 1:L4 1:K5 1:L3 1:L8 1:M5 1:M5 1:P5 1:N4 1:N3 1:M5 1:G15 1:J16 1:K16 1:H15 1:C9 1:B6 1:C6 1:L14 1:E10 1:E8 1-B6 1-C8 1-B3 1-E5 1-H9 1-H8 1-G6 1-H6 1-C7 1-I6 1-J6 1-D8 1-A6 1-B7 1-H5 1-H5 1-B6 1-B8 1-E5 1-E5 1-F5 1-S9 1-S9 1-T9 1-I4 1-I4 1-A6 1-B6 1-B0 1-N0 1-V1 1-S1 1-C1 1-B1 1-B0 1-C1 1-B2 1-B0 1-C2 1-E2 1-D1 1-E1 1-D0 1-E1 1-G1 1-E0 1-E0 1-F0 1-F0 1-G0 1-H0 1-I0 1-J0 1-J0 1-H0 1-L0 1-N1 1-N1 1-O0 1-M0 1-M0 Device PCB 1:L14 C629 1:C5 C630

#C631 1:G6 1:G7 C632 1:E7 C633 1:F5 C634 1:F5 C635 C636 1:E5 1:D4 C637 1:C4 C638 1:G4 C639 1:G3 C640 C641 1:C4 1:C3 C642 1:D3 C643 1:E3 C644 1:C3 C645 C646 1:F5 1:C4 C647 1:L7 C648 1:D10 C650 1:C6 C651

#C700 1:C9 1:D15

#C701 1:F12 C702 1:C9

#C703 1:E2

#C704 C705 1:D15 1:G5

#C730 C501A 1:J13 D500 D500 DISABLE 2:F1 1:C10 1:C10 IC501

#IC503 IC504 IC506 IC507 IC509

#IC510

#IC510

#IC510

#IC510

#IC510 IC511 IC511 IC511 IC511 IC511

#IC512

#IC512

#IC512

#IC512

#IC512 IC513 IC601 IC601 IC601 IC601 IC601 IC602 IC602 IC602 1:H14 1:J12 1:N22 1:D11 1:C14 1:D19 1:E17 1:E17 1:E17 1:E17 1:E17 1:H16 1:H16 1:H16 1:H16 1:H16 1:C17 1:C17 1:C17 1:C17 1:C17 1:G9 1:M4 1:M4 1:M4 1:M4 1:M4 1:K15 1:K15 1:K15 Circuit 1-N0 1-T1 1-S2 1-T2 1-U2 1-U1 1-U2 1-V1 1-U1 1-V0 1-V0 1-U0 1-S0 1-R1 1-Q0 1-Q0 1-B9 1-Q0 1-S0 1-C0 1-L1 1-N1 1-L1 1-P3 1-R1 1-V5 1-P1 1-C6 1-S1 1-C8 1-K3 1-K3 1-U0 1-E8 1-I6 1-H9 1-M4 1-O4 1-L7 1-V6 1-O2 1-W5 1-V6 1-O3 1-V3 1-G5 1-N5 1-I5 1-J4 1-K3 1-L3 1-M2 1-V5 1-L2 1-A7 1-E0 1-T3 1-C0 1-F1 1-G0 1-H0 1-C7 1-K0 Device PCB Circuit IC602 IC602 IC603 IC603 IC603 IC603 IC603 IC604 IC604 IC604 IC614 IC614 IC614 IC614 ID 1:K15 1:K15 1:E4 1:E4 1:E4 1:E4 1:E4 1:K8 1:K8 1:K8 1:E8 1:E8 1:E8 1:E8 2:N14 1-O0 1-T3 1-U3 1-P0 1-V1 1-R0 1-A2 1-H2 1-V3 1-C5 1-J1 1-C1 1-M0 1-N1 1-T4 L501 1:N19 1-I4 P1 P2 1:G10 1:E14 1-U9 1-U8 Q501 Q502 Q503 Q504 Q505 Q506 Q507 Q508 Q509 Q510

#Q518 Q520 Q601 Q602 Q603 Q604 Q605 Q606 Q607 Q608 R501 R502 R503 R504 R505 R506 R507 R508 R509 R510 R511 R512 R513 R514 R515 R516 R518 R519 R520 R521 R522 R523 R524 1:C12 1:K11 1:K10 1:F16 1:C12 1:E16 1:L22 1:E16 1:E16 1:F16 1:C7 1:G18 1:E9 1:D9 1:F6 1:H8 1:F2 1:D7 1:D7 1:G8 1:C12 1:C12 1:K11 1:J10 1:L21 1:L21 1:D12 1:L21 1:K14 1:J13 1:J9 1:J8 1:D10 1:J9 1:J9 1:F16 1:D3 1:D3 1:H15 1:M22 1:M22 1:B6 1:K21 1-C9 1-D9 1-D9 1-D6 1-K4 1-C6 1-D7 1-C6 1-D6 1-E6 1-J4 1-E6 1-J1 1-M1 1-U1 1-W2 1-T0 1-W1 1-W0 1-W2 1-B9 1-C9 1-D9 1-D8 1-D7 1-D7 1-C9 1-D7 1-B7 1-C8 1-B6 1-C6 1-K3 1-C4 1-C5 1-D6 1-B7 1-B7 1-E7 1-D8 1-D8 1-D4 1-E5 Device PCB 1:K21 R525 1:G15 R526 R527 1:L21 1:L21 R528 1:E11 R529 1:M19 R530 1:M21 R531 R532 1:F12 1:G17 R533 1:G16 R534 1:E12 R535 1:C10 R536 R537 1:D12 1:C11 R538 1:E11 R539 1:E11 R540 1:E12 R541 R542 1:J10 1:J10 R543 1:E11 R544 1:C6 R546 1:C11 R547 R568 1:D18 1:H17 R569 1:J16 R570 1:L17 R571 1:K17 R572 R574 1:H3 1:G17 R575 1:G18 R578 1:G17 R579 1:J11 R580 R581 1:G17 1:G16 R582 1:K21 R583 1:F16 R584 1:K10 R585 R586 1:K10 1:F14 R592 1:F14 R593 1:F17 R595 1:K21

#R596 R599 1:L17 1:K8 R600 1:F8 R601 1:P3 R602 1:K5 R603 R604 1:K5 1:K5 R605 1:F9 R606 1:E8 R607 1:L5 R608 R609 1:N4 1:C9 R610 1:M5 R611 1:K8 R612 1:K4 R613 R614 1:L4 1:K8 R615 1:L9 R616 1:L8 R617 1:L9 R618 R619 1:N4 1:M5 R620 R621 1:P2 Circuit 1-G8 1-F8 1-G9 1-H8 1-F8 1-I8 1-G6 1-J7 1-I5 1-I5 1-K4 1-K4 1-K4 1-L5 1-L5 1-L5 1-M5 1-E9 1-D9 1-Q7 1-Q4 1-L5 1-L7 1-G5 1-G5 1-I6 1-I6 1-B6 1-E6 1-F6 1-E6 1-J6 1-E7 1-E7 1-G9 1-E6 1-C8 1-D8 1-H5 1-H4 1-E6 1-G4 1-I6 1-B2 1-B1 1-D0 1-B0 1-B0 1-B0 1-B1 1-D1 1-D0 1-D0 1-F4 1-D1 1-D2 1-D1 1-E1 1-G2 1-G1 1-G2 1-H1 1-E0 1-F0 1-F0 Copyright TEL 31/12/97 IPN 220-01377-02 7.10.16 T2010 & T2015 HC05 Logic PCB M2000-00 Device PCB R691 1:C3 1:F8 R692 1:C10 R693 1:N18 R694 1:E18 R695 R696 1:G16 1:C11 R697 1:J15 R698 1:C11 R699 1:C13 R700 R701 1:C13 1:C13 R702 1:D13 R703 1:C14 R704 1:C15 R705 R706 1:C15 1:C15 R707 1:E3 R708 1:D5

#R710 1:D5

#R711

#R712 1:D13 1:C5

#R713 1:B16

#R714 1:B16

#R715 1:E15 R720 R721 1:D16 1:D16

#R722 1:D16

#R723 1:E16 R724 1:E15 R725 R726 1:E15 1:F16 R727 1:J21

#R735 1:G7

#R751 1:L22 RV507

#RV508 1:K22 1:L2 S1 1:B2 S2 1:E20 S3 1:H5 S8 1:B4 S13 1:B10 S14 1:B14 S15 SK505 1:K19

#SPEC1 1:M14

#SPEC2 1:M14

#SPEC3 1:M14

#SPEC4 1:M13

#SPEC5 1:M13

#SPEC6 1:M13

#SPEC7 1:M13

#SPEC8 1:M12

#SPEC9 1:M12

#SPEC10 1:M12 TP601 TP602 TP603 TP604 TP605 TP606 TP607 TP608 TP609 TP610 TP611 TP614 2:J5 2:K7 2:M9 2:L14 2:F3 2:F1 2:E5 2:B8 2:K21 2:E19 2:F16 1:C11 Circuit 1-T1 1-C1 1-F4 1-H5 1-I5 1-I4 1-L4 1-M3 1-G3 1-O8 1-P8 1-P8 1-P8 1-P8 1-Q8 1-Q8 1-Q8 1-P1 1-S1 1-U1 1-L2 1-S1 1-N4 1-N4 1-C6 1-C6 1-C6 1-C6 1-D6 1-D7 1-D7 1-E6 1-G5 1-S2 1-D7 1-G4 1-V9 1-V9 1-U8 1-V8 1-V7 1-V7 1-V6 1-G6 1-T4 1-T4 1-U4 1-U4 1-U4 1-V4 1-V4 1-V4 1-W4 1-W4 1-A3 1-G1 1-I2 1-O0 1-P0 1-T1 1-U2 1-B3 1-G9 1-M8 1-E6 1-I2 Circuit 1-C0 1-G0 1-G0 1-I1 1-H0 1-H0 1-I0 1-I0 1-M0 1-M0 1-J0 1-K0 1-K0 1-J1 1-K1 1-L0 1-L0 1-B4 1-L0 1-N0 1-M1 1-N0 1-N0 1-O1 1-O0 1-O0 1-M2 1-V1 1-V1 1-B9 1-S2 1-T2 1-T2 1-U2 1-T2 1-T1 1-V1 1-T1 1-U2 1-V2 1-W2 1-V2 1-V1 1-U1 1-W0 1-U0 1-U0 1-U0 1-T0 1-T0 1-S0 1-S0 1-S0 1-S0 1-R1 1-R0 1-Q0 1-Q0 1-T1 1-P0 1-Q0 1-Q0 1-G1 1-V0 1-V2 1-A0 1-A0 1-I2 1-J2 Device PCB R622 R623 R624 R625 R626 R627 R628 R629 R630 R631 R632 R633 R634 R635 R636 R637 R638 R639 R640 R641 R642 R643 R644 R645 R646 R647 R648 R649 R650 R651 R652 R653 R654 R655 R656 R657 R658 R659 R660 R661 R662 R663 R664 R665 R666 R667 R668 R669 R670 R671 R672 R673 R674 R675 R676 R677 R678 R679 R680 R681 R682 R683 R684 R685 R686 R687 R688 R689 R690 1:L5 1:N3 1:N3 1:H15 1:P3 1:J16 1:G15 1:G15 1:D8 1:E8 1:K16 1:L15 1:L16 1:E10 1:D8 1:C8 1:C8 1:B5 1:C8 1:K14 1:D8 1:M15 1:J14 1:C5 1:K14 1:K13 1:D10 1:D6 1:D8 1:C3 1:G7 1:F7 1:F7 1:F6 1:F6 1:G6 1:D5 1:F5 1:F6 1:E6 1:G8 1:G8 1:D5 1:D4 1:D8 1:G2 1:D4 1:F2 1:F2 1:F2 1:C5 1:C4 1:C4 1:C3 1:D3 1:E3 1:F4 1:E3 1:D2 1:F3 1:F4 1:F4 1:L9 1:G2 1:H8 1:L6 1:K6 1:F11 1:F10 31/12/97 Device PCB X501 1:N21 1:J13

#X502 Circuit 1-G6 1-J6 Device PCB Circuit Copyright TEL M2000-00 T2010 & T2015 HC05 Logic PCB IPN 220-01377-03 7.10.21 7.10 T2010 & T2015 HC05 Logic PCB T2010 & T2015 HC05 Logic Parts List (IPN 220-01377-03) Parts List Amendments Var IPN Description 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 015-23680-08 CAP CER 0805 CHIP 680P 10% X7R 50V Ref C500 C501 C501A 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

C502 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C503 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C504 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C505 018-12220-10 CAP 0603 CHIP 22P 50V NPO +-1%

C506 018-12220-10 CAP 0603 CHIP 22P 50V NPO +-1%

C507 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

C509 C514 018-12220-10 CAP 0603 CHIP 22P 50V NPO +-1%

018-12220-10 CAP 0603 CHIP 22P 50V NPO +-1%

C515 015-23680-08 CAP CER 0805 CHIP 680P 10% X7R 50V C517 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C518 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C519 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V C520 C521 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

C522 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V C524 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

C525 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

C526 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

C527 C528 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

C530 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

C540 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

C541 018-13100-10 CAP 0603 CHIP 100P 50V NPO +-1%

C542 018-13100-10 CAP 0603 CHIP 100P 50V NPO +-1%

C543 C544 018-13100-10 CAP 0603 CHIP 100P 50V NPO +-1%

018-13100-10 CAP 0603 CHIP 100P 50V NPO +-1%

C545 015-24330-08 CAP CER 0805 CHIP 3N3 10% X7R 50V C546 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V C600 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 C601 018-12820-10 CAP 0603 CHIP 82P 50V NPO +-1%

C602 015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V C603 C604 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 C605 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C606 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C607 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C608 018-12470-10 CAP 0603 CHIP 47P 50V NPO +-1%

C609 C610 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 018-13100-10 CAP 0603 CHIP 100P 50V NPO +-1%

C611 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 C612 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V C613 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V C614 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V C615 C616 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C617 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C618 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C619 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C620 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C621 C622 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C623 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C624 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C625 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 C626 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C627 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

C628 C629 015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V C630 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 C632 C633 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V Var IPN Description 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-11470-10 CAP 0603 CHIP 4P7 50V NPO +-0.1P 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

Ref C634 C635 C636 C637 C638 C639 C640 C641 C642 C643 C644 C645 C646 C647 C648 C650 C651

#C700 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C702 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V

#C703 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V C705 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V

#C730 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 D500 001-10000-70

(S) DIODE SMD BAV70 DUAL SWITCH SOT-23 C 002-10936-60 IC501 002-10340-64 IC504 002-26870-59 IC505 002-10140-21 IC506 002-10140-21 IC507 IC509 002-74905-95

#IC510 002-74901-32 002-74901-32 IC511 002-10078-08 IC513 002-10003-24 IC601 IC602 002-10003-24 002-10003-24 IC603 002-10003-58 IC604 IC614 002-10040-53

(LS) IC SMD ST93C66CM6 4K EEPROM SER MI

(S) IC SMD MC34064 LO VOLT SENSE

(S) IC MC68HC705C9ACFN 8BIT OTP MCU 44

(S) IC MC14021BDR2 8BIT SHIFT REGSTR.SO

(S) IC MC14021BDR2 8BIT SHIFT REGSTR.SO

(S) IC SMD 74HC595 SHIFT REGISTER

(S) IC SMD 74HC132 HCMOS QUAD SCHMT SO

(S) IC SMD 74HC132 HCMOS QUAD SCHMT SO-

(S) IC SMD 78L08 8V REG SO8

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD LM358 DUAL OP AMP

(S) IC 4053 SMD TRIPLE 2CH MULTI-PLEXR L501 056-10330-02

(L) IND SMD 330NH SIEMENS SMID02 P1 P2 240-10000-01 CONN SMD 24WAY (PLUG) 240-10000-01 CONN SMD 24WAY (PLUG) Q501 Q502 Q503 Q504 Q505 Q506 Q507 Q508 Q509 Q510 Q520 Q601 Q602 Q603 Q604 Q605 Q606 Q607 Q608 000-10084-81 000-10084-81 000-10008-69 000-10084-81 000-10085-71 000-10085-71 000-10003-12 000-10085-71 000-10085-71 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10085-71 000-10084-81 000-10084-81 000-10084-81

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC869 PNP 1W 2A SOT-89

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BFR31 N JFET SOT-23

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC857BW PNP SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S

(S) XSTR SMD BC848BW NPN SOT-323 SMALL S Copyright TEL 31/12/97 IPN 220-01377-03 7.10.22 T2010 & T2015 HC05 Logic PCB M2000-00 Var IPN Description 038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

036-16470-00 RES M/F 0805 CHIP 470K 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

Ref R501 R502 R503 R504 R505 R506 R507 RV507 042-15500-01 RES PRESET SMD 50K +-25% 4X4.5X2.5MM 0. R508 R509 R510 R511 R512 R513 R514 R515 R516 R518 R519 R520 R521 R522 R523 R524 R525 R526 R527 R528 R529 R530 R531 R532 R533 R534 R535 R536 R537 R538 R539 R540 R541 R542 R543 R544 R546 R547 R568 R569 R570 R571 R572 R574 R575 R578 R579 R580 R581 R582 R583 R584 R585 R586 R592 R593 R595

#R596 036-15390-00 RES M/F 0805 CHIP 39K 5%

R599 R600 R601 R602 R603 R604 R605 R606 R607 R608 R609 R610 R611 R612 R613 R614 R615 R616 R617 R618 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-15820-00 RES M/F 0805 CHIP 82K 5%

036-14820-00 RES M/F 0805 CHIP 8K2 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

Ref R619 R620 R621 R622 R623 R624 R625 R626 R627 R628 R629 R630 R631 R632 R633 R634 R635 R636 R637 R638 R639 R640 R641 R642 R643 R644 R645 R646 R647 R648 R649 R650 R651 R652 R653 R654 R655 R656 R657 R658 R659 R660 R661 R662 R663 R664 R665 R666 R667 R668 R669 R670 R671 R672 R673 R674 R675 R676 R677 R678 R679 R680 R681 R682 R683 R684 R685 R686 R687 R688 R689 R690 R691 R692 R693 R694 R695 R696 R697 R698 R699 R700 R701 R702 R703 R704 Var IPN Description 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-14120-00 RES M/F 0805 CHIP 1K2 5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

036-16470-00 RES M/F 0805 CHIP 470K 5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

036-14180-00 RES M/F 0805 CHIP 1K8 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-14180-00 RES M/F 0805 CHIP 1K8 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

31/12/97 Copyright TEL T2010 & T2015 HC05 Logic PCB IPN 220-01377-03 7.10.23 Ref Var IPN Description M2000-00 Var IPN Description Ref 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

R705 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

R706 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

R707 R708 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

#R710 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

#R712 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

#R713 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

#R714 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

R720 R721 038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

#R722 036-16330-00 RES M/F 0805 CHIP 330K 5%

#R723 038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

R724 R725 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

R726 R727 038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

#R735 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

#SPEC1038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

S1 S2 S8 S13 S14 S15 SK505 240-04020-42 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH SKT 44 PIN SMD PLCC CHIP CARRIER X501 274-01070-00 XTAL 4.000MHZ HC49U/S C/W TEFLON INSULAT Copyright TEL 31/12/97 IPN 220-01377-03 7.10.24 T2010 & T2015 HC05 Logic PCB M2000-00 T2010 & T2015 HC05 Logic Mechanical & Miscellaneous Parts IPN Description IPN 219-02584-00 220-01377-03 240-00020-12 240-00100-13 240-02010-75 240-04021-63 252-00010-37 252-00010-49 265-00010-60 303-23134-02 303-30062-02 303-30063-02 303-30064-00 303-30065-03 340-00010-23 349-00010-49 349-00020-32 353-00010-32 360-02003-01 362-01028-00 365-00100-09 365-00100-20 365-01376-00 365-01391-01 369-00020-46 399-00010-52 410-01099-01 410-01101-01 Description CABLE ASSEMBLY T2000 PWR CABLE

(L) PCB T2010/15 LOGIC HC05 COMMON PLATFOR PLUG MICROPHONE BT SR937 (PIN 2 MISSING) PLUG COAX BNC CORD MTG CRIMP URM76 SKT RECEPTL SML 172775-1 CONN 2WAY 24AWG (BLACK) INLINE HERMAPHRODITIC MIC AWC DYNAMIC 600E 6WAY M095D TINSEL SHLD'D MIC CLIP (SPRING STEEL CONTACT) FUSE 10A 12V AUTOMOTIVE STAPLE TYPE COVER TOP A1M2504 T2000 PNTD CMPLT CRADLE BODY A3M2551 T2000 BOTTOM CRADLE BODY A3M2552 T2000 TOP CRADLE CLIP A1M2550 T2000 KEY T2000 SII FUSEHLDR INLINE 3M 972 SCREW SELFTAP NO 10X1/2 IN TYPE AB PAN POZI BZ SCREW TAPTITE M3X8MM PAN POZI BZ WASHER M5 SHAKEPROOF EXT BZ GROMMET MIC CORD T2000 SII GASKET A4M2652 130X3MM CONDUCT STRIPS LABEL WHITE VINYL 15X11MM S/A LABEL WHITE S/A 28X11MM QUIKSTIK RW718/4 LABEL A4A724 SOFTWARE

(L)LABEL BLNK 30*10.8MM TAMPERMARK VOID MA TAPE 6 X 6MM FOAM 1 SIDE S/A BAG PLASTIC 100*150MM

(L) PKG CARTON T2000 SERIES II CARTON T700/T2000 SII OUTER (5 UNIT EA) 31/12/97 Copyright TEL M2000-00 T2010 & T2015 HC05 Logic PCB IPN 220-01377-03 7.10.25 T2010 & T1015 HC05 Logic Grid Reference Index (IPN 220-01377-03) Device PCB ALC 2:G1 Circuit 1-V0 BOARD 2:N14 1-T4 C500 C501 C502 C503 C504 C505 C506 C507 C509 C514 C515 C517 C518 C519 C520 C521 C522 C524 C525 C526 C527 C528 C529 C530 C540 C541 C542 C543 C544 C545 C546 C547 C600 C601 C602 C603 C604 C605 C606 C607 C608 C609 C610 C611 C612 C613 C614 C615 C616 C617 C618 C619 C620 C621 C622 C623 C624 C625 C626 C627 C628 1:J3 1:J14 1:J10 1:K21 1:P21 1:J21 1:N21 1:N20 1:L15 1:J12 1:J12 1:M21 1:H9 1:F9 1:J16 1:H21 1:H3 1:B7 1:K3 1:K3 1:K3 1:L12 1:E22 1:E2 1:N19 1:N18 1:H9 1:G9 1:L4 1:L14 1:D6 1:G6 1:F8 1:K4 1:L4 1:K5 1:F10 1:K6 1:J8 1:L3 1:L5 1:L4 1:K5 1:L3 1:L8 1:M5 1:M5 1:P5 1:N4 1:N3 1:M5 1:G15 1:J16 1:K16 1:H15 1:C9 1:B6 1:C6 1:L14 1:E10 1:E8 1-B6 1-C8 1-B3 1-E5 1-H9 1-H8 1-G6 1-H6 1-C7 1-I6 1-J6 1-D8 1-A6 1-B7 1-H5 1-H5 1-B6 1-B8 1-E5 1-E5 1-F5 1-S9 1-S9 1-T9 1-I4 1-I4 1-A6 1-B6 1-B0 1-N0 1-V1 1-S1 1-C1 1-B1 1-B0 1-C1 1-B2 1-B0 1-C2 1-E2 1-D1 1-E1 1-D0 1-E1 1-G1 1-E0 1-E0 1-F0 1-F0 1-G0 1-H0 1-I0 1-J0 1-J0 1-H0 1-L0 1-N1 1-N1 1-O0 1-M0 1-M0 Device PCB 1:L14 C629 1:C5 C630

#C631 1:G6 1:G7 C632 1:E7 C633 1:F5 C634 1:F5 C635 C636 1:E5 1:D4 C637 1:C4 C638 1:G4 C639 1:G3 C640 C641 1:C4 1:C3 C642 1:D3 C643 1:E3 C644 1:C3 C645 C646 1:F5 1:C4 C647 1:L7 C648 1:D10 C650 1:C6 C651

#C700 1:C9 1:D15

#C701 1:F12 C702 1:C9

#C703 1:E2

#C704 C705 1:D15 1:G5

#C730 C501A 1:J13 D500 D500 DISABLE 2:F1 1:C10 1:C10 IC501

#IC503 IC504 IC506 IC507 IC509

#IC510

#IC510

#IC510

#IC510

#IC510 IC511 IC511 IC511 IC511 IC511

#IC512

#IC512

#IC512

#IC512

#IC512 IC513 IC601 IC601 IC601 IC601 IC601 IC602 IC602 IC602 1:H14 1:J12 1:N22 1:D11 1:C14 1:D19 1:E17 1:E17 1:E17 1:E17 1:E17 1:H16 1:H16 1:H16 1:H16 1:H16 1:C17 1:C17 1:C17 1:C17 1:C17 1:G9 1:M4 1:M4 1:M4 1:M4 1:M4 1:K15 1:K15 1:K15 Circuit 1-N0 1-T1 1-S2 1-T2 1-U2 1-U1 1-U2 1-V1 1-U1 1-V0 1-V0 1-U0 1-S0 1-R1 1-Q0 1-Q0 1-B9 1-Q0 1-S0 1-C0 1-L1 1-N1 1-L1 1-P3 1-R1 1-V5 1-P1 1-C6 1-S1 1-C8 1-K3 1-K3 1-U0 1-E8 1-I6 1-H9 1-M4 1-O4 1-L7 1-V6 1-O2 1-W5 1-V6 1-O3 1-V3 1-G5 1-N5 1-I5 1-J4 1-K3 1-L3 1-M2 1-V5 1-L2 1-A7 1-E0 1-T3 1-C0 1-F1 1-G0 1-H0 1-C7 1-K0 Device PCB Circuit IC602 IC602 IC603 IC603 IC603 IC603 IC603 IC604 IC604 IC604 IC614 IC614 IC614 IC614 ID 1:K15 1:K15 1:E4 1:E4 1:E4 1:E4 1:E4 1:K8 1:K8 1:K8 1:E8 1:E8 1:E8 1:E8 2:N14 1-O0 1-T3 1-U3 1-P0 1-V1 1-R0 1-A2 1-H2 1-V3 1-C5 1-J1 1-C1 1-M0 1-N1 1-T4 L501 1:N19 1-I4 P1 P2 1:G10 1:E14 1-U9 1-U8 Q501 Q502 Q503 Q504 Q505 Q506 Q507 Q508 Q509 Q510

#Q518 Q520 Q601 Q602 Q603 Q604 Q605 Q606 Q607 Q608 R501 R502 R503 R504 R505 R506 R507 R508 R509 R510 R511 R512 R513 R514 R515 R516 R518 R519 R520 R521 R522 R523 R524 1:C12 1:K11 1:K10 1:F16 1:C12 1:E16 1:L22 1:E16 1:E16 1:F16 1:C7 1:G18 1:E9 1:D9 1:F6 1:H8 1:F2 1:D7 1:D7 1:G8 1:C12 1:C12 1:K11 1:J10 1:L21 1:L21 1:D12 1:L21 1:K14 1:J13 1:J9 1:J8 1:D10 1:J9 1:J9 1:F16 1:D3 1:D3 1:H15 1:M22 1:M22 1:B6 1:K21 1-C9 1-D9 1-D9 1-D6 1-K4 1-C6 1-D7 1-C6 1-D6 1-E6 1-J4 1-E6 1-J1 1-M1 1-U1 1-W2 1-T0 1-W1 1-W0 1-W2 1-B9 1-C9 1-D9 1-D8 1-D7 1-D7 1-C9 1-D7 1-B7 1-C8 1-B6 1-C6 1-K3 1-C4 1-C5 1-D6 1-B7 1-B7 1-E7 1-D8 1-D8 1-D4 1-E5 Device PCB 1:K21 R525 1:G15 R526 R527 1:L21 1:L21 R528 1:E11 R529 1:M19 R530 1:M21 R531 R532 1:F12 1:G17 R533 1:G16 R534 1:E12 R535 1:C10 R536 R537 1:D12 1:C11 R538 1:E11 R539 1:E11 R540 1:E12 R541 R542 1:J10 1:J10 R543 1:E11 R544 1:C6 R546 1:C11 R547 R568 1:D18 1:H17 R569 1:J16 R570 1:L17 R571 1:K17 R572 R574 1:H3 1:G17 R575 1:G18 R578 1:G17 R579 1:J11 R580 R581 1:G17 1:G16 R582 1:K21 R583 1:F16 R584 1:K10 R585 R586 1:K10 1:F14 R592 1:F14 R593 1:F17 R595 1:K21

#R596 R599 1:L17 1:K8 R600 1:F8 R601 1:P3 R602 1:K5 R603 R604 1:K5 1:K5 R605 1:F9 R606 1:E8 R607 1:L5 R608 R609 1:N4 1:C9 R610 1:M5 R611 1:K8 R612 1:K4 R613 R614 1:L4 1:K8 R615 1:L9 R616 1:L8 R617 1:L9 R618 R619 1:N4 1:M5 R620 R621 1:P2 Circuit 1-G8 1-F8 1-G9 1-H8 1-F8 1-I8 1-G6 1-J7 1-I5 1-I5 1-K4 1-K4 1-K4 1-L5 1-L5 1-L5 1-M5 1-E9 1-D9 1-Q7 1-Q4 1-L5 1-L7 1-G5 1-G5 1-I6 1-I6 1-B6 1-E6 1-F6 1-E6 1-J6 1-E7 1-E7 1-G9 1-E6 1-C8 1-D8 1-H5 1-H4 1-E6 1-G4 1-I6 1-B2 1-B1 1-D0 1-B0 1-B0 1-B0 1-B1 1-D1 1-D0 1-D0 1-F4 1-D1 1-D2 1-D1 1-E1 1-G2 1-G1 1-G2 1-H1 1-E0 1-F0 1-F0 Copyright TEL 31/12/97 IPN 220-01377-03 7.10.26 T2010 & T2015 HC05 Logic PCB Circuit 1-C0 1-G0 1-G0 1-I1 1-H0 1-H0 1-I0 1-I0 1-M0 1-M0 1-J0 1-K0 1-K0 1-J1 1-K1 1-L0 1-L0 1-B4 1-L0 1-N0 1-M1 1-N0 1-N0 1-O1 1-O0 1-O0 1-M2 1-V1 1-V1 1-B9 1-S2 1-T2 1-T2 1-U2 1-T2 1-T1 1-V1 1-T1 1-U2 1-V2 1-W2 1-V2 1-V1 1-U1 1-W0 1-U0 1-U0 1-U0 1-T0 1-T0 1-S0 1-S0 1-S0 1-S0 1-R1 1-R0 1-Q0 1-Q0 1-T1 1-P0 1-Q0 1-Q0 1-G1 1-V0 1-V2 1-A0 1-A0 1-I2 1-J2 Device PCB R622 R623 R624 R625 R626 R627 R628 R629 R630 R631 R632 R633 R634 R635 R636 R637 R638 R639 R640 R641 R642 R643 R644 R645 R646 R647 R648 R649 R650 R651 R652 R653 R654 R655 R656 R657 R658 R659 R660 R661 R662 R663 R664 R665 R666 R667 R668 R669 R670 R671 R672 R673 R674 R675 R676 R677 R678 R679 R680 R681 R682 R683 R684 R685 R686 R687 R688 R689 R690 1:L5 1:N3 1:N3 1:H15 1:P3 1:J16 1:G15 1:G15 1:D8 1:E8 1:K16 1:L15 1:L16 1:E10 1:D8 1:C8 1:C8 1:B5 1:C8 1:K14 1:D8 1:M15 1:J14 1:C5 1:K14 1:K13 1:D10 1:D6 1:D8 1:C3 1:G7 1:F7 1:F7 1:F6 1:F6 1:G6 1:D5 1:F5 1:F6 1:E6 1:G8 1:G8 1:D5 1:D4 1:D8 1:G2 1:D4 1:F2 1:F2 1:F2 1:C5 1:C4 1:C4 1:C3 1:D3 1:D3 1:F4 1:E3 1:D3 1:F3 1:F4 1:F4 1:L9 1:G2 1:H8 1:L6 1:K6 1:F11 1:F10 31/12/97 Device PCB R691 1:C3 1:F8 R692 1:C10 R693 1:N18 R694 1:E18 R695 R696 1:G16 1:C11 R697 1:J15 R698 1:C11 R699 1:C13 R700 R701 1:C13 1:C13 R702 1:D13 R703 1:C14 R704 1:C15 R705 R706 1:C15 1:C15 R707 1:E3 R708 1:D5

#R710 1:D5

#R711

#R712 1:D13 1:C5

#R713 1:B16

#R714 1:B16

#R715 1:E15 R720 R721 1:D16 1:D16

#R722 1:D16

#R723 1:E16 R724 1:E15 R725 R726 1:E15 1:F16 R727 1:J21

#R735 1:G7

#R751 1:L22 RV507

#RV508 1:K22 1:L2 S1 1:B2 S2 1:E20 S3 1:H5 S8 1:B4 S13 1:B10 S14 1:B14 S15 SK505 1:K19

#SPEC1 1:M14

#SPEC2 1:M14

#SPEC3 1:M14

#SPEC4 1:M13

#SPEC5 1:M13

#SPEC6 1:M13

#SPEC7 1:M13

#SPEC8 1:M12

#SPEC9 1:M12

#SPEC10 1:M12 TP601 TP602 TP603 TP604 TP605 TP606 TP607 TP608 TP609 TP610 TP611 TP614 TP615 2:J5 2:K7 2:M9 2:L14 2:F3 2:F1 2:E5 2:B8 2:K21 2:E19 2:F16 1:C11 2:G7 Circuit 1-T1 1-C1 1-F4 1-H5 1-I5 1-I4 1-L4 1-M3 1-G3 1-O8 1-P8 1-P8 1-P8 1-P8 1-Q8 1-Q8 1-Q8 1-P1 1-S1 1-U1 1-L2 1-S1 1-N4 1-N4 1-C6 1-C6 1-C6 1-C6 1-D6 1-D7 1-D7 1-E6 1-G5 1-S2 1-D7 1-G4 1-V9 1-V9 1-U8 1-V8 1-V7 1-V7 1-V6 1-G6 1-T4 1-T4 1-U4 1-U4 1-U4 1-V4 1-V4 1-V4 1-W4 1-W4 1-A3 1-G1 1-I2 1-O0 1-P0 1-T1 1-U2 1-B3 1-G9 1-M8 1-E6 1-I2 1-R4 M2000-00 Device PCB Circuit Device PCB TP616 2:B19 2:B19 TP617 2:D10 TP618 2:B20 TP619 TP620 2:E3 Circuit 1-B4 1-B3 1-L1 1-R1 1-Q1 X501

#X502 1:N21 1:J13 1-G6 1-J6 Copyright TEL M2000-00 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB IPN 220-01344-04 7.11.13 7.11 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB T2000 HC11 Logic Parts List (IPN 220-01344-04) Parts List Amendments Ref

#012

#015

#017

#018

#019 C501 C502 C503 C504 C505 C506 C507 C508 C509 C510 C511 C512 C514 C514A C514B C516 C517 C519 C520 C522 C523 C524 C525 C526 C527 C529 C530 C532 C533 C534 C535 C536 C537 C538 C540 C541 C550 C560 C570 C571 C600 C601 C602 C603 C605 C607 C608 C609 C610 C611 C613 C614 C615 C616 C617 C618 C619 C620 C621 C622 C623 C624 C625 Var 2050 2020 2060 203X 2040 Description IPN 038-13680-00 RES 0603 CHIP 680E 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

015-23680-08 CAP CER 0805 CHIP 680P 10% X7R 50V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-12390-10 CAP 0603 CHIP 39P 50V NPO +-1%

018-12220-10 CAP 0603 CHIP 22P 50V NPO +-1%

018-12270-10 CAP 0603 CHIP 27P 50V NPO +-1%

018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 015-23680-08 CAP CER 0805 CHIP 680P 10% X7R 50V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 016-07470-01 CAP ELECT 6X4MM CHIP 4M7 20% 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 018-12820-10 CAP 0603 CHIP 82P 50V NPO +-1%

015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-12470-10 CAP 0603 CHIP 47P 50V NPO +-1%

014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 018-13100-10 CAP 0603 CHIP 100P 50V NPO +-1%

015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

Ref C626 C627 C628 C629 C630

#C631

#C631

#C631 C635 C635A C636 C637 C638 C639 C640 C641 C642 C643 C644 C645 C646 C647 C648 C650 C651 C652 C653

#C661

#C661

#C661

#C661

#C661

#C662

#C662

#C662

#C662

#C662

#C663

#C663

#C663

#C663

#C663

#C664

#C664

#C664

#C664

#C665

#C665

#C665

#C665

#C666

#C666

#C666

#C666

#C667

#C667

#C667

#C667 C700 C701

#C704

#C704

#C704

#C704

#C704 C705

#C706

#C706 C720 Var 2020 2040 2050 2020 203X 2040 2050 2060 2020 203X 2040 2050 2060 2020 203X 2040 2050 2060 2020 2040 2050 2060 2020 2040 2050 2060 2020 2040 2050 2060 2020 2040 2050 2060 2020 203X 2040 2050 2060 203X 2060 Description IPN 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-11470-10 CAP 0603 CHIP 4P7 50V NPO +-0.1P 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

015-23220-01 CAP CER 0805 CHIP 220P 5% NPO 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-1 014-07470-00 CAP TANT CHIP 4U7 'B' CASE 16V +-1 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-1 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-1 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-1 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V Copyright TEL 31/12/97 IPN 220-01344-04 7.11.14 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB M2000-00 Ref C721 C722 C801 C802 C803 C804 C805 C806 C808

#C810 C811

#C812

#C812

#C812

#C812 C813 C814 C815 C832 D502 D503 D800 Var PE 203X 2040 2050 PE Description IPN 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-11470-10 CAP 0603 CHIP 4P7 50V NPO +-0.1P 015-23180-01 CAP CER 0805 CHIP 180P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-15100-00 CAP 0603 CHIP 10N 50V X7R +-10%

018-13150-00 CAP 0603 CHIP 150P 50V NPO +-5%

018-11560-10 CAP 0603 CHIP 5P6 50V NPO +-0.1P 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V 16V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

001-10099-01 001-10099-01 001-10099-01

(S) DIODE BAV99W DUAL SML SIG SOT323

(S) DIODE BAV99W DUAL SML SIG SOT323

(S) DIODE BAV99W DUAL SML SIG SOT323

#F02 PE 038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

#IC500

#IC500

#IC500

#IC500

#IC500 IC501 IC502

#IC503

#IC503 IC504 IC505 IC510 IC511 IC513 IC514

#IC517

#IC517

#IC517 IC555 IC601 IC603 IC604

#IC606

#IC606

#IC606

#IC606

#IC606 IC614 IC801 IC802 L501 2020 203X 2040 2050 2060 203X 2060 203X 2040 2050 2020 203X 2040 2050 2060 002-10481-80 002-10481-80 002-10481-80 002-10483-50 002-10481-80 002-20290-10 002-74900-00 002-10140-21 002-10140-21 002-10340-64 002-16800-11 002-74900-40 002-74900-40 002-10078-05 002-10078-08 002-20004-39 002-20046-90 002-20046-90 002-16562-60 002-10003-24 002-10003-24 002-10003-24 002-74901-32 002-74901-32 002-74901-32 002-74901-32 002-74901-32 002-10040-53 002-10003-24 002-10003-58 LS) IC SMD M48Z18 8K*8 SNAPHAT RA LS) IC SMD M48Z18 8K*8 SNAPHAT RA LS) IC SMD M48Z18 8K*8 SNAPHAT RA LS) IC SMD M48Z35 32K*8 SNAPHAT R LS) IC SMD M48Z18 8K*8 SNAPHAT RA

(S) IC AM29F010-120JC FLASH MEM 128*8K

(S) IC SMD 74HC00 QUAD 2 I/P NAND

(S) IC MC14021BDR2 8BIT SHIFT REG

(S) IC MC14021BDR2 8BIT SHIFT REG

(S) IC SMD MC34064 LO VOLT SENSE

(S) IC SMD MC68HC11A1 MCU PLCC52

(LSH) IC SMD TC7S04F SINGLE INV GATE S

(LSH) IC SMD TC7S04F SINGLE INV GATE S

(S) IC SMD 78L05 5V REG

(S) IC SMD 78L08 8V REG SO8

(S) IC FX439LS FFSK MODEM 24 PLCC

(S) IC FX469LS FFSK MODEM 1200/24

(S) IC FX469LS FFSK MODEM 1200/24

(LSH) IC CMOS6X GATE ARRAY (T3000/T205

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD 74HC132 HCMOS QUAD SCH

(S) IC SMD 74HC132 HCMOS QUAD SCH

(S) IC SMD 74HC132 HCMOS QUAD SCH

(S) IC SMD 74HC132 HCMOS QUAD SCH

(S) IC SMD 74HC132 HCMOS QUAD SCH

(S) IC 4053 SMD TRIPLE 2CH MULTI-PLEXR

(S) IC SMD 324 QUAD OP AMP SO14

(S) IC SMD LM358 DUAL OP AMP 056-10330-02

(L) IND SMD 330NH SIEMENS SMID02 MPT3-1 290-00010-41 CELL M4Z28 SNAPHAT BATTERY PACK Q501 Q504 Q505 Q506 Q507 Q508 Q509 Q510

#Q511

#Q511

#Q511 Q513 Q514 Q515 Q516 Q517 Q601 Q602 Q604 Q605 Q606 Q607 Q608 Q700 Q800 Q802 Q804 R400 R402 R403 R500 2020 2040 2050 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10008-69 000-10003-12 000-10084-81 000-10029-55 000-10029-55 000-10029-55 000-10084-81 000-10085-71 000-10085-71 000-10085-71 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10085-71 000-10084-81 000-10084-81 000-10084-81 000-10084-81 000-10003-12 000-10084-81 000-10084-81

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC869 PNP 1W 2A SOT-89

(S) XSTR SMD BFR31 N JFET SOT-23

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD MJD2955 PWR PNP 10A 6

(S) XSTR SMD MJD2955 PWR PNP 10A 6

(S) XSTR SMD MJD2955 PWR PNP 10A 6

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC857BW PNP SOT-323 SMALL

(S) XSTR SMD BC857BW PNP SOT-323 SMALL

(S) XSTR SMD BC857BW PNP SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC857BW PNP SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BFR31 N JFET SOT-23

(S) XSTR SMD BC848BW NPN SOT-323 SMALL

(S) XSTR SMD BC848BW NPN SOT-323 SMALL 038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-13470-00 RES 0603 CHIP 470E 1/16W +-5%

Ref R501 R502 R503 R504 R505 R506 R507 RV507 R508 R509 R510 R511 R512 R514 R515 R516

#R517

#R517

#R517

#R517

#R517 R518 R519 R520 R521 R522 R523

#R524

#R524

#R524

#R524

#R524 R525 R525A R526 R529 R530 R531 R532 R533 R534 R535 R537 R538 R539 R540 R541 R543 R544 R545 R547 R548 R549 R550 R551

#R552

#R552

#R552 R553 R554 R556 R559 R560 R562 R563 R564 R565 R566 R566A R567 R568 R569 R570

#R571

#R571

#R571

#R571

#R571

#R571 R572 R573 R578 R580 R581 R582 R583 R584 R589 R590 R591 R592 R594

#R596 Var 2020 203X 2040 2050 2060 2020 203X 2040 2050 2060 2020 2040 2050 2020 203X 2040 2050 2060 PE 2020 Description IPN 038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

042-15500-01 RES PRESET SMD 50K +-25% 4X4.5X2.5MM 0 038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-13330-00 RES 0603 CHIP 330E 1/16W +-5%

038-13330-00 RES 0603 CHIP 330E 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-14390-00 RES M/F 0805 CHIP 3K9 5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-13470-00 RES 0603 CHIP 470E 1/16W +-5%

038-13470-00 RES 0603 CHIP 470E 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-15390-00 RES M/F 0805 CHIP 39K 5%

31/12/97 Copyright TEL M2000-00 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB IPN 220-01344-04 7.11.15 Var 203X 2040 2050 2060 2020 203X 2040 2050 2060 203X 2040 2050 2020 2040 2050 Ref

#R596

#R596

#R596

#R596

#R597

#R597

#R597

#R597

#R597 R598

#RV599

#RV599

#RV599 R600 R602 R603 R604 R605 R606 R607 R608 R609 R610 R611 R613 R614 R615 R616 R617 R619 R620 R621 R622 R623 R624 R625 R626 R627 R628 R629 R630 R631 R632 R633 R634 R635 R636 R637 R638 R639 R640 R641 R642 R643 R644 R645 R646 R647 R648 R649 R650 R651 R652 R653

#R656

#R656

#R656 R658 R659 R660 R662 R663 R664 R665 R666 R667 R668 R669 R670 R671 R672 R673 R674 R675 R676 R677 R678 R679 R680 R681 R682 R683 R684 Description IPN 036-15390-00 RES M/F 0805 CHIP 39K 5%

036-15390-00 RES M/F 0805 CHIP 39K 5%

036-15390-00 RES M/F 0805 CHIP 39K 5%

036-15390-00 RES M/F 0805 CHIP 39K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

042-15500-01 RES PRESET SMD 50K +-25% 4X4.5X2. 042-15500-01 RES PRESET SMD 50K +-25% 4X4.5X2. 042-15500-01 RES PRESET SMD 50K +-25% 4X4.5X2. 038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

036-14820-00 RES M/F 0805 CHIP 8K2 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

036-15270-00 RES M/F 0805 CHIP 27K 5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15270-00 RES 0603 CHIP 27K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

036-16390-00 RES M/F 0805 CHIP 390K 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14680-00 RES 0603 CHIP 6K8 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-13680-00 RES 0603 CHIP 680E 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-16150-00 RES 0603 CHIP 150K 1/16W +-5%

038-13680-00 RES 0603 CHIP 680E 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15220-00 RES 0603 CHIP 22K 1/16W +-5%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

036-16150-00 RES M/F 0805 CHIP 150K 5%

038-17100-00 RES 0603 CHIP 1M 1/16W +-5%

038-16470-00 RES 0603 CHIP 470K 1/16W +-5%

036-14180-00 RES M/F 0805 CHIP 1K8 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-14180-00 RES 0603 CHIP 1K8 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

036-16120-00 RES M/F 0805 CHIP 120K 5%

Var 2020 203X 2040 2050 2060 Ref R685 R686 R687 R688 R689 R690 R691 R692 R699 R700 R701 R702 R704 R705 R706 R709 R710 R711 R712 R715 203X

#R717 2040

#R717

#R717 2050

#R717A 2020

#R717A 2060 R720

#R720

#R720

#R720

#R720

#R720 R721

#R730

#R730

#R730

#R730

#R730

#R731

#R731

#R731

#R731

#R731

#R732

#R732

#R732

#R732

#R732 R801 R802 R803 R804 R805 R806 R807 R808 R809 R810 R811 R812 R845 R846 R847 2020 203X 2040 2050 2060 2020 203X 2040 2050 2060 2020 203X 2040 2050 2060 Description IPN 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-15150-00 RES 0603 CHIP 15K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

036-15220-00 RES M/F 0805 CHIP 22K 5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-13330-00 RES 0603 CHIP 330E 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14100-00 RES 0603 CHIP 1K0 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-15100-00 RES 0603 CHIP 10K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15560-00 RES 0603 CHIP 56K 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

036-16470-00 RES M/F 0805 CHIP 470K 5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-13680-00 RES 0603 CHIP 680E 1/16W +-5%

038-16100-00 RES 0603 CHIP 100K 1/16W +-5%

038-15470-00 RES 0603 CHIP 47K 1/16W +-5%

038-14220-00 RES 0603 CHIP 2K2 1/16W +-5%

038-14470-00 RES 0603 CHIP 4K7 1/16W +-5%

038-13220-00 RES 0603 CHIP 220E 1/16W +-5%

038-12220-00 RES 0603 CHIP 22E 1/16W +-5%

038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +-5%

038-15560-00 RES 0603 CHIP 56K 1/16W +-5%

038-16220-00 RES 0603 CHIP 220K 1/16W +-5%

038-12100-00 RES 0603 CHIP 10E 1/16W +-5%

S1 S2

#S8

#S8

#S9

#S9

#S9

#S13

#S14

#S16

#S17

#S18 SK501 TP610

#T3K44

#T3K44

#T3K44

#T3K44

#T3K45 X501 203X 2060 2020 2040 2050 OPT OPT OPT OPT OPT 2020 203X 2040 2050 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-05 CONN SMD SKT 8WAY 2ROW MICROMATCH 240-10000-05 CONN SMD SKT 8WAY 2ROW MICROMATCH 240-10000-05 CONN SMD SKT 8WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-07 CONN SMD SKT 16WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-10000-06 CONN SMD SKT 12WAY 2ROW MICROMATCH 240-04043-20 SKT 32 PIN SMD PLCC CHIP CARRIER TEST POINT SMD 0805 2.0 X 1.25 X 1.45 005-10000-10 240-10000-01 CONN SMD 24WAY (PLUG) 240-10000-01 CONN SMD 24WAY (PLUG) 240-10000-01 CONN SMD 24WAY (PLUG) 240-10000-01 CONN SMD 24WAY (PLUG) 240-10000-01 CONN SMD 24WAY (PLUG) 274-01072-00 XTAL 8.064MHZ HC-49U/S HOLDER C/W TEFLO Variants: PE = Pre-emphasised FFSK OPT = Options connectors fitted Copyright TEL 31/12/97 IPN 220-01344-04 7.11.16 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB M2000-00 T2000 HC11 Logic Mechanical & Miscellaneous Parts IPN Description IPN 219-02585-00 220-01344-04 240-00020-12 240-00100-13 240-02010-75 252-00010-37 252-00010-49 265-00010-60 303-23134-02 303-30062-02 303-30063-02 303-30064-00 303-30065-03 340-00010-23 349-00010-49 349-00020-32 365-00100-20 353-00010-32 360-02003-01 362-01028-00 365-01376-00 365-01516-00 399-00010-52 410-01099-02 410-01101-01 Description CABLE ASSEMBLY T2000 ENHD PWR/SPKR CABLE

(L) PCB T2000 LOGIC HCII COMMON PLATFORM PLUG MICROPHONE BT SR937 (PIN 2 MISSING) PLUG COAX BNC CORD MTG CRIMP URM76 SKT RECEPTL SML 172775-1 MIC AWC DYNAMIC 600E 6WAY M095D TINSEL SHLD'

MIC CLIP (SPRING STEEL CONTACT) FUSE 10A 12V AUTOMOTIVE STAPLE TYPE COVER TOP A1M2504 T2000 PNTD CMPLT CRADLE BODY A3M2551 T2000 BOTTOM CRADLE BODY A3M2552 T2000 TOP CRADLE CLIP A1M2550 T2000 KEY CRADLE T2000 SII (BLANK) FUSEHLDR INLINE 3M 972 SCREW SELFTAP NO 10X1/2 IN TYPE AB PAN POZI SCREW TAPTITE M3X8MM PAN POZI BZ LABEL WHITE S/A 28X11MM QUIKSTIK RW718/4 WASHER M5 SHAKEPROOF EXT BZ GROMMET MIC CORD T2000 SII GASKET A4M2652 130X3MM CONDUCT STRIPS T2000 ADD GASKET TO REAR OF TOP COVER LABEL A4A724 SOFTWARE WARNING GUIDE LABEL T2000 MODEL ID/TYPE APPROVAL BAG PLASTIC 100*150MM

(L) PKG CARTON T2000 SERIES II CARTON T700/T2000 SII OUTER (5 UNIT EA) T2020 VARIANT PARTS 005-00000-40 MODULE RMT 5W 4OHM SPKR IN ENCLSR T2000 PACF T2040 VARIANT PARTS 005-00000-40 MODULE RMT 5W 4OHM SPKR IN ENCLSR T2000 PACF T2050 VARIANT PARTS 005-00000-40 MODULE RMT 5W 4OHM SPKR IN ENCLSR T2000 PACF 31/12/97 Copyright TEL M2000-00 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB IPN 220-01344-04 7.11.17 T2000 HC11 Logic Grid Reference Index (IPN 220-01344-04) Device PCB 1:G8

#012 1:G8

#014

#015 1:G8 1:H8

#016 1:H8

#017 1:H8

#018

#019 1:H8 Circuit 1-T1 1-T1 1-T1 1-T1 1-U1 1-U1 1-U1 A15ROM 2:E12 A16ROM 2:E12 ALC 2:G5 2-F5 2-F5 1-V1 BOARD 2:H8 1-S1 C501 C502 C503 C504 C505 C506 C507 C508 C509 C510 C511 C512 C514 C516 C517 C519 C520 C522 C523 C524 C525 C526 C527 C529 C530 C532 C533 C534 C535 C536 C537 C538 C540 C541 C550 C560 C570 C571 C600 C601 C602 C603 C605 C607 C608 C609 C610 C611 C613 C614 C615 C616 C617 C618 C619 C620 C621 C622 C623 1:F9 1:G10 1:J14 1:H13 1:H15 1:H15 1:H15 1:J15 1:F9 1:B4 1:E11 1:E9 1:H4 1:B15 1:F8 1:H13 1:E11 1:F3 1:E8 1:B3 1:G4 1:H4 1:G3 1:G9 1:C3 1:G4 1:E11 1:D10 1:E10 1:E8 1:B6 1:B15 1:D6 1:D6 1:E15 1:E15 1:D11 1:D11 1:G4 1:J2 1:C3 1:C4 1:C4 1:D5 1:D6 1:D5 1:C3 1:D5 1:C3 1:C3 1:D3 1:E3 1:D3 1:D3 1:E4 1:E4 1:E3 1:E3 1:B4 2-C5 2-L8 2-T9 2-Q8 2-R5 2-Q5 2-Q5 2-P5 2-D5 2-L0 2-U4 2-D3 2-B9 2-U2 2-E6 2-P8 2-P3 2-B4 2-C4 2-B6 2-B3 2-B3 2-E3 1-V6 1-V6 2-V8 2-U2 2-S3 2-S1 2-R1 2-S0 2-T1 1-D7 1-E7 2-O6 2-C0 2-J6 2-I6 2-T7 1-C8 1-B2 1-C3 1-A2 1-D6 1-D6 1-D6 1-D3 1-E6 1-E3 1-E3 1-F3 1-F3 1-H3 1-H3 1-I3 1-J3 1-J3 1-H3 1-L3 Device PCB 1:B7 C624 1:B6 C625 C626 1:C7 1:B7 C627 1:B4 C628 1:C6 C629 1:H7 C630 1:F5

#C631

#C632 1:F7 1:G3 C635 1:J6 C636 1:H6 C637 1:H5 C638 C639 1:G6 1:J4 C640 1:G5 C641 1:G6 C642 1:G7 C643 1:G7 C644 C645 1:B3 1:H7 C646 1:H6 C647 1:D2 C648 1:B7 C650 C651 1:B6 1:F5 C652 1:F5 C653 1:B5

#C660 1:B5

#C661 1:C8

#C662

#C663 1:F12 1:C3

#C664 1:H6

#C665 1:F10

#C666 1:D7

#C667 C700 1:F6 1:E6 C701 1:F6

#C703 1:F6

#C704 1:G5 C705 1:G5

#C706 C720 1:D12 1:B13 C721 1:D15 C722 1:C5 C801 1:C5 C802 C803 1:C5 1:C5 C804 1:C5 C805 1:C6 C806 1:C6 C808 1:D10

#C810 C811 1:F9 1:D10

#C812 1:D10 C813 1:C6 C814 1:E6 C815 1:D5 C831 C832 1:F10 1:H4 C514A 1:H4 C514B C635A 1:F3 1:E3 D502 1:E3 D502 1:B7 D503 1:B7 D503 1:C6 D800 D800 1:C6 DISABLE 2:G5

#F01

#F02 1:H8 1:J8 Circuit 1-N5 1-O5 1-O4 1-N3 1-M2 1-N2 1-U4 1-V5 1-P4 2-A8 1-V4 1-V3 1-V3 1-V2 1-U2 1-S3 1-R3 1-Q3 1-Q3 2-B7 1-Q2 1-S3 1-E2 1-L4 1-N4 2-U6 2-V6 1-I5 1-J5 1-T6 1-T9 1-Q9 1-R9 1-S9 1-S9 1-Q7 1-R7 1-Q7 1-Q6 1-R6 1-S7 2-G8 2-F2 2-B0 1-G6 1-G6 1-G6 1-H6 1-G6 1-K6 1-L7 2-S2 2-S2 2-S2 2-S1 1-S8 1-C6 1-E6 2-C5 2-A9 2-B9 2-A8 2-U7 2-U7 2-N1 2-M0 1-K7 1-K6 1-V2 1-V1 1-V1 Device PCB Circuit Device PCB Circuit

#F03 1:J8 FACTORY 2:J14 FIDA 1:D11 1:B12 FIDB

#IC500 IC502 IC502 IC502 IC502 IC502

#IC503 IC504 IC505 IC510 IC510 IC511 IC511 IC513 IC514

#IC517 IC555 IC601 IC601 IC601 IC601 IC601 IC603 IC603 IC603 IC603 IC603 IC604 IC604 IC604 IC604 IC604

#IC605

#IC605

#IC605

#IC605

#IC605

#IC606

#IC606

#IC606

#IC606

#IC606 IC614 IC614 IC614 IC614 IC801 IC801 IC801 IC801 IC801 IC802 IC802 IC802 ID 1:C14 1:D15 1:D15 1:D15 1:D15 1:D15 1:G15 1:H14 1:G14 1:G5 1:G5 1:E15 1:E15 1:H3 1:H3 1:E9 1:C12 1:D3 1:D3 1:D3 1:D3 1:D3 1:H6 1:H6 1:H6 1:H6 1:H6 1:F9 1:F9 1:F9 1:F9 1:F9 1:F11 1:F11 1:F11 1:F11 1:F11 1:F11 1:F11 1:F11 1:F11 1:F11 1:D4 1:D4 1:D4 1:D4 1:D5 1:D5 1:D5 1:D5 1:D5 1:C7 1:C7 1:C7 2:H8 1-V1 2-S7 1-H1 1-H1 2-F1 2-B0 2-M6 2-R5 2-T5 2-S5 2-N5 2-S9 2-Q5 2-V5 2-U3 2-A0 2-S5 2-A8 2-A9 2-Q1 2-I2 1-E3 1-Q9 1-C2 1-H2 1-G2 1-V3 1-V8 1-R3 1-Q2 1-Q9 2-C5 1-V7 2-S2 1-R9 2-E3 1-I8 1-T9 1-H8 1-H8 1-G8 1-J7 1-I8 1-U9 1-V9 1-V9 1-H7 1-T7 1-M3 1-J3 1-L6 1-F6 1-J6 1-H7 1-S8 1-S9 1-O3 1-K2 1-S1 L501 1:E6 1-D8 MANUAL 2:H11 2:E13 MODE 2-S8 2-O8 ONLY 2:J13 2-S7 P1 PAD1 PAD2 PAD3 PAD6 1:F11 2:D9 2:E4 2:H5 2:B7 2-U0 2-F4 2-V9 2-C2 2-O4 Q501 Q504 Q505 Q506 Q507 Q508 Q509 Q510

#Q511 Q513 Q514 Q515 Q516 Q517 Q601 Q602 Q604 Q605 Q606 Q607 Q608 Q700 Q800 Q802 Q804 R400 R402 R403 R500 R501 R502 R503 R504 R505 R506 R507 R508 R509 R510 R511 R512 R514 R515 R516

#R517 R518 R519 R520 R521 R522 R523

#R524 R525 R526 R529 R530 R531 R532 R533 R534 R535 R537 R538 R539 R540 R541 R543 R544 R545 R547 R548 1:H13 1:J15 1:C9 1:E3 1:B10 1:B10 1:F8 1:A6 1:G4 1:D10 1:F8 1:E8 1:D8 1:D8 1:F7 1:B7 1:C8 1:H5 1:J7 1:G7 1:C8 1:G5 1:E5 1:D4 1:E5 1:D8 1:E8 1:D8 1:G4 1:H12 1:H13 1:F8 1:E9 1:F9 1:F9 1:E12 1:F9 1:F8 1:F9 1:F8 1:E9 1:E9 1:E9 1:D9 1:E8 1:F8 1:D9 1:E9 1:G9 1:G9 1:F8 1:E8 1:J14 1:J14 1:F8 1:H14 1:H14 1:F15 1:F15 1:G15 1:H13 1:B6 1:A6 1:H15 1:H14 1:J15 1:E3 1:E3 1:E3 1:C8 1:C8 2-C7 2-Q5 2-K3 2-T8 2-Q4 2-R4 2-D6 2-L3 2-V9 2-T2 2-C4 2-C4 2-D4 2-D4 1-J4 1-M4 1-W5 1-T3 1-W4 1-W3 1-W5 1-S6 1-C6 1-I6 1-F5 2-D4 2-D4 2-D4 2-T7 2-B7 2-C7 2-C4 2-E0 2-E5 2-E5 2-F8 2-D5 2-B6 2-C5 2-D3 2-D3 2-D2 2-E2 2-E3 2-C4 2-B6 2-E5 2-E2 2-D6 2-D6 2-B5 2-C4 2-T9 2-S9 2-C3 2-Q8 2-R8 2-R8 2-R8 2-R8 2-P8 2-L3 2-L3 2-Q5 2-Q5 2-P5 2-T9 2-U7 2-U8 2-K3 2-K0 Copyright TEL 31/12/97 IPN 220-01344-04 7.11.18 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB M2000-00 Device PCB R642 1:B7 1:C6 R643 1:B6 R644 1:B6 R645 1:C7 R646 R647 1:C7 1:B7 R648 1:J7 R649 1:G7 R650 1:B3 R651 1:B3 R652 R653 1:F5 1:F5

#R656 1:J7 R658 1:F5 R659 1:J7 R660 1:J8 R662 R663 1:C8 1:J7 R664 1:H6 R665 1:H5 R666 1:H5 R667 R668 1:H5 1:H5 R669 1:H5 R670 1:H5 R671 1:H6 R672 1:H5 R673 R674 1:G5 1:H6 R675 1:G6 R676 1:G7 R677 1:H7 R678 R679 1:G7 1:H5 R680 1:G7 R681 1:H7 R682 1:H7 R683 1:C5 R684 R685 1:H5 1:C8 R686 1:C4 R687 1:C4 R688 1:D6 R689 R690 1:D6 1:H8 R691 1:C4 R692 1:F15 R699 1:F6

#R700 1:G15 R700 R701 1:F6 1:F6 R702 1:F6 R704 1:F5 R705 1:G6 R706 R709 1:F6 1:F6 R710 1:G6 R711 1:F5 R712 1:D12

#R713 1:D12 R714 R715 1:D12 1:D12 R716 1:E12

#R717 1:G7

#R720 1:E5 R720 1:C6 R721

#R730 1:B5 1:B5

#R731 1:H7

#R732 1:H7

#R733 1:D4 R801 R802 1:D4 1:C6 R803 1:C6 R804 R805 1:D6 Circuit 1-M4 1-N2 1-N3 1-O5 1-O3 1-O2 1-M5 1-V4 1-W3 2-C7 2-W6 2-V6 2-U6 1-U4 2-U6 1-V5 1-W4 1-V5 1-V4 1-U3 1-W2 1-U2 1-U3 1-U2 1-T3 1-T2 1-T3 1-S3 1-S3 1-S2 1-R3 1-R3 1-Q2 1-Q3 1-U3 1-P2 1-Q2 1-Q2 1-G6 1-U2 1-V5 1-A3 1-A2 1-C8 1-D8 1-T4 1-C6 2-N5 1-Q7 2-O5 1-Q7 1-R7 1-R7 1-S7 1-Q7 1-Q6 1-Q6 1-R6 1-R7 2-E7 2-G6 2-G6 2-E7 2-G6 1-P4 1-F6 1-J7 1-L5 1-S5 1-T5 1-T6 1-I7 1-I6 1-J6 1-J6 1-K6 Device PCB R806 1:D6 1:D6 R807 1:D6 R808 1:D6 R809 1:C6 R810 R811 1:D6 1:B4 R812 1:E5 R845 1:C10 R846 1:B10 R847 1:J14 R525A R566A 1:D10

#R717A 1:E12 2:H12 RESET 1:B15 RV507 1:A15

#RV508

#RV599 1:B15 Circuit 1-K7 1-K6 1-L7 1-M6 1-M7 1-S8 2-L0 1-F5 2-Q4 2-Q3 2-T9 2-R3 2-F6 2-S8 2-D5 2-U1 2-T1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S1 S2 S2 S2 S2 S2 S2 S2 S2 S2 S2 S2 S2

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S8

#S9

#S9

#S9

#S9

#S9

#S9

#S9

#S9

#S13

#S13

#S13

#S13

#S13

#S13 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:G2 1:B2 1:B2 1:B2 1:B2 1:B2 1:B2 1:B2 1:B2 1:B2 1:B2 1:B2 1:B2 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:E5 1:F4 1:F4 1:F4 1:F4 1:F4 1:F4 1:F4 1:F4 1:A4 1:A4 1:A4 1:A4 1:A4 1:A4 2-A1 2-A3 2-A2 2-A2 2-A2 2-A2 2-A2 2-A2 2-A1 2-A4 2-A4 2-A3 2-A3 2-A3 2-A3 2-A3 2-A5 2-A7 2-A7 2-A7 2-A7 2-A7 2-A7 2-A6 2-A6 2-A6 2-A6 2-A6 2-V5 2-V5 2-V5 2-V5 2-V5 2-V5 2-V6 2-V4 2-V4 2-V4 2-V4 2-V4 2-V4 2-V5 2-V6 2-V5 2-V7 2-V7 2-V7 2-V7 2-V7 2-V7 2-V7 2-V6 2-K0 2-I0 2-K0 2-I0 2-I0 2-I0 Circuit 2-K3 2-K3 2-O5 2-N6 2-P8 2-F4 2-P8 2-W8 2-W8 2-T3 2-T2 2-T2 2-T3 2-R3 2-S2 2-S2 2-S2 2-M8 2-S1 2-C7 2-T1 2-Q3 2-P1 2-Q4 2-R4 2-R4 2-R4 2-S0 2-U1 2-J0 2-R3 2-S3 2-Q1 2-U2 2-U1 2-U1 2-T1 1-L7 1-D2 1-A3 1-B3 1-B3 1-C6 1-D6 1-D3 1-D2 2-A5 1-E3 1-D6 1-E6 1-F6 1-G6 1-G6 1-F2 1-E2 1-F2 1-C2 1-G3 1-G2 1-I3 1-H2 1-H2 1-I2 1-J2 1-M2 1-M2 1-J2 1-K2 1-K3 1-J5 1-K4 1-L2 1-L3 2-B2 1-L2 1-N3 Device PCB R549 1:C8 1:C9 R550 1:E11 R551 1:F15

#R552 1:F15 R553 R554 1:D8 1:H13 R556 1:G4 R559 1:G4 R560 1:E10 R562 1:E11 R563 R564 1:E10 1:D10 R565 1:E10 R566 1:D10 R567 1:G10 R568 1:G10 R569 R570 1:E13 1:E10

#R571 1:H13 R572 1:E10 R573 1:B10 R578

#R579 1:E10 1:B10 R580 1:B10 R581 1:B10 R582 1:B10 R583 1:B8 R584 R589 1:B15 1:B4 R590 1:C9 R591 1:B9 R592 1:E10

#R593 R594 1:B15 1:A15

#R596 1:B15

#R597 1:B15 R598 1:C6 R600 1:E2 R602 R603 1:C4 1:C4 R604 1:C3 R605 1:E6 R606 1:E6 R607 R608 1:C3 1:D3 R609 1:F3 R610 1:C3 R611 1:D5 R613 1:D5 R614 R615 1:C5 1:C5 R616 1:C5 R617 1:D2 R619 1:C3 R620 R621 1:E3 1:C4 R622 1:D3 R623 1:D3 R624 1:D4 R625 1:D3 R626 R627 1:E3 1:D4 R628 1:E4 R629 1:B4 R630 1:B4 R631 1:C6 R632 R633 1:D6 1:D6 R634 1:E7 R635 1:F7 R636 1:B3 R637 R638 1:B3 1:B4 R639 1:B4 R640 R641 1:C7 31/12/97 Device PCB

#S13 1:A4 1:A4

#S13 1:A4

#S13 1:A4

#S13 1:A4

#S13

#S13 1:A4 1:A7 S14 1:A7

#S14 1:A7

#S14 1:A7

#S14 1:A7

#S14

#S14 1:A7 1:A7

#S14 1:A7

#S14 1:A7

#S14 1:A7

#S14 1:A7

#S14

#S14 1:A7 1:A7

#S14 1:A7

#S14 1:A7

#S14 1:A7

#S14

#S16 1:A10 1:A10

#S16 1:A10

#S16 1:A10

#S16 1:A10

#S16 1:A10

#S16

#S16 1:A10 1:A10

#S16 1:A10

#S16 1:A10

#S16 1:A10

#S16

#S16 1:A10 1:A12

#S17 1:A12

#S17 1:A12

#S17 1:A12

#S17 1:A12

#S17

#S17 1:A12 1:A12

#S17 1:A12

#S17 1:A12

#S17 1:A12

#S17

#S17 1:A12 1:A12

#S17 1:A14

#S18 1:A14

#S18 1:A14

#S18 1:A14

#S18

#S18 1:A14 1:A14

#S18 1:A14

#S18 1:A14

#S18 1:A14

#S18

#S18 1:A14 1:A14

#S18 1:A14

#S18 SK501 1:D14

#T3K44

#T3K45 TEST TP602 TP606 TP607 TP608 TP609 TP610 1:D7 1:B9 2:E13 2:E4 2:E12 2:E12 2:E12 1:D12 1:A9 Circuit 2-J0 2-J0 2-J0 2-J0 2-K0 2-K0 2-N0 2-N0 2-O0 2-O0 2-O0 2-O0 2-P0 2-P0 2-L0 2-M0 2-M0 2-M0 2-M0 2-N0 2-N0 2-L0 2-J9 2-H9 2-I9 2-I9 2-I9 2-I9 2-I9 2-H9 2-C9 2-J9 2-C9 2-C9 2-F9 2-H9 2-F9 2-G9 2-G9 2-G9 2-G9 2-G9 2-H9 2-F9 2-F9 2-H9 2-D9 2-D9 2-D9 2-C9 2-E9 2-E9 2-E9 2-E9 2-E9 2-D9 2-D9 2-F9 2-F6 2-V0 1-A1 2-O8 1-F6 2-K3 2-K3 2-K3 2-K3 2-Q0 X501 1:H15 2-Q6 Copyright TEL M2000-00 T2010 & T2030 Control Head PCB IPN 220-01319-01 7.12.1 7.12 T2010 & T2030 Control Head PCB T2010 & T2030 Control Head Parts List (IPN 220-01319-01) Ref R587 R588 R589 R590 R591 R594 S10 TX Var IPN Description 036-12100-00 RES M/F 0805 CHIP 10E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-13150-00 RES M/F 0805 CHIP 150E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

240-04021-61 SKT TELEPHONE JACK 6-WAY SIDE ENTY 555163 008-00010-21

(S) LED 2MM RED TOWER 3.8MM BASE ROHM S-

Ref BUSY C510 C511 C512 C513 C514 C515 C516 C517 C518 C531 C570 DCALL DAUX DSCAN DMON D-C1 D-C2 D-C3 D-C4 D502 D520 D521 D522 IC507 IC508 IC514 IC515 P8 P11 PT501 Q506 Q550 R517 R544 R545 R548 R549 R550 R551 R552 R553 R554 R555 R556 R557 R558 R559 R560 R561 R562 R563 R564 R565 R566 R567 R573 R574 R575 R576 R577 Var IPN Description 008-00010-25

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 001-10000-99 008-00010-15 008-00010-15 008-00010-15

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE INL

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.0

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.0

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.0 002-10140-21 002-74905-95 002-74905-95 002-74900-04

(S) IC MC14021BDR2 8BIT SHIFT REGSTR.SO

(S) IC SMD 74HC595 SHIFT REGISTER

(S) IC SMD 74HC595 SHIFT REGISTER

(S) IC SMD 74HC04D HEX INVERTER BUFFD 240-00026-24 CONN PADLE BRD 16 WAY MICRO MATCH 1-2155 240-00020-87 HEADER 2X5 WAY RGT ANGLE PCB MTG MOLEX 040-05100-20 SWITCH ROT 10K LOG POT 3A 16VDC SPST PC 000-10008-48 000-10008-48

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A 036-10000-00 RES M/F 0805 CHIP ZERO OHM 036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

Copyright TEL 31/12/97 IPN 220-01319-01 7.12.2 T2010 & T2030 Control Head PCB M2000-00 T2010 & T2030 Control Head Mechanical & Miscellaneous Parts IPN Description IPN 220-01319-01 240-00020-54 240-04020-72 240-04020-99 250-00010-19 301-00001-05 304-07035-00 304-07037-00 311-01042-01 349-00010-22 349-00010-24 357-00010-03 365-00100-20 429-20000-05 Description PCB T2010/30 DISPLAY BRD PLUG 16 WAY 2X8 FLAT CABLE TERMN MICROMATCH SKT HOUSING 2 WAY CORD MTG ULTREX SKT RECEPTACLE SML WIRE CRIMP FOR ULTREX HOUS SPKR A3M2520 C/W RUBBER SEALING RING ADAPTOR FRT PNL T2000 SII LIGHT SPREADER A2M2531 BUTTONS T2000 FM1/TR1 LIGHT SPREADER A4M2533 KNOB T2000 FM1/TR1 KNOB A3M2530 T2000 S11 SCREW NO 4X3/8 PAN POZI PLASTITE SCREW #4X5/8 PLASTITE PAN POZI FIX PUSH ON SFO 2938 LABEL WHITE S/A 28X11MM QUIKSTIK RW718/4 T2000 SERIES II INSTALLATION GUIDE T2010 VARIANT PARTS 201-00030-10 205-00010-12 311-03074-01 316-06428-01 349-00020-30 400-00020-07 459-20100-02 WIRE #1 T/C WIRE 7/0.2MM PVC BLACK CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY KEYPAD T2010 SII INTERNATIONAL PNL FRT SCRN T2010 SII SCREW TAPTITE M3X6MM PAN POZI BZ SLEEVING 2MM SIL RUBBER T2010/T2015 SERIES II USERS GUIDE T2010 EMC VARIANT PARTS 205-00010-16 240-00010-91 311-03074-01 316-06428-01 369-00020-30 459-20100-02 X2EF03 CABLE FLAT RBBN 25 CORE 28 AWG GREY CONN MALE ON WIRE 18WAY MICROMATCH KEYPAD T2010 SII INTERNATIONAL PNL FRT SCRN T2010 SII TAPE VINYLFOAM 2 SIDE S/A 24*1.5MM INSEAL 516 T2010/T2015 SERIES II USERS GUIDE EMC FILTER PCB ASSEMBLY T201X T2030 T2030 VARIANT PARTS 201-00030-10 205-00010-12 240-00026-24 311-03077-01 316-06429-01 349-00020-30 400-00020-07 459-20300-02 WIRE #1 T/C WIRE 7/0.2MM PVC BLACK CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY CONN PADLE BRD 16 WAY MICRO MATCH 1-215570-6 KEYPAD T2030 SII INTERNATIONAL PNL FRT SCRN T2030 SII SCREW TAPTITE M3X6MM PAN POZI BZ SLEEVING 2MM SIL RUBBER T2030/T2035 SERIES II USERS GUIDE T2030 EMC VARIANT PARTS 205-00010-16 240-00010-91 240-00026-24 311-03077-01 316-06429-01 356-00010-01 369-00020-30 400-00020-07 459-20300-02 X2EF03 CABLE FLAT RBBN 25 CORE 28 AWG GREY CONN MALE ON WIRE 18WAY MICROMATCH CONN PADLE BRD 16 WAY MICRO MATCH 1-215570-6 KEYPAD T2030 SII INTERNATIONAL PNL FRT SCRN T2030 SII TAG SOLDER 3MM SHORT M6132/3.2 TAPE VINYLFOAM 2 SIDE S/A 24*1.5MM INSEAL 516 SLEEVING 2MM SIL RUBBER T2030/T2035 SERIES II USERS GUIDE EMC FILTER PCB ASSEMBLY T201X T2030 31/12/97 Copyright TEL M2000-00 T2015 & T2060 Control Head PCB IPN 220-01320-01 7.13.1 7.13 T2015 & T2060 Control Head PCB T2015 & T2060 Control Head Parts List (IPN 220-01320-01) Ref BUSY C510 C511 C512 C513 C516 C517 C518 C519 C520 C531 C542 C543 C570 C580 DSCAN DAUX DCALL DMON D502 D520 D521 D522 IC507 IC508 IC510 IC512 IC514 IC515 P8A P11 PT501 Q506 Q508 Q509 Q550 R500 R517 R544 R545 R552 R553 R554 R555 R556 R557 R558 R559 R560 R561 R562 R563 R564 R565 R566 R567 R573 R576 R577 R587 R588 Var IPN Description Ref Var IPN Description R589 R590 R591 R594 R596A R596B R596C R596D R596E R596F R596G R597A R597B R597C R597D R597E R597F R597G R598 R599 S8B S10 TX TENS 036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-13150-00 RES M/F 0805 CHIP 150E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-13680-00 RES M/F 0805 CHIP 680E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

240-04020-50 240-04021-61 SKT 8WAY 2ROW(2X4) PCB MTG MICROMATCH SKT TELEPHONE JACK 6-WAY SIDE ENTY 555163 008-00010-21 008-00020-29

(S) LED 2MM RED TOWER 3.8MM BASE ROHM SL

(S) LED DISPLAY GREEN 7 SEG SINGLE HDSP-

UNITS 008-00020-29

(S) LED DISPLAY GREEN 7 SEG SINGLE HDSP 008-00010-25

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24330-08 CAP CER 0805 CHIP 3N3 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 008-00010-25 008-00010-25 008-00010-25 008-00010-25 001-10000-99 008-00010-15 008-00010-15 008-00010-15 002-10140-21 002-74905-95 002-10045-43 002-10045-43 002-74905-95 002-74900-04

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE INL

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.0

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.0

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.0

(S) IC MC14021BDR2 8BIT SHIFT REGSTR.SO

(S) IC SMD 74HC595 SHIFT REGISTER

(S) IC SMD 4543 BCD 7SEG DECODE/DRIVER

(S) IC SMD 4543 BCD 7SEG DECODE/DRIVER

(S) IC SMD 74HC595 SHIFT REGISTER

(S) IC SMD 74HC04D HEX INVERTER BUFFD 240-00026-23 CONN PADLE BD 8 WAY MICRO MATCH 0-215570-

240-00020-87 HEADER 2X5 WAY RGT ANGLE PCB MTG MOLEX 040-05100-20 SWITCH ROT 10K LOG POT 3A 16VDC SPST PC 000-10008-48 000-10008-57 000-10008-48 000-10008-48

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A 036-14100-00 RES M/F 0805 CHIP 1K 5%

036-10000-00 RES M/F 0805 CHIP ZERO OHM 036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

Copyright TEL 31/12/97 IPN 220-01320-01 7.13.2 T2015 & T2060 Control Head PCB M2000-00 T2015 & T2060 Control Head Mechanical & Miscellaneous Parts IPN Description IPN 220-01320-01 240-00020-54 240-00020-56 240-04020-72 240-04020-99 250-00010-19 304-07035-00 304-07037-00 311-01042-01 312-01049-01 316-06489-01 349-00010-22 349-00010-24 356-00010-01 357-00010-03 365-00100-20 400-00020-07 429-20000-05 Description PCB T2015 DISPLAY BRD PLUG 16 WAY 2X8 FLAT CABLE TERMN MICROMATCH PLUG 8WAY 2ROW(2X4) CORD MTG IDC MICROMATCH SKT HOUSING 2 WAY CORD MTG ULTREX SKT RECEPTACLE SML WIRE CRIMP FOR ULTREX HOUS SPKR A3M2520 C/W RUBBER SEALING RING LIGHT SPREADER A2M2531 BUTTONS T2000 FM1/TR1 LIGHT SPREADER A4M2533 KNOB T2000 FM1/TR1 KNOB A3M2530 T2000 S11 LENS T2015/60 SII GREEN MC DISPLAY PNL FRT SCRN T2015 SII SCREW NO 4X3/8 PAN POZI PLASTITE SCREW #4X5/8 PLASTITE PAN POZI TAG SOLDER 3MM SHORT M6132/3.2 FIX PUSH ON SFO 2938 LABEL WHITE S/A 28X11MM QUIKSTIK RW718/4 SLEEVING 2MM SIL RUBBER T2000 SERIES II INSTALLATION GUIDE T2015 VARIANT PARTS 201-00030-10 205-00010-12 301-00001-05 311-03075-01 349-00020-30 459-20100-02 WIRE #1 T/C WIRE 7/0.2MM PVC BLACK CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY ADAPTOR FRT PNL T2000 SII KEYPAD T2015 SII INTERNATIONAL SCREW TAPTITE M3X6MM PAN POZI BZ T2010/T2015 SERIES II USERS GUIDE T2015 EMC VARIANT PARTS 205-00010-16 240-00010-91 301-00001-03 311-03075-01 459-20100-02 X2EFO3 CABLE FLAT RBBN 25 CORE 28 AWG GREY CONN MALE ON WIRE 18WAY MICROMATCH ADAPTOR FRT PNL T2000 SII KEYPAD T2015 SII INTERNATIONAL T2010/T2015 SERIES II USERS GUIDE EMC FILTER PCB ASSEMBLY T201X T2030 T2060 VARIANT PARTS 201-00030-10 205-00010-12 301-00001-03 311-03089-01 459-20600-02 WIRE #1 T/C WIRE 7/0.2MM PVC BLACK CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY ADAPTOR FRT PNL T2000 SII KEYPAD T2060 SII LTR INTERNATIONAL T2060 SERIES II USERS GUIDE 31/12/97 Copyright TEL M2000-00 T2020, T2040 & T2050 Control Head PCB IPN 220-01321-04 7.14.1 7.14 T2020, T2040 & T2050 Control Head PCB T2020, T2040 & T2050 Control Head Parts List (IPN 220-01321-04) Ref B701 B702 B703 B704 B705 C102 C103 C531 C700 C701 C702 C703 C704 C705 C706 C707 C708 C710 C711 C712 C713 C714 C715 C716 C717

*C720 C720 C721 C722 C723 C725 C726 C727 C728 C729 C730 C731 C732 C733 C734 D1 D2 D3 D4 D5 D6 D7 D8 D701 D703 D710 D711 D712 D713 D714 IC701 IC702 IC703 IC704 IC705 IC706 LCD Var IPN Description 260-00010-11 260-00010-11 260-00010-11 260-00010-11 260-00010-11 LAMP 5V 60MA T-1 3MM OD 0.63LM US REF 68 LAMP 5V 60MA T-1 3MM OD 0.63LM US REF 68 LAMP 5V 60MA T-1 3MM OD 0.63LM US REF 68 LAMP 5V 60MA T-1 3MM OD 0.63LM US REF 68 LAMP 5V 60MA T-1 3MM OD 0.63LM US REF 68 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 267 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-22220-01 CAP CER 0805 CHIP 22P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 016-08100-01 CAP ELECT 6X4MM CHIP 10M 20% 16V 016-08100-01 CAP ELECT 6X4MM CHIP 10M 20% 16V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 014-07470-01 CAP TANT CHIP 4U7 'B' CASE 25V +-10% 26 016-08470-01 CAP ELECT SMD 6X4MM 47M 16V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 008-00010-25 001-10000-99 001-10000-99 001-10084-33 001-10084-33 001-10084-33 001-10084-47 001-10084-47 002-20068-05 002-10085-76 002-74900-04 002-74900-04 002-10078-05 002-10340-64

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE INL

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE INL

(S) DIODE ZENER SMD BZX84C3V3 SOT23

(S) DIODE ZENER SMD BZX84C3V3 SOT23

(S) DIODE ZENER SMD BZX84C3V3 SOT23

(S) DIODE ZENER SMD BZX84C4V7 SOT23

(S) DIODE ZENER SMD BZX84C4V7 SOT23

(S) IC MC68HC05C4 MASK PROG.MICRO-P 44P

(S) IC SMD PCF8576T LCD DRIVER SOT-190

(S) IC SMD 74HC04D HEX INVERTER BUFFD

(S) IC SMD 74HC04D HEX INVERTER BUFFD

(S) IC SMD 78L05 5V REG

(S) IC SMD MC34064 LO VOLT SENSE 008-02029-00

(S) LCD DISPLAY A2M2523 8 CHR 14 SEG ALPH Ref P11 PT501 Q103 Q701 Q702 Q703 Q704 Q705 Q706 Q710 Q711 Q712 Q713 Q714 Q715 R106 R517 R595 R701 R702 R703 R704 R705 R706 R707 R708 R709 R710 R711 R712 R713 R714 R715 R716 R717 R718 R719 R720 R721 R722 R723 R724 R725 R726 R727 R728 R729 R730 R731 R733 R734 R735 R736 R737 R738 R739 R740 R741 R742 R743 R746 R747 R750 R751 R752 Var IPN Description 240-00020-87 HEADER 2X5 WAY RGT ANGLE PCB MTG MOLEX 040-05100-20 SWITCH ROT 10K LOG POT 3A 16VDC SPST PC 000-10008-47 000-10008-48 000-10008-57 000-10008-48 000-10008-57 000-10008-48 000-10008-48 000-10008-48 000-10008-69 000-10008-48 000-10008-57 000-10008-48 000-10008-57

(S) XSTR SMD BCW72 NPN GEN PURPOSE

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BC869 PNP 1W 2A SOT-89

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 A

(S) XSTR SMD BCW70 PNP SOT23 AF SML SIG 036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-10000-00 RES M/F 0805 CHIP ZERO OHM 036-12100-00 RES M/F 0805 CHIP 10E 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-15180-00 RES M/F 0805 CHIP 18K 5%

036-13330-00 RES M/F 0805 CHIP 330E 5%

036-13330-00 RES M/F 0805 CHIP 330E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-15680-00 RES M/F 0805 CHIP 68K 5%

036-16120-00 RES M/F 0805 CHIP 120K 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-13330-00 RES M/F 0805 CHIP 330E 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-14180-00 RES M/F 0805 CHIP 1K8 5%

036-14680-00 RES M/F 0805 CHIP 6K8 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-14270-00 RES M/F 0805 CHIP 2K7 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-15120-00 RES M/F 0805 CHIP 12K 5%

036-15330-00 RES M/F 0805 CHIP 33K 5%

036-16560-00 RES M/F 0805 CHIP 560K 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-16330-00 RES M/F 0805 CHIP 330K 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

Copyright TEL 31/12/97 IPN 220-01321-04 7.14.2 T2020, T2040 & T2050 Control Head PCB M2000-00 Ref Var IPN Description Ref R753 R760 R761 R762 R763 R764 R765 R766 R767 R768 R769 R770 R771 R772 R773 R774 R775 R776 R777 R778 R779 R780 R781 R782 R783 R784 R785 R790 R791 R792 R793 R795 R796 R797 S9A S10 X701 Var Description IPN 036-13330-00 RES M/F 0805 CHIP 330E 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-14330-00 RES M/F 0805 CHIP 3K3 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-18100-00 RES M/F 0805 CHIP 10M 10%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-16180-00 RES M/F 0805 CHIP 180K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13390-00 RES M/F 0805 CHIP 390E 5%

036-12330-00 RES M/F 0805 CHIP 33E 5%

036-12330-00 RES M/F 0805 CHIP 33E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-14120-00 RES M/F 0805 CHIP 1K2 5%

045-15100-00 RES NTC SMD 10K 5%

240-04020-50 240-04021-61 SKT 8WAY 2ROW(2X4) PCB MTG MICROMATCH SKT TELEPHONE JACK 6-WAY SIDE ENTY 555163 274-00010-33 XTAL 4MHZ TE-35 HC49U C/W TEFLON INS 31/12/97 Copyright TEL M2000-00 T2020, T2040 & T2050 Control Head PCB IPN 220-01321-04 7.14.3 T2020, T2040 & T2050 Control Head Mechanical & Miscellaneous Parts IPN Description IPN 205-00010-12 209-01027-00 220-01321-04 240-00020-56 301-00001-03 304-07036-02 311-01042-01 312-01046-03 316-06430-02 349-00010-22 349-00010-24 356-00010-01 365-00100-20 369-00020-29 429-20000-05 Descriptio CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY STRIP A3M2544 SI IMPREGNATED ELASTOMER 55X8MM PCB T2000 LCD DISPLAY PLUG 8WAY 2ROW(2X4) CORD MTG IDC MICROMATCH ADAPTOR FRT PNL T2000 SII LIGHT SPREADER 20 BUTTON T2000 SII KNOB A3M2530 T2000 S11 LENS A2M2543 LCD DISPLAY T2000 FM2/TR2 PNL FRT SCRN T2020/40/50 SII SCREW NO 4X3/8 PAN POZI PLASTITE SCREW #4X5/8 PLASTITE PAN POZI TAG SOLDER 3MM SHORT M6132/3.2 LABEL WHITE S/A 28X11MM QUIKSTIK RW718/4 TAPE VINYL FOAM 2 SIDE S/A 12X0.8MM INSEAL 51 T2000 SERIES II INSTALLATION GUIDE T2020 VARIANT PARTS 311-03076-01 459-20200-02 KEYPAD T2020 SII INTERNATIONAL T2020 SERIES II USERS GUIDE T2020 EMC VARIANT PARTS 240-00010-91 311-03076-01 459-20200-02 X2EF01 CONN MALE ON WIRE 18WAY MICROMATCH KEYPAD T2020 SII INTERNATIONAL T2020 SERIES II USERS GUIDE EMC FILTER PCB ASSEMBLY T2020 T2035 T2040 T2050 T2040 VARIANT PARTS 311-03078-01 459-20400-02 KEYPAD T2040 SII INTERNATIONAL T2040 SERIES II USERS GUIDE T2040 EMC VARIANT PARTS 240-00010-91 311-03078-01 459-20400-02 X2EF01 CONN MALE ON WIRE 18WAY MICROMATCH KEYPAD T2040 SII INTERNATIONAL T2040 SERIES II USERS GUIDE EMC FILTER PCB ASSEMBLY T2020 T2035 T2040 T2050 T2050 VARIANT PARTS 308-13093-02 311-03009-01 459-20200-02 459-20400-02 CHASSIS A1M2503 DIE CAST T2000 SERIES II KEYPAD T2050 SII INTERNATIONAL DUAL MODE T2020 SERIES II USERS GUIDE T2040 SERIES II USERS GUIDE Copyright TEL 31/12/97 IPN 220-01321-04 7.14.4 T2020, T2040 & T2050 Control Head PCB M2000-00 31/10/96 Copyright TEL M2000-00 T2035 Control Head PCB IPN 220-01322-03 7.15.1 7.15 T2035 Control Head PCB T2035 Control Head Parts List (IPN 220-01322-03) Ref Var IPN Description CLEAR CALLBK C510 C511 C512 C513 C516 C517 C518 C519 C520 C531 C542 C570 C571 C580 DVC DSP D502 D520 D521 D522 D523 D524

(S) LED 2MM GREEN TOWER 3.8MM BASE ROH

(S) LED 2MM GREEN TOWER 3.8MM BASE RO 008-00010-25 008-00010-25 015-24150-08 CAP CER 0805 CHIP 1N5 10% X7R 50V 015-25150-08 CAP CER 0805 CHIP 15N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-24470-08 CAP CER 0805 CHIP 4N7 10% X7R 50V 015-24330-08 CAP CER 0805 CHIP 3N3 10% X7R 50V 015-25100-08 CAP CER 0805 CHIP 10N 10% X7R 50V 015-24100-08 CAP CER 0805 CHIP 1N 10% X7R 50V 015-25220-08 CAP CER 0805 CHIP 22N 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 015-06100-08 CAP CER 1206 CHIP 100N 10% X7R 50V 008-00010-21 008-00010-25 001-10000-99 008-00010-15 008-00010-15 008-00010-15 001-10000-99 001-10000-99

(S) LED 2MM RED TOWER 3.8MM BASE ROHM SL

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE IN

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.

(S) LED 3MM GREEN HLMP1585 DIFSD 2V3 6.

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE IN

(S) DIODE SMD BAV99 DUAL SWTCH SNGLE IN Ref R565 R566 R567 R573 R574 R575 R587 R588 R589 R590 R591 R594 R597 R635 R636 R637 R638 R639 R643 S8B S10 TX TENS Var IPN Description 036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-14100-00 RES M/F 0805 CHIP 1K 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-14470-00 RES M/F 0805 CHIP 4K7 5%

036-14220-00 RES M/F 0805 CHIP 2K2 5%

036-13150-00 RES M/F 0805 CHIP 150E 5%

036-12100-00 RES M/F 0805 CHIP 10E 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-15100-00 RES M/F 0805 CHIP 10K 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-13560-00 RES M/F 0805 CHIP 560E 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

240-04020-50 240-04021-61 SKT 8WAY 2ROW(2X4) PCB MTG MICROMATCH SKT TELEPHONE JACK 6-WAY SIDE ENTY 55516 008-00010-21 008-00020-29

(S) LED 2MM RED TOWER 3.8MM BASE ROHM SC

(S) LED DISPLAY GREEN 7 SEG SINGLE HDSP FUNCTI 008-00010-25

(S) LED 2MM GREEN TOWER 3.8MM BASE RO UNITS 008-00020-29

(S) LED DISPLAY GREEN 7 SEG SINGLE HDS GO 008-00010-25

(S) LED 2MM GREEN TOWER 3.8MM BASE ROHM WAIT 008-00010-23

(S) LED 2MM YELLOW TOWER 3.8MM BASE ROH HUNDS 008-00020-29

(S) LED DISPLAY GREEN 7 SEG SINGLE HDS IC507 IC508 IC514 IC515 IC517 P8A P11 9 PT501 Q506 Q512 Q513 Q514 Q515 Q516 Q550 R517 R544 R545 R552 R553 R554 R555 R556 R557 R558 R559 R560 R561 R562 R563 R564 002-10140-21 002-10144-99 002-74905-95 002-74900-04 002-74907-40

(S) IC MC14021BDR2 8BIT SHIFT REGSTR.S

(S) IC SMD 4*7 SEGMENT LED DRIVER

(S) IC SMD 74HC595 SHIFT REGISTER

(S) IC SMD 74HC04D HEX INVERTER BUFFD

(S) IC 74HC74 DUAL D-TYPE FLIP FLOP SO 240-00026-23 CONN PADLE BD 8 WAY MICRO MATCH 0-215570 240-00020-87 HEADER 2X5 WAY RGT ANGLE PCB MTG MOLEX 040-05100-20 SWITCH ROT 10K LOG POT 3A 16VDC SPST P 000-10008-48 000-10008-48 000-10008-48 000-10008-48 000-10008-48 000-10008-48 000-10008-48

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23

(S) XSTR SMD BCW60/BC848B215 NPN SOT23 036-10000-00 RES M/F 0805 CHIP ZERO OHM 036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-13270-00 RES M/F 0805 CHIP 270E 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-15470-00 RES M/F 0805 CHIP 47K 5%

036-13470-00 RES M/F 0805 CHIP 470E 5%

Copyright TEL 31/12/97 IPN 220-01322-03 7.15.2 T2035 Control Head PCB M2000-00 T2035 Control Head Mechanical & Miscellaneous Parts IPN Description IPN 220-01322-03 240-00020-54 240-00020-56 240-04020-72 240-04020-99 250-00010-19 301-00001-05 304-07035-00 311-01042-01 311-03080-01 312-01057-01 316-06496-01 349-00010-22 349-00010-24 356-00010-01 357-00010-03 365-00100-20 400-00020-07 429-20000-05 459-20300-02 Description PCB T2033/35 DISPLAY BRD PLUG 16 WAY 2X8 FLAT CABLE TERMN MICROMATCH PLUG 8WAY 2ROW(2X4) CORD MTG IDC MICROMATCH SKT HOUSING 2 WAY CORD MTG ULTREX SKT RECEPTACLE SML WIRE CRIMP FOR ULTREX HOU SPKR A3M2520 C/W RUBBER SEALING RING ADAPTOR FRT PNL T2000 SII LIGHT SPREADER A2M2531 BUTTONS T2000 FM1/TR1 KNOB A3M2530 T2000 S11 KEYPAD T2035 SII INTERNATIONAL LENS T2035 SII GREEN DISPLAY PNL FRT SCRN T2035 SII SCREW NO 4X3/8 PAN POZI PLASTITE SCREW #4X5/8 PLASTITE PAN POZI TAG SOLDER 3MM SHORT M6132/3.2 FIX PUSH ON SFO 2938 LABEL WHITE S/A 28X11MM QUIKSTIK RW718/4 SLEEVING 2MM SIL RUBBER T2000 SERIES II INSTALLATION GUIDE T2030/T2035 SERIES II USERS GUIDE T2035 VARIANT PARTS 201-00030-10 205-00010-12 304-07037-00 349-00020-30 WIRE #1 T/C WIRE 7/0.2MM PVC BLACK CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY LIGHT SPREADER A4M2533 KNOB T2000 FM1/TR1 SCREW TAPTITE M3X6MM PAN POZI BZ T2035 EMC VARIANT PARTS 205-00010-16 240-00010-91 369-00020-30 X2EF01 CABLE FLAT RBBN 25 CORE 28 AWG GREY CONN MALE ON WIRE 18WAY MICROMATCH TAPE VINYLFOAM 2 SIDE S/A 24*1.5MM INSEAL 51 EMC FILTER PCB ASSEMBLY T2020 T2035 T2040 T2050 31/12/97 Copyright TEL M2000-00 7.16 T2000 EMC Filter PCB T2000 EMC Filter PCB IPN 220-01383-01 7.16.1 T2000 EMC Filter Parts List (IPN 220-01383-01) Ref Var IPN Description Ref C1 C2 C3 C4 C4 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 PDL-1 PDL-1 PDL-1 PDL-1 SKT-1 SKT-1 SKT-1 SKT-1 Var 01 02 08 Description IPN 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23150-01 CAP CER 0805 CHIP 150P 5% NPO 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 015-23470-08 CAP CER 0805 CHIP 470P 10% X7R 50V 01 02 03 08 01 02 03 08 02 08 02 08 240-00026-31 CONN PADLE BRD 18WAY MICROMATCH 240-00026-31 CONN PADLE BRD 18WAY MICROMATCH 240-00026-31 CONN PADLE BRD 18WAY MICROMATCH 240-00026-23 CONN PADLE BD 8 WAY MICRO MATCH 0-215570-

240-10000-11 240-10000-11 240-10000-11 240-10000-05 CONN SMD SKT 8WAY 2ROW MICROMATCH

(L) CONN SMD SKT 18WAY MICROMATCH

(L) CONN SMD SKT 18WAY MICROMATCH

(L) CONN SMD SKT 18WAY MICROMATCH 205-00010-12 CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY 205-00010-12 CABLE FLAT RBBN 16 CORE 16/7/0.1 GREY 220-01383-01 240-00020-56 240-00020-56 349-00020-32 PCB T2000 SII EMC FILTER BRD PLUG 8WAY 2ROW(2X4) CORD MTG IDC MICROM PLUG 8WAY 2ROW(2X4) CORD MTG IDC MICROM SCREW TAPTITE M3X8MM PAN POZI BZ Variants: 01 = T2020, T2035, T2040 & T2050 EMC radios 02 = Non-EMC remote mounted radios 03 = T2010, T2015 & T2030 radios 08 = Used in T2000-A03/-A04/-A16 remote kits (refer to Section 8.16) Copyright TEL 31/12/97 IPN 220-01383-01 7.16.2 T2000 EMC Filter PCB M2000-00 31/10/96 Copyright TEL M2000-00 T2000 Data Interface Decoupling PCB IPN 220-01388-01 7.17.1 7.17 T2000 Data Interface Decoupling PCB T2000 Data Interface Parts List (IPN 220-01388-01) Ref Var IPN Description Ref C1 C2 C3 C4 C5 C6 C7 C8 C9 SKT1 SKT2 Var Description IPN 018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

018-14100-00 CAP 0603 CHIP 1N 50V X7R +-10%

240-02010-40 240-04020-84 SKT 9 WAY D RANGE SUB MA SKT 24 WAY PCB MTG STAG MA 200-00010-03 WIRE T/C 0.9MM 220-01388-01 349-00020-07 354-01041-00 PCB T2000 DATA INT FCE DE-COUPLING

(L) SCREW 4-40 X 5/16 PAN POZI TAPTITE BLACK FASTENER SCREW LOCK KIT

(4-40 THREAD FOR DRANGE) TAG SOLDER 4MM LONG M MT 356-00010-05 Copyright TEL 31/12/97 IPN 220-01388-01 7.17.2 T2000 Data Interface Decoupling PCB M2000-00 31/10/96 Copyright TEL M2000-00 Accessories 8.1 8 Accessories This Section provides information on T2000 Series II accessories. The following accessories are covered in this Section:

Section Title PCB IPN Page 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9 8.10 8.11 8.12 8.13 8.14 8.15 8.16 T2008 Power Supply 220-01170-03 Connection To External Devices T2000-500 & T2000-600 1-7W Versions T2000-05 Remote Speaker Kit T2000-A06 Desktop Microphone Kit T2000-A07 DTMF Microphone Kit T2000-34 Selcall Kit T2000-A36 Selcall Kit T2000-40 DTMF Kit T2000-A450X CTCSS & Scrambler Kits T2000-A50 Handsfree Kit T2000-A60 Dual Port UART Kit T2000-A66 Single Port UART Kit T2000-A80 Line Interface Kit T2000-A70 Data Modem Kit T2000-A03/-A04/-A16 Remote Loom Kits 220-01313-02 220-01335-04 225-01210-03 220-01251-01 220-01348-04 220-01272-02 220-01378-01 8.1.1 8.2.1 8.3.1 8.4.1 8.5.1 8.6.1 8.7.1 8.8.1 8.9.1 8.10.1 8.11.1 8.12.1 8.13.1 8.14.1 8.15.1 8.16.1 Copyright TEL 31/12/97 8.2 Accessories M2000-00 31/12/97 Copyright TEL M2000-00 8.1.10 PCB Information 8.1.17 T2008 Parts List (IPN 220-01170-03) Ref VAR IPN Description Ref VAR IPN Description CBR C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C14 D1 D2 F1 F1 F1 F1 F2 017-15470-01 CAP CER SURFACE BARRIER 47N 20% 50 020-19220-03 CAP ELECT RADL 2200M 35V 16X31MM 020-19220-03 CAP ELECT RADL 2200M 35V 16X31MM 020-19220-03 CAP ELECT RADL 2200M 35V 16X31MM 020-19220-03 CAP ELECT RADL 2200M 35V 16X31MM 020-19220-03 CAP ELECT RADL 2200M 35V 16X31MM 020-19220-03 CAP ELECT RADL 2200M 35V 16X31MM 020-09470-02 CAP ELECT RADL 470M 16V 10X20MM 017-15470-01 CAP CER SURFACE BARRIER 47N 20% 50 051-00006-06 WIRE LINK T/C 022-05150-01 CAP MYLAR 15N 10% 50V 022-04220-01 CAP MYLAR 2N2 10% 50V 022-05100-01 CAP MYLAR 10N 10% 50V 001-00011-50 001-00012-91

(S) DIODE MUR810 8A 100V FAST RECOV

(S) DIODE 16V TRANSIENT SUPPRESSOR 21 22 23 24 265-00010-45 265-00010-05 265-00010-45 265-00010-45 265-00010-07 FUSE 1A CARTRIDGE 6*32MM SLOBLOW FUSE 3A CARTRIDGE 6*32MM BS4265 FUSE 1A CARTRIDGE 6*32MM SLOBLOW FUSE 1A CARTRIDGE 6*32MM SLOBLOW FUSE 10A CARTRIDGE 6*32MM BS4265 IC1 002-00016-63

(S) IC TL494/594 SMPS PWM CTRL LED1 L1 L2 008-00012-52 056-00010-47 056-00010-20

(S) LED 2MM TOWER 5MM BASE RED IND FXD 125UH PWR CHOKE TOROIDAL IND FXD 25UH PWR CHOKE PL1 240-00020-68 HEADER 2WAY PCB MTG STD Q1 Q2 Q3 Q4 R1 RV1 RB1 RV2 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15 R16 R17 R18 R20 R21 000-00022-07 000-00012-15 000-00011-10 000-00011-10

(S) XSTR 2N3772 NPN PWR TO-204

(S) XSTR BD234 PNP AF PWR TO126

(S) XSTR BC548B/BC547B NPN AF SML SI

(S) XSTR BC548B/BC547B NPN AF SML SI

(S) DIODE BRIDGE RECT 50V/25AMP 030-53120-20 RES FILM AI 120E 5% 0.4W 4X1.6MM 042-03470-01 RES PRESET 470E CARBON 10MM FLAT 001-00011-37 042-03470-01 RES PRESET 470E CARBON 10MM FLAT 033-03330-00 RES MP816 PWR FILM 330E 10% 16W TO-2 030-52330-20 RES FILM AI 33E 5% 0.4W 4X1.6MM 030-54680-20 RES FILM AI 6K8 5% 0.4W 4X1.6MM 030-54390-20 RES FILM AI 3K9 5% 0.4W 4X1.6MM 030-54180-20 RES FILM AI 1K8 5% 0.4W 4X1.6MM 030-55100-20 RES FILM AI 10K 5% 0.4W 4X1.6MM 030-54470-20 RES FILM AI 4K7 5% 0.4W 4X1.6MM 030-53120-20 RES FILM AI 120E 5% 0.4W 4X1.6MM 030-55680-20 RES FILM AI 68K 5% 0.4W 4X1.6MM 030-55100-20 RES FILM AI 10K 5% 0.4W 4X1.6MM 030-54330-20 RES FILM AI 3K3 5% 0.4W 4X1.6MM 030-54390-20 RES FILM AI 3K9 5% 0.4W 4X1.6MM 030-55220-20 RES FILM AI 22K 5% 0.4W 4X1.6MM 030-54330-20 RES FILM AI 3K3 5% 0.4W 4X1.6MM 030-53470-20 RES FILM AI 470E 5% 0.4W 4X1.6MM 030-53470-20 RES FILM AI 470E 5% 0.4W 4X1.6MM 039-10018-63 RES WIRE WOUND 0.017E A4M1863 T508 030-56220-20 RES FILM AI 220K 5% 0.4W 4X1.6MM 030-53100-20 RES FILM AI 100E 5% 0.4W 4X1.6MM SW1 232-00010-21 SWITCH PUSH SPST MAINS ON/OFF

*T1

*T1

*T1

*T1 21 22 23 24 053-00010-53 053-00010-51 053-00010-53 053-00010-53 XFMR T4063A 230V MAINS PROTECTED XFMR T4065 115V MAINS T508 XFMR T4063A 230V MAINS PROTECTED XFMR T4063A 230V MAINS PROTECTED Copyright TEL 31/12/97 8.1.18 M2000-00 T2008 Mechanical & Miscellaneous Parts IPN Description IPN Description BEAD FERRITE BALUN 4B1 PHILIPS WIRE T/C 0.9MM WIRE #1 T/C WIRE 7/0.2MM PVC RED LED WIRING-330MM WIRE #1 T/C WIRE 7/0.2MM PVC YELLOW INTERNAL SPEAKER LINK (REFER TO WIRING DIAG.) WIRE #1 T/C WIRE 7/0.2MM PVC GREEN C8 & C9 WIRING TO HEATSINK WIRE #1 T/C WIRE 7/0.2MM PVC BLACK WIRE #1 T/C WIRE 7/0.2MM PVC BLACK LED WIRING - 330MM, MIC CLIP - 300MM. CABLE TWIN CYCLE FLEX 2/7/0.2MM BLACK CABLE TWIN AUTO 153 2/28/0.3 RED & BLACK PCB T508-21 SWITCH PUSH SPST MAINS ON/OFF PLUG HOUSING 7-POS CONN 172495-1 PLUG RECEPTL 7-POS CONN 172773-1 SKT RECEPTL T2000 172775-1 CONN 2WAY 24AWG (BLACK) INLINE HRMAPHR. CLIP MIC MTG FUSE 10A CARTRIDGE 6*32MM BS4265

(L) BRKT HEAT TRANSFER T508/T2008 CASE 1 PR TOP/BTTM PLASTIC COMPL HSINK A1M1755 DCAST T508/2008 PNL FRT A3A697 COMPL T2008 PWR SUPPLY SPACER A4M2615 MIC MTG T2008 FUSE CLIP PCB MTG 6.3MM CARTRIDGE FUSE COVER INSULATING FUSEHLDR PCB MTD SCREW M3*12MM PAN POZI ST BZ Q1 MOUNTING AND PCB TO HEATSINK SCREW NO6X1/2 PAN POZI TYPE 25 SCREW SLFTAP NO 6*3/4IN TYPE AB PAN PZI BZ FOR WALL MOUNTING SCREW SELFTAP NO 8X3/8IN AB PAN SLOT BZ SCREW SELFTAP NO 8X3/8IN AB PAN SLOT BZ SCREW TAPTITE M3X6MM PAN PZI BZ EARTH PCB TO HEATSINK MOUNTING X 2 SCREW TAPTITE M3X10MM PAN POZI BZ SCREW TAPTITE M4X20MM PAN POZI BZ BRIDGE RECTIFIER MOUNTING NUT M3 COLD FORM HEX ST BZ Q1 MOUNTING WASHER M3 FLAT 7MM*0.6MM ST BZ WASHER M3 SPRING BZ Q1 MOUNTING WASHER M4 FLAT ST BZ A4M1957 WASHER M4 FLAT ST BZ A4M1957 BRIDGE RECTIFIER MOUNTING TAG SOLDER 3MM HEAVY DUTY EARTH MAINS EARTH TAG TO HEATSINK TAG SOLDER 4MM LONG M6144/4.2 GASKET SIL INSULATING TO-3 Q1 LABEL WHITE RW1556/2 90*24MM SPECIAL ADHESV LABEL BLANK 10.8X30MM S/A METLSD POLYES LABEL BLANK 30X6.7MM S/A METALLISED POLYES LABEL BLANK 47X30MM S/A METLSD POLYES LABEL WHITE S/A 28X11MM QUIKSTIK RW718/4 LABEL POWER CORD CODE/WARNING FOOT PLASTIC 10MM SQ SELF ADHESIVE BLACK TIE CABLE NYLON 100*2.6MM SPONGE RUBBER 3/8 INCH SQ SKELLERUP S3 TOP CASE 2 X 56MM TAPE AL FOIL S/A 3M NO 425 RUBBER BAND NO 33 MAINS PLUG BAG PLASTIC 75*100MM BAG PLASTIC 225*300MM SLEEVING 3MM PVC 2X 3.5MM SLEEVING 3MM PVC 065-00010-20 200-00010-03 201-00030-02 201-00030-04 201-00030-05 201-00030-10 201-00030-10 205-00010-03 205-00010-06 220-01170-03 232-00010-21 240-00026-19 240-00026-20 240-02010-75 240-04021-63 252-00010-02 265-00010-07 302-05220-00 303-03031-00 308-13064-01 316-06442-00 319-30055-00 340-00010-06 340-00011-52 345-00040-08 349-00010-28 349-00010-33 349-00010-40 349-00010-40 349-00020-30 349-00020-31 349-00020-45 352-00010-08 353-00010-10 353-00010-12 353-00010-24 353-00010-24 356-00010-04 356-00010-05 362-00010-09 365-00011-54 365-00100-03 365-00100-04 365-00100-07 365-00100-20 365-01372-00 369-00010-05 369-00010-14 369-00020-25 369-00020-45 399-00010-10 399-00010-51 399-00010-59 400-00010-30 400-00010-30 31/10/96 400-00020-03 400-00020-05 409-20008-01 410-00010-36 410-01038-01 410-01087-00 2X5MM OVER M3X12MM PAN POZI SCREWS. SLEEVING 1MM SIL RUBBER D1 WIRING SLEEVING 1.5MM SIL RUBBER LED WIRES, Q1 USER GUIDE T2008 PWR SUPPLY PKG POLY FOAM 2 PCS T508 A1M1860 PKG SLEEVE CARD T2008 KIWI P.O. CRTN T508/T2008PS OUTER (5 X UNITS) T2008-21 VARIANT PARTS 240-00010-18 PLUG 3 PIN MLDED ON 2.4M 0.75MM2 230V MAINS NEW ZEALAND MAINS SUPPLY PLUG (T2008-21) T2008-22 VARIANT PARTS 240-00010-19 PLUG US 3PIN MOULDED ON 2.4M FLEX 120V 10A USA MAINS SUPPLY PLUG (T2008-22) T2008-23 VARIANT PARTS 240-00010-22 PLUG MLDED 3PIN ON 2.0M 5AMP 240V MAINS UK MAINS SUPPLY PLUG (T2008-23) T2008-24 VARIANT PARTS 240-00010-20

(L) PLUG EURO SAFETY PLUG WITH 2.5M CABLE EUROPEAN MAINS SUPPLY PLUG (T2008-24) Copyright TEL M2000-00 T2000-A450X CTCSS & Scrambler Kit 8.10.1 8.10 T2000-A450X CTCSS & Scrambler Kit The T2000-A450X CTCSS and scrambler PCB plugs into an options connector on the top side of the T2000 Series II logic PCB, and can be configured in two ways:

Product Code Option T201X T2020 T203X T2040 T2050 T2000-A4500 CTCSS T2000-A4502 Scrambler x

x

x

The CTCSS option is used in trunked radios, and has 38 independent receive and trans-

mit tones, set by solder links on the T2000-A450X PCB. The scrambler option can be used in either trunked or conventional radios, and is ena-

bled/disabled by the auxiliary (

) key (trunked models). The scrambler uses a simple frequency inversion algorithm that prevents casual eavesdropping by other radio users. After descrambling, the recovered speech suffers from some degradation in clarity.

) key (conventional models) or function (

Fn Note: The T2000-A4500 CTCSS kit is only compatible with the following radio and PGM software versions:

Radio Radio Software Version 3.24 or later 3.28 or later T2030 T2035 T2040 PGM Software Version later than 1.44 5.36 or later later than 2.57 The following topics are covered in this Section:

Title Section 8.10.1 8.10.2 8.10.3 8.10.4 Components Required Fitting T2000-A450X Link Options PCB Information Page 8.10.2 8.10.2 8.10.3 8.10.5 Copyright TEL 31/12/97 8.10.2 T2000-A450X CTCSS & Scrambler Kit M2000-00 8.10.1 Components Required The T2000-A450X kits contain the following components:

Quantity Description 1 12mm T2000-A450X PCB assembly PVC foam tape 8.10.2 Fitting 1 2 2 3 Refer to Figure 8.10.1. Remove the top cover of the radio by unscrewing the four cover screws, unscrew the logic PCB and fold out. Select the T2000-A450X link options, as described in Section 8.10.3, T2000-A450X Link Options. Position the T2000-A450X PCB as shown, and plug into the connector on the T2000 logic PCB:

Model PCB IPN Connector Circuit Reference T2010 & T2015 220-01377-01 or later P2 T2020, T203X, T2040 &

T2050 220-01344-02 or later

#T3K45 S 1 3 S 1 4 S 1 5 T2000-45 2 P P2 S 8 P 1 S 2 S 1 S 3 S K 5 0 5 Figure 8.10.1 T2000-A450X PCB Mounting (T201X logic PCB shown) Position the foam tape provided on top of #IC5, on the T2000-A450X PCB. Carefully fold the logic PCB back in position and secure using the three logic PCB retaining screws. Refit the top cover. 31/12/97 Copyright TEL M2000-00 T2000-A450X CTCSS & Scrambler Kit 8.10.3 8.10.3 T2000-A450X Link Options There are 2 groups of links on the underside of the T2000-A4500 PCB, the receive

(R) group and the transmit (T) group. Each group contains 6 bits that are pulled logic high or low, by either solder links or zero ohm resistors. The receive settings are set by links R-0 to R-5 and the transmit settings by links T-

0 to T-5. A short to the 5V line represents a 1, and a short to ground represents a 0. The following diagram shows the T2000-A450X PCB, with links indicated. T2000-A450X PCB IPN 220-01335-04 (bottom side):

links for transmit & receive 110.9Hz CTCSS frequency shown. T2000-A4500 CTCSS PCB Links The following table gives the linking details for the 38 independent transmit and receive CTCSS frequencies. Tone Number R-5 T-5 R-4 T-4 R-3 T-3 R-2 T-2 R-1 T-1 R-0 T-0 CTCSS Frequency (Hz) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 67 71.9 74.4 77 79.7 82.5 85.4 88.5 91.5 94.8 97.4 100 103.5 107.2 110.9 Copyright TEL 31/12/97 8.10.4 T2000-A450X CTCSS & Scrambler Kit M2000-00 Tone Number R-5 T-5 R-4 T-4 R-3 T-3 R-2 T-2 R-1 T-1 R-0 T-0 CTCSS Frequency (Hz) 16 17 18 19 20 21 22 23 24 25 26 27 28 29 3 0 31 32 33 34 35 36 37 3 8 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 114.8 118.8 123 127.3 131.8 136.5 141.3 146.2 151.4 156.7 162.2 167.9 173.8 179.9 186.2 192 .8 203.5 210.7 218.1 225. 7 233.6 241.8 250.3 T2000-A4502 Scrambler PCB Links The T2000-A4502 has the following R settings linked during manufacture. The T settings have no effect. R-5 1 R-4 1 R-3 1 R-2 1 R-1 1 R-0 1 31/12/97 Copyright TEL 8.10.5 T2000-A450X CTCSS & Scrambler Kit M2000-00 8.10.4 PCB Information T2000-A450X Parts List (IPN 220-01335-04) Ref Var IPN Description Ref Var IPN Description

#4500 CTCSS 038-10000-00

#2T502 SCRAM 038-10000-00 RES 0603 CHIP ZERO OHM 1/16W +

RES 0603 CHIP ZERO OHM 1/16W +

R58 038-17100-00

#R60 SCRAM 038-11470-00 RES 0603 CHIP 1M 1/16W +-5%

RES 0603 CHIP 4E7 1/16W +-5%

018-16100-01 C1 018-12330-10 C2 018-12150-10 C3 C6 018-16100-01

#C11 CTCSS 018-16100-01

#C11 SCRAM 018-16100-01 C12 015-27100-10

#C13 CTCSS 018-15100-00 C15 018-16100-01

#C16 SCRAM 018-16100-01

#C22 CTCSS 018-13150-00

#C22 SCRAM 018-13150-00

#C25 SCRAM 018-13150-00

#C30 CTCSS 018-16100-01 CAP 0603 CHIP 100N +80-20% Y5V CAP 0603 CHIP 33P 50V NPO +-1%

CAP 0603 CHIP 15P 50V NPO +-1%

CAP 0603 CHIP 100N +80-20% Y5V CAP 0603 CHIP 100N +80-20% Y5V CAP 0603 CHIP 100N +80-20% Y5V 16V CAP CER 0805 CHIP 1M +80-20% Y5V 16V CAP 0603 CHIP 10N 50V X7R +-10%

CAP 0603 CHIP 100N +80-20% Y5V 16V CAP 0603 CHIP 100N +80-20% Y5V 16V CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 100N +80-20% Y5V 16V D1 IC1 IC2 IC3

#IC4

#IC4

#IC5 001-10000-70

(S) DIODE SMD BAV70 DUAL SWITCH SOT-23 002-74900-40 002-18937-10 002-74917-30 CTCSS 002-11454-80 SCRAM 002-11454-80 SCRAM 002-11454-80

(LSH) IC SMD TC7S04F SINGLE INV GATE SO-

LSH) IC SMD Z89371-16FSC OTP DSP 44PIN Q LSH) IC SMD 74HC173D 4BIT DTYPE REGISTE LSH) IC SMD MC145480DW PCM CODEC F LSH) IC SMD MC145480DW PCM CODEC F LSH) IC SMD MC145480DW PCM CODEC F OPTION 240-10000-09 CONN SMD 24WAY (SKT/CAP WITH MTG LUGS RES 0603 CHIP 15K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 47K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 3K3 1/16W +-5%

RES 0603 CHIP 4E7 1/16W +-5%

RES 0603 CHIP 470K 1/16W +-5%

RES 0603 CHIP 4E7 1/16W +-5%

RES 0603 CHIP 4K7 1/16W +-5%

RES 0603 CHIP 4E7 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 4E7 1/16W +-5%

RES 0603 CHIP 4E7 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 15K 1/16W +-5%

RES 0603 CHIP 15K 1/16W +-5%

RES 0603 CHIP 15K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

RES 0603 CHIP 470K 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 220K 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

038-15150-00 R1 038-15100-00 R4 CTCSS 038-15470-00

#R6 SCRAM 038-15100-00

#R6 CTCSS 038-14330-00

#R7 SCRAM 038-11470-00

#R8 CTCSS 038-16470-00

#R9

#R9 SCRAM 038-11470-00

#R10 CTCSS 038-14470-00

#R10 SCRAM 038-11470-00

#R11 CTCSS 038-15100-00 SCRAM 038-15100-00

#R11 R13 038-11470-00

#R15 SCRAM 038-11470-00

#R17 SCRAM 038-15100-00

#R18 SCRAM 038-15100-00

#R19 SCRAM 038-15100-00

#R22 CTCSS 038-15150-00

#R22 SCRAM 038-15150-00

#R23 SCRAM 038-15150-00 038-15100-00 R30 R31 038-15100-00 038-15100-00 R32 038-15100-00 R33 038-15100-00 R34 038-15100-00 R35 038-15100-00 R36 R37 038-15100-00 038-15100-00 R38 038-15100-00 R39 038-15100-00 R40 038-15100-00 R41 038-15100-00 R42 R43 038-15100-00 R44 038-15100-00

#R50 CTCSS 038-16100-00

#R50 SCRAM 038-16100-00

#R51 CTCSS 038-16470-00

#R51 SCRAM 038-16100-00

#R53 SCRAM 038-15100-00

#R54 CTCSS 038-16220-00

#R55 SCRAM 038-16100-00

#R56 SCRAM 038-16100-00 31/12/97 XL1 274-01063-00

(L) XTAL 3.579545MHZ MINITURE CYLINDRICA 220-01298-01 220-01335-04 365-00011-38 365-00011-54 369-00020-49 369-00020-50 399-00010-86 410-01064-01 418-24500-00

(L) PCB FLEXI T3000 OPTIONS LOOM PCB T3000-4500 CTCSS OPTION BOARD LABEL STATIC WARNING YELLOW A4A315 LABEL WHITE RW1556/2 90*24MM SPECIAL AD TAPE SA TESAMOLL 9*3 (25 M ROLLS) TAPE SA TESAMOLL 6*3MM (25 M ROLLS) BAG STATIC SHIELDING 127X203MM PKG HEADER CARD (NEW TAIT LOGO) FITTNG INS T2000-45 SCRAMBLER KIT Variants: CTCSS = CTCSS option SCRAM = Scrambler option Copyright TEL 8.10.6 T2000-A450X CTCSS & Scrambler Kit M2000-00 31/12/97 Copyright TEL M2000-00 T2000-A450X CTCSS & Scrambler Kit 8.10.7 T2000-A450X PCB (IPN 220-01335-04) - Top Side Copyright TEL 31/12/97 8.10.8 T2000-A450X CTCSS & Scrambler Kit M2000-00 T2000-A450X PCB (IPN 220-01335-04) - Bottom Side 31/12/97 Copyright TEL M2000-00 T2000-A450X CTCSS & Scrambler Kit 8.10.9 Copyright TEL 31/12/97 8.10.10 T2000-A450X CTCSS & Scrambler Kit M2000-00 31/12/97 Copyright TEL M2000-00 8.12.4 T2000-60 Set-Up Test Equipment Required AF signal generator modulation analyser 8.12.5 high impedance voltmeter (e.g. VTVM) IBM or compatible personal computer lead to connect radio to CE and AE, if required (refer to Figure 8.12.2 & Figure 8.12.3) oscilloscope power supply (+13.8V) RF signal generator 40dB RF attenuator The following diagram shows a typical test set-up. Figure 8.12.2 Test Equipment Set-Up IBM is the registered trademark of International Business Machines. Copyright TEL 31/12/97 8.12.6 Rx Audio Level M2000-00 1 2 3 Set up the test equipment as shown. Ensure that pin 5 of S21 is loaded with the impedance normally presented by the AE (typically 600W

). Apply an RF signal at a level of -50dBm on an appropriate channel. Internal mod-

ulation at 1kHz should be enabled, with the deviation set to 1.5kHz for a narrow band radio and 3kHz for a wide band radio. Note:

If CTCSS or Selcall is enabled, ensure that the signalling mutes are overridden

(for T2040 radios, refer to Section 5.8.5, Test Facilities Available). 4 Connect the scope probe to pin 5 of S21, and adjust RV1 to the level required by the AE. Tx Audio Level 1 2 3 4 Set up the test equipment as shown. Connect a 600W impedance AF signal generator to pin 15 of S21. If the internal impedance of the AE is not 600W

, either load the AF signal generator to get an internal impedance equivalent to the AE or alternatively, use the AE to provide the test signal (this is possible with most packet radio modems). Apply an audio test signal to TX-AUDIO and set the radio to transmit (for T2040 radios, refer to Section 5.8.5, Test Facilities Available). Connect the scope probe to pin 15 of S21 and adjust the AF signal generator to a frequency of 1kHz at a level of 700mVp-p. While the radio is transmitting, adjust RV2 to produce a deviation on the modula-

tion analyser as stipulated by the AE. If you are using the test signal from the AE instead of the AF signal generator, there will be some means of adjusting the signal level inside the AE. 31/10/96 Copyright TEL M2000-00 T2000-A66 Single Port UART Kit 8.13.1 8.13 T2000-A66 Single Port UART Kit The T2000-A66 single port UART kit allows computer control of a T2030, T2035 or T2040 Series II radio. With full remote control, either semi or fully automatic communication systems can be developed. The following topics are covered in this Section:

Title Section 8.13.1 8.13.2 8.13.3 8.13.4 Components Required Fitting Signal Specifications PCB Information Page 8.13.2 8.13.2 8.13.3 8.13.4 Copyright TEL 31/12/97 8.13.2 T2000-A66 Single Port UART Kit M2000-00 8.13.1 Components Required The T2000-A66 kit contains the following components:

Quantity Description 1 1 1 2 2 2 1 2 T2000-A66 UART PCB assembly Data Interface Decoupling PCB assembly (refer to Section 7.17) M2.5x10mm pan Pozi Taptite screws M2.5 shakeproof washers M2.5 nuts locking screw kit (in plastic bag) 4-40x pan Pozi Taptite screws (black) 20mm foam tape 8.13.2 Fitting Refer to Figure 8.13.1. 1 2 Remove the top cover of the radio by unscrewing the four cover screws, unclip the D-range blanking plate in the rear of the T2000 radio, unscrew the logic PCB and fold out. T2000-A66 Mounting Position the T2000-A66 PCB on the top side of the logic PCB, as shown, matching P1 on the bottom side of the T2000-A66 PCB to the pads labelled P1 on the logic PCB. Use the two M2.5x10mm screws, nuts and shakeproof washers to secure in place. Note: The screws are fitted from the bottom of the logic PCB, and secured with the nuts and washers on the top side of the UART PCB. Torque the screws to 2.5in.lb. This ensures that the pressure connector, P1, makes contact with the corresponding pads on the logic PCB. Caution: Over-tightening the screws will cause the T2000-A66 PCB to bend, result-

ing in possible track damage. 3 T2000 Data Interface Decoupling PCB Mounting Fit the decoupling PCB to the T2000 chassis, guiding the PCB through the hole provided. Holes are provided in the T2000 chassis for the D-range locking screws. Use the two black 4-40 Taptite screws provided in the kit to form threads. Open the locking screw kit, discard the nuts, then secure the D-range using the two locking screws and spring washers. 31/12/97 Copyright TEL M2000-00 2 T2000-A66 Single Port UART Kit 8.13.3 Figure 8.13.1 T2000-A66 Single Port UART PCB Mounting 4 5 Fold the T2000-A66 loom as shown, then plug into SKT2 on the decoupling PCB. Fold the logic PCB back in position, and secure using the three logic PCB retaining screws and refit the top cover. 8.13.3 Signal Specifications The following table describes the signals used on the decoupling PCB 9 way D-range connector (SKT1). The unused pins may be used for other signals, if required. SKT1 Pin No. Signal Description 2 3 5 TXD RXD Transmit data: Serial data output from UART PCB. This signal complies with the electrical requirement s of the RS-232 specification. Receive data: Serial data input to UART PCB. This signal complies with the electrical requirements of the RS-232 specification. DGND Digital ground: Ground reference for all digital signals. The following diagram shows the pin designations of SKT1, viewed from the rear of the radio. Figure 8.13.2 9 Way D-Range Connector (SKT1) Copyright TEL 31/12/97 8.13.4 T2000-A66 Single Port UART Kit M2000-00 8.13.4 PCB Information T2000-A66 Parts List (IPN 220-01348-04) Ref IPN Description C1 C2 C10 C11 C12 C13 C14 C15 C16 C17 IC1 IC2 P1 R1 R2 R3 R4 015-06100-08 015-06100-08 015-22220-01 015-22220-01 015-06100-08 015-06100-08 015-06100-08 015-06100-08 015-24100-08 015-24100-08 CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 0805 CHIP 22P 5% NPO 50V CAP CER 0805 CHIP 22P 5% NPO 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 0805 CHIP 1N 10% X7R 50V CAP CER 0805 CHIP 1N 10% X7R 50V 002-10269-10 002-10020-20

(LSH) IC SMD SCC2691 UART SOL24

(LSH) IC SMD ADM202 RS-232 CONVERTOR SO-16 240-10000-10 CONN SMD 20PIN SCREW DOWN PRICKLE CONTACT 036-12560-00 036-12560-00 036-12560-00 036-12560-00 RES M/F 0805 CHIP 56E 5%

RES M/F 0805 CHIP 56E 5%

RES M/F 0805 CHIP 56E 5%

RES M/F 0805 CHIP 56E 5%

SK2 240-00021-20 HEADER 4WAY PADDLE BRD STAGGERED PINS MICROMATC X1 274-01056-00 XTAL 3.6864MHZ AT-51 HOLDER C/W TEFLON INS CABLE FLAT RBBN 4 CRE 16/7/0.1 GREY (SCAP FRM 16C) PCB T2000 SII UART PLUG 4WAY 2ROW MICROMATCH IDC CABLE 0-215083-4 SCREW M2.5*10MM PAN POZI BZ

(L) SCREW 4-40 X 5/16 PAN POZI TAPTITE BLACK NUT M2.5 MACH HEX ST BZ 205-00010-53 220-01348-04 240-00026-22 345-00020-02 349-00020-07 352-00010-04 353-00010-04 WASHER M2.5/M2.6 SHAKEPROOF INT BZ 354-01041-00 356-00010-05 369-00020-35 FASTENER SCREW LOCK KIT (4-40 THREAD FOR DRANGE) TAG SOLDER 4MM LONG M MT TAPE PVC FOAM 1 SIDE S/A 9*10MM INSEAL 5375 1x 20mm TOP SIDE PCB OVER IC1 T2000 INT FACE DE-COUPLING BOARD X2DC01 31/12/97 Copyright TEL M2000-00 T2000-A66 Single Port UART Kit 8.13.5 T2000-A66 Single Port UART PCB (IPN 220-01348-04) - Top Side Copyright TEL 31/12/97 8.13.6 T2000-A66 Single Port UART Kit M2000-00 T2000-A66 Single Port UART PCB (IPN 220-01348-04) - Bottom Side 31/12/97 Copyright TEL A B C D E F G H J K C o p y r i g h t T E L 3 1

1 2

9 7 9 8 7 6 5 4 3 2 1 0 3 2 15 6 16 P1 P1 P1 P1 P1 WRN RDN CEN INTRN RESET 4 5 1 7 8 9 10 11 12 13 14 P1 P1 P1 P1 P1 P1 P1 P1 P1 P1 P1 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 17 P1 18 20 P1 P1

+5V DGND DGND

+5V 19 P1 CGND I/OPAD S1 6 7 8 A2 A1 A0 15 16 17 18 19 20 21 22 D7 D6 D5 D4 D3 D2 D1 D0 5 MPI

+5V 24 VCC C1 100N TXD 3 RXD 2 RESET INTRN CEN RDN WRN 11 13 14 1 23 IC1 SCC2691 GND 12 9 X1 10 X2 4 MPO X1 3.6864M C10 22P C11 22P C2 100N 1 3 4 5 C1+

C1-

C2+

C2-

C12 100N C13 100N

+5V 16

+V 2 6 5/10+

5/10-

IC2 MAX202 10 11 12 9 T2IN T1IN R1OUT R2OUT 7 14 13 8 T2OUT T1OUT R1IN R2IN GND 15 C14 100N C15 100N R1 56 R3 56 SK2 4 WAY PADDLE CONNECTOR P1 24WAY SKT R2 56 R4 56 C16 1N0 C17 1N0 2 SK2 TXD 3 SK2 RXD 1 SK2 4 SK2 DGND DGND TAIT ELECTRONICS 4A 3A 2A 1A P1 RELAY OF PCB NEW CONNECTOR. RELAY OF CCT ADDED SK3. CHANGED PLACEMENT TOE CHANGED XTAL FOR SIDE MOUNT VER NEW FOR SINGLE PORT OPTION ON T2000 CCB REV/ISS AMENDMENTS RPS DJW/RPS PW PW PW DRAWN DJW PW PW PW CHKD D.O. APVD 17/12/96 21/10/96 05/03/96 28/08/95 27/06/95 DATE T2000 SERIES 2 SINGLE PORT U.A.R.T IPN:

ID:. 1 2.SC. FILE DATE:

17/12/96 FILE NAME:

134804A ISSUE:

4A DESIGNER:

RPS 220-01348-04 PROJECT:

T2000 NO.SHEETS:

2 9 8 7 6 5 4 3 2 1 0 M 2 0 0 0

0 0 T 2 0 0 0

A 6 6 S i n g l e P o r t U A R T K i t 8

. 1 3 7

. 8.13.8 T2000-A66 Single Port UART Kit M2000-00 31/12/97 Copyright TEL M2000-00 T2000-A70 Data Modem Kit 8.15.1 8.15 T2000-A70 Data Modem Kit The T2000-A70 conventional data modem allows a T2010 or T2015 radio to be used in data applications, and also provides remote channel control via six BCD lines. The command protocol and some test procedures are provided for those wanting to write their own software. The protocol definition is based on the T2000 CCI protocol, with specific extensions to support binary transmission and reception. Note: This interface is only compatible with radio firmware version 2.22, or later. If you have a Series II HC05 logic PCB (PCB IPN 220-01377-0X), with v2.05 radio firmware, contact your nearest authorised Tait dealer. After upgrading from v2.05 radio software, it is necessary to change the link resistors on the top side of the logic PCB. Remove link resistor #R714 and fit

#R714A. The following topics are covered in this Section:

Title Section 8.15.1 8.15.2 8.15.3 8.15.4 8.15.5 8.15.6 8.15.7 Components Required Fitting T2000-A70 Link Options Signal Specifications Programming Circuit Description PCB Information Page 8.15.2 8.15.2 8.15.4 8.15.5 8.15.6 8.15.12 8.15.13 Copyright TEL 31/12/97 8.15.2 T2000-A70 Data Modem Kit M2000-00 8.15.1 Components Required The T2000-A70 kit contains the following components:

Quantity Description 1 1 1 2 2 2 1 2 T2000-A70 data modem PCB assembly Data interface decoupling PCB assembly (refer to Section 7.17) connecting loom M2.5x10mm pan Pozi Taptite screws M2.5 shakeproof washer M2.5 nut female screw lock kit (in plastic bag)*

4-40x5/16 pan Pozi Taptite screws (black)

* Discard unused parts from the female screw lock kit. 8.15.2 Fitting Refer to Figure 8.15.2. 1 2 Remove the top cover of the radio by unscrewing the 4 bottom cover screws, unscrew the logic PCB and fold out. T2000-A70 Mounting Position the data modem PCB on the top side of the logic PCB, as shown, match-

ing P3 on the bottom side of the data modem PCB to connector S3 on the logic PCB. Use the 2 M2.5x10mm screws, nuts and shakeproof washers to secure in place, as shown. Figure 8.15.1 T2000-A70 PCB Mounting The screws are fitted from the bottom of the logic PCB, and secured with the nuts and washers on the top side of the data modem PCB. Torque the screws to 2.5in.lb. Caution: Over-tightening the screws will cause damage to the data modem PCB, and compression of connector P3. 31/12/97 Copyright TEL M2000-00 T2000-A70 Data Modem Kit 8.15.3 3 a Figure 8.15.2 T2000-A70 Data Modem PCB Mounting T2000 Data Interface Decoupling PCB Mounting Unclip the D-range blanking plate in the rear of the T2000 chassis. T2000 Series I Chassis Refer to Figure 8.15.3. Figure 8.15.3 Data Interface Decoupling PCB Mounting: Series I Chassis Holes are provided in the T2000 chassis for the D-range screw locks. Use the 2 black 4-40 Taptite screws provided in the kit to form threads. Fit the decoupling PCB to the T2000 chassis, guiding the PCB through the hole provided, as shown. Open the female screw lock kit, then secure the D-range using the 2 screw locks and spring washers. Copyright TEL 31/12/97 8.15.4 T2000-A70 Data Modem Kit M2000-00 b T2000 Series II Chassis Refer to Figure 8.15.4. Figure 8.15.4 Data Interface Decoupling PCB Mounting: Series II Chassis Fit the decoupling PCB to the T2000 chassis, from the inside rear of the radio, as shown. Secure the D-range in position using the screw locks, spring washers and nuts provided in the female screw lock kit. 4 5 Fold the data modem loom as shown, then plug into SKT2 on the decoupling PCB. Fold the logic PCB back in position, secure using the 3 logic PCB retaining screws, and refit the top cover. Note: Check that the loom is not pinched by the cover or screws during reassembly. 8.15.3 T2000-A70 Link Options PCB links have been provided on the T2000-A70 data modem PCB for different opera-

tional requirements. To change settings, the PCB links are either solder shorted, or fitted with 0W SMD resistors. The following table sets out the link selection options on the T2000-A70 data modem PCB.

#R19

#R2010

#R2015 Fitted Not fitted

Fitted Not fitted Not fitted Fitted Option Baud Rate:

1200 2400 Radio Type:

T2010 T2015 31/12/97 Copyright TEL M2000-00 T2000-A70 Data Modem Kit 8.15.5 8.15.4 Signal Specifications Data Interface Decoupling PCB The following tables describe the signals on the decoupling PCB 9 way D-range connec-

tor (SKT1) and 4 way connector (SKT2). The diagram shows the pin designations of SKT1, viewed from the rear of the radio. Note: Pins 1, 4, 6, 7, 8 and 9 on SKT1 are connected to I/O pads, so that additional sig-

nals can be interfaced to the radio through the external connector. SKT1 Pin No. Signal Description SKT2 Pin No. Signal Description 1 2 3 4 DGND Ground reference for all digital signals RXD Receive data TXD Transmit data DGND Ground reference for all digital signals 1 2 3 4 5 6 7 8 9 PAD1 Spare TXD Transmit data RXD Receive data PAD2 Spare DGND Ground reference for all

. digital signals Spare Spare Spare Spare PAD3 RTS CTS PAD4 Figure 8.15.5 9 Way D-Range Connector (SKT1) Data Modem PCB The following tables describe the signals on the data modem PCB connectors P3 and PDL-1. For P3 signal descriptions, refer to Section 5.9, Options Interface Specifica-

tions. P3 Pin No. 1 2 3 4 5 6 7 8 9 10 Signal BCD-0 BCD-1 BCD-2 BCD-3 BCD-4 BCD-5 TX-SIG-IN DET-AF-OUT

/BUSY N/C P3 Pin No. Signal 11 12 13 14 15 16 17 18 19 20

/PTT-TO-OPT

/RX-GATE

/IN-LOCK

/PTT-FRM-OPT

/SIG-SQUELCH MIC-MUTE DGND PWR-CTRL GND

+5V PDL-1 Pin No. Signal Description 1 2 3 4 DGND Ground reference for all digital signals TXD RXD Transmit data Receive data DGND Ground reference for all digital signals Copyright TEL 31/12/97 8.15.6 T2000-A70 Data Modem Kit M2000-00 8.15.5 Programming For those wanting to write their own software, the command protocol and some test procedures are provided in this Section. The protocol definition is based on the T2000 CCI protocol, with specific extensions to support binary transmission and reception. Note:

For modem control of channel change, the BCD Channel Selection field in the Edit - Options menu must be set to Enabled during radio programming. Common Abbreviations CCI Computer Controlled Interface DTE Data Terminal Equipment (e.g. Computer,
 data head) RU Radio Unit RXD Received Data TXD Transmitted Data Command Protocol Description The DTE is connected to the RU via a serial port on the data modem PCB. Commands are generated by the DTE, and responses or unsolicited messages returned by the RU. There is a prescribed format for all messages, which allows transmission errors to be detected. Control of the RU is accomplished by the DTE sending a command sequence (a packet) and receiving a response (a transaction). Unsolicited messages may origi-

nate from the RU. The RU will issue a prompt character to indicate to the DTE that it is ready to accept a new command. After issuing a command, the DTE must wait for another prompt before beginning the next transaction. The prompt character is (full stop, ASCII code =

$2E). Messages directed to the RU will always be responded to, either explicitly by means of a return message (Ready or Error), or implicitly, by just the prompt being issued. The RU will not originate a message: messages returned by the RU are for information purposes only, and no reply will be expected from the DTE. This protocol definition is based on the T2000 CCI protocol, with specific extensions to support binary data transmission and reception. 31/12/97 Copyright TEL M2000-00 Message Format T2000-A70 Data Modem Kit 8.15.7 All message packets take the general form:

[IDENT][SIZE][PARAMETERS][CHECKSUM]<CR>

The following table explains each component of the message packet. Message Component Description

[IDENT]

[SIZE]

[PARAMETERS]

The message identifier. Identifiers are single ASCII characters (lower-case alphabetical) which categorise the message type. The number of characters which make up the [PARAMETERS] field. [SIZE]

is an 8-bit number expressed in ASCII-hex notation (two characters). An optional field, depending upon the command. Parameter values are generally character strings, unless explicitly stated otherwise. Parameter type is dependent upon the command - there is no explicit type definition.

[CHECKSUM]

An 8 bit checksum of fields [IDENT], [SIZE] and [PARAMETERS]. It is expressed in ASCII-hex notation (two characters). Calculating [CHECKSUM]:

[CHECKSUM] is calculated by applying the following algorithm:

1 Take the modulo-2 sum of all message bytes preceding [CHECKSUM]. 2 Retain bits 0 to 7, discarding any higher order bits resulting from the summation. 3 Form the twos complement of the remainder. 4 Convert the binary number into two ASCII-hex digits, MSD first.

<CR>

The packet terminator. It is the ASCII carriage return character ($0D). Table 8.15.1 Message Format General message format characteristics:

All fields in a message are encoded in ASCII, except for the [PARAMETERS] field of the transmit and receive commands, which is encoded in Binary. Where numeric values are represented in ASCII-hex notation (two characters per byte), digits A to F are upper case. The minimum length of a command packet is 5 characters (i.e. this is when [SIZE] =

00). The maximum length of the [PARAMETERS] field is 111 characters. The maximum length of the command packet is therefore 116 characters ([SIZE] = 0x6F). Copyright TEL 31/12/97 8.15.8 T2000-A70 Data Modem Kit M2000-00 Messages To The RU If the RU receives a command without error, and all parameters are valid, then the com-

mand will be executed and an acknowledge will be returned to the DTE. If an error arises, the DTE will be notified with an appropriate response. The following Table describes the commands available to the DTE to control operation of the RU. Message

[IDENT]

[PARAMETERS]

g q b n

[CHANNEL NUMBER]

This is a string of characters representing the new channel number. The range of allowed characters is 0 to 9 only, and the maximum number of dig-

its is 3. Valid channel numbers are 1 to [NUM CHANNELS]. None The data to broadcast is encoded as binary data. Note that this field may contain unprintable ASCII characters (such as CR/

LF) and protocol command characters (such as ). None Comments The value of [CHANNEL NUMBER] must be valid for the RU being control-

led. The range of allowed values depends upon the RUs programming, type and the link selections on the data modem PCB (refer to Section 8.15.3). The maximum allowable value is returned by the Query command. The Query data is returned to the DTE as a Query Response message (refer to Messages from the RU). The maximum length of data that may be sent with the Transmit command is 111 characters. Command Description Go To Channel This forces the RU to change to another

(conventional) chan-

nel. Query Transmit Null This requests the RU to respond with a block of data identifying the type of RU attached, and the version of modem firmware. This requests the RU to broadcast a block of data on the radio chan-

nel. This requests the RU to return an acknowl-

edgement to the DTE. The DTE can use this command to check that an RU is connected. Table 8.15.2 Messages To The Radio Unit 31/12/97 Copyright TEL M2000-00 T2000-A70 Data Modem Kit 8.15.9 Messages From The RU Messages may be sent to the DTE by the radio as part of a transaction (i.e. in response to a command issued by the DTE) or unsolicited. In the case of solicited commands, the prompt character will be issued after the RU response to terminate the transaction and signify that another may begin. Note:

In the case of solicited commands, the prompt character, , will be issued after the RU response, to terminate the transaction and signify that another may begin. Unsolicited commands from the RU will not cause the issuing of the prompt character, as it is possible for an unsolicited command (e.g. Receive) to occur during a solicited command (e.g. Transmit). The following Table describes messages from the RU to the DTE. Comments Message

[IDENT]

[PARAMETERS]

i The data received is encoded as binary data. Note that this field may contain unprintable ASCII characters (such as CR/LF) and protocol command characters

(such as ). Command Description Receive Query Response Unsolicited. This presents data received by the RU to the DTE. The data received by the RU has been broadcast by another RU/DTE, using the Transmit command. Solicited The RUs response to a Query command. m

[RU TYPE]

[VERSION]

A single character, representing the model of the RU. 0 = unknown 3 = T2010 4 = T2015 Firmware version. A character string, in the format of X.XX, identifying the capabilities of the RU/modem.

[PVERSION] Protocol Version. A character string, in the format of X.XX, identifying the com-

mand protocol ver-

sion supported. The number of channels supported by the Go To Chan-

nel command. A 3 digit ASCII number. None

[NUM CHANNELS]

Ready None This response indi-

cates that a transac-

tion has been completed, and the RU is ready for the next command. 1 The value of [PVER-

SION] = 1.01 is reserved for the first release of firmware implementing this command protocol. Subsequent enhance-

ments and major upgrades will incre-

ment this number accordingly. 2 Additional fields may be added to this message in future releases to pro-

vide more information about the RU environ-

ment. In particular, it may be necessary to pass the DTE some information on how the RU has been pro-

grammed, or what optional hardware is fit-

ted. After issuing a command, the DTE must wait for another prompt before beginning the next transac-

tion. Continued on next page Copyright TEL 31/12/97 8.15.10 T2000-A70 Data Modem Kit M2000-00 Command Description Message

[IDENT]

[PARAMETERS]

Error e

[ETYPE]

[ENUM]

Solicited response to a transaction error. This advises the DTE that the RU has detected an error condition and cannot proceed with the current transaction. Unsolicited response to a system error. In some cases, an exception condition in the RU may cause an Error message to be sent to the DTE independently of any control transac-

tions. A prompt or Ready will be issued after an Error occurs, to indicate the RU's availability to accept further commands. Error type. A single character represent-

ing the error cate-

gory. 0 = transaction error. This indicates some problem with com-

munications. All such errors result in the transaction being terminated, without the current command being executed. Error number. A character string rep-

resenting a decimal number in the range of 00 to 99, which can identify the specific error condition. For [ETYPE] = 0, 01 = unsupported command 02 = checksum error 03 = parameter error 10 = communica-

tion failure 20 = invalid channel number Comments Transition error numbers

([ETYPE] = 0):

1 0x01 = unsupported command error This may arise when the DTE expects a later version of RU than is attached, and attempts to use a command which is not recognised by the RU. 2 0x02 = checksum error indicates that the check-

sum calculated by the RU did not match the one received in the com-

mand packet. 3 0x03 = parameter error This encompasses val-

ues out of range, or missing fields. 4 0x10 = communication failure This encompasses all low level mechanisms, i.e. framing error, over-

run error, parity error etc. 5 0x20 = invalid channel number This may arise when the DTE issues a Go To Channel command with a [CHANNEL NUMBER] exceeding the maximum allowable number. Table 8.15.3 Messages From The Radio Unit 31/12/97 Copyright TEL M2000-00 Software Tests T2000-A70 Data Modem Kit 8.15.11 The following Table explains the commands that may be sent to test the software. Command Go To Channel Test Procedure 1. Send command g01206 2. Send command g0203D4 3. Send command g03004A2 4. Send command g0225D0 Transmit 1. Send command b04this82 2. Send command b17This is a test command.14 3. Send a b command while the PTT is pressed. 4. Send a command while the busy led is lit Send command n0032 Send command q002F Null Query Command Line Errors 1. Send command b03this83 2. Send command b04this83 3. Send command t04this70 Expected Result Radio changes channel to 2, then returns the command prompt. Radio changes channel to 3, then returns the command prompt. Radio changes channel to 4, then returns the command prompt. Radio sends error message e03020A6

(invalid channel) Radio transmits this data and i04this7B is received by the other radio. Radio transmits this data and i17This is a test command.0D is received by the other radio. Radio sends error message e03010A7

(communication error) Radio sends error message e03010A7

(communication error) Radio returns a prompt (). T2010: a valid message could be m0C31.011.01004D9 i.e.

[RU TYPE] = T2010,

[VERSION] = 1.01

[PVERSION] = 1.01

[NUM CHANNELS] = 04 T2015: a valid message could be m0C41.011.01024D6

[RU TYPE] = T2015,

[VERSION] = 1.01

[PVERSION] = 1.01

[NUM CHANNELS] = 24 Radio sends error message e03003A5

(parameter error). Radio sends error message e03002A6

(checksum error). Radio sends error message e03001A7

(unsupported command). Table 8.15.4 Software Test Commands Copyright TEL 31/12/97 8.15.12 T2000-A70 Data Modem Kit M2000-00 8.15.6 Circuit Description The T2000-A70 data modem PCB is based on a CML FX469LS 1200/2400 baud FFSK modem IC (IC1) and the baud rate is selectable by PCB links. Receive audio is recovered and fed into IC1 via a buffer amplifier, with filtering (IC5), to attenuate all but the FFSK tones. The signal is demodulated in IC1 and the data fed into the microprocessor, IC2. The data, complete with its length & checksum information, is fed to the DTE via IC4, which converts the 0V/5V TTL levels to RS232. On transmit, data is sent from the DTE to IC2, via IC4. It is processed and sent on to IC1, where it is modulated and the output goes to the TX-SIG-IN input of the radio, via a unity gain buffer, IC6. IC2 also monitors inputs from the radios logic PCB and controls various output lines. The microprocessor checks that the radio is in lock, and is not busy. It then mutes the microphone, activates the radio PTT and 30ms later, the PWR-CTRL signal goes low, releasing the transmit inhibit. Both buffer amplifiers are biased at half rail by IC1, pin11. If a channel change is required, the data is sent to IC7, which toggles the appropriate BCD lines to change the radio channel. 31/12/97 Copyright TEL M2000-00 T2000-A70 Data Modem Kit 8.15.13 8.15.7 PCB Information T2000-A70 Parts List (IPN 220-01378-01) Ref IPN Description Ref IPN Description 365-00011-38 365-00011-54 399-00010-51 399-00010-87 410-00010-60 418-27000-00 X2DC01 LABEL STATIC WARNING YELLOW A4A315 LABEL WHITE RW1556/2 90*24MM SPECIAL ADH BAG PLASTIC 75*100MM BAG STATIC SHIELDING 102X152MM CARTON 150X112X56MM VICTOR FITTNG INS T2000-70 MODEM KIT T2000 INT FACE DECOUPLING PCB ASSEMBLY C1 C2 C5 C6 C7 C8 C9 C11 C12 C13 C14 C15 C20 C21 C22 C23 C24 C25 C26 C27 C29 C30 C31 C32 C33 C34 C35 C36 C37 IC1 IC2 IC4 IC5 IC6 IC7 015-06100-08 015-06100-08 018-12220-10 018-12330-10 015-06100-08 016-07100-01 015-06100-08 015-06100-08 015-06100-08 015-06100-08 015-06100-08 018-15100-00 018-15100-00 015-06100-08 014-08100-00 015-06100-08 016-07100-01 015-06100-08 015-06100-08 015-23470-08 018-13150-00 018-13150-00 018-13150-00 018-13150-00 018-13150-00 018-13150-00 018-13150-00 018-13150-00 015-06100-08 002-20046-90 002-20068-07 002-10020-20 002-10340-64 002-10003-58 002-74905-95 CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP 0603 CHIP 22P 50V NPO +-1%

CAP 0603 CHIP 33P 50V NPO +-1%

CAP CER 1206 CHIP 100N 10% X7R 50V CAP ELECT 6X4MM CHIP 1M 20% 16V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP 0603 CHIP 10N 50V X7R +-10%

CAP 0603 CHIP 10N 50V X7R +-10%

CAP CER 1206 CHIP 100N 10% X7R 50V CAP TANT CHIP 10M 16VW +-20% 6X3.2X2.5MM CAP CER 1206 CHIP 100N 10% X7R 50V CAP ELECT 6X4MM CHIP 1M 20% 16V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 1206 CHIP 100N 10% X7R 50V CAP CER 0805 CHIP 470P 10% X7R 50V CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP 0603 CHIP 150P 50V NPO +-5%

CAP CER 1206 CHIP 100N 10% X7R 50V

(S) IC FX469LS FFSK MODEM 1200/2400 BAUD

(S) IC MC68HC705C8FN 1 TIME PROG MICRO-P

(LSH) IC SMD ADM202 RS-232 CONVERTOR SO-

(S) IC SMD MC34064 LO VOLT SENSE

(S) IC SMD LM358 DUAL OP AMP

(S) IC SMD 74HC595 SHIFT REGISTER PDL-1 240-00021-20 HEADER 4WAY PADDLE BRD STAGGERED PINS 240-10000-10 P3 038-17100-00 R1 038-16100-00 R4 038-16100-00 R5 038-16100-00 R6 038-15100-00 R7 038-15100-00 R8 038-14470-00 R9 036-15560-00 R10 038-16100-00 R11 036-15330-00 R13 038-14470-00 R14 038-13100-00 R15 038-13100-00 R16 038-13100-00 R17 038-13100-00 R18 R20 038-14100-00

#R2010 038-10000-00 CONN SMD 20PIN SCREW DOWN PRICKLE CON RES 0603 CHIP 1M 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

RES 0603 CHIP 100K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 10K 1/16W +-5%

RES 0603 CHIP 4K7 1/16W +-5%

RES M/F 0805 CHIP 56K 5%

RES 0603 CHIP 100K 1/16W +-5%

RES M/F 0805 CHIP 33K 5%

RES 0603 CHIP 4K7 1/16W +-5%

RES 0603 CHIP 100E 1/16W +-5%

RES 0603 CHIP 100E 1/16W +-5%

RES 0603 CHIP 100E 1/16W +-5%

RES 0603 CHIP 100E 1/16W +-5%

RES 0603 CHIP 1K0 1/16W +-5%

RES 0603 CHIP ZERO OHM 1/16W +-5%

SK2 240-04020-42 SKT 44 PIN SMD PLCC CHIP CARRIER XTAL1 274-01070-00 XTAL 4.000MHZ HC49U/S C/W TEFLON INSULAT CABLE FLAT RBBN 10 CORE 10/7/0.1 GREY

(L) PCB T201X SII 1200/2400 BAUD DATA MODEM SCREW M2.5 * 10 PAN POZI ST BZ NUT M2.5 MACH HEX ST BZ 205-00010-13 220-01378-01 345-00020-02 352-00010-04 353-00010-04 WASHER M2.5/M2.6 SHAKEPROOF INT BZ 316-80032-00 PKG FOAM A4M2495 Copyright TEL 31/12/97 8.15.14 T2000-A70 Data Modem Kit M2000-00 T2000-A70 Grid Reference Index (IPN 220-01378-01) Device PCB Circuit Device PCB Circuit Device PCB Circuit S6 S7 S11 1:B4 1:B4 1:H2 1-J3 1-J4 1-J5 XTAL1 1:C10 1-A5 1-C6 1-J6 1-A5 1-A5 1-D4 1-D3 1-D3 1-L4 1-L4 1-M4 1-M4 1-F5 1-F6 1-M4 1-J6 1-F3 1-E4 1-D5 1-E3 1-E5 1-N3 1-N3 1-N3 1-P3 1-P3 1-Q3 1-Q3 1-Q3 1-L2 1-R4 1-B3 1-H3 1-K5 1-L3 1-K6 1-E6 1-E5 1-F3 1-K1 1-A8 1-C8 1-B5 1-K5 1-D4 1-E3 1-D6 1-E6 1-E6 1-E5 1-H7 1-B3 1-F5 1-E4 1-N3 1-P3 1-P3 1-Q4 1-K5 1-L0 1-F3 1-F4 1-R4 C1 C2 C5 C6 C7 C8 C9 C11 C12 C13 C14 C15 C20 C21 C22 C23 C24 C25 C26 C27 C29 C30 C31 C32 C33 C34 C35 C36 C37 CTS IC1 IC2

%IC3 IC4 IC5 IC6 IC6 IC6 IC7 2:D9 1:H4 2:B9 2:C9 1:H8 1:B9 1:F9 2:B6 1:A5 1:A6 2:A5 2:F9 2:H10 1:A7 2:G6 1:H7 1:C9 1:G9 1:G9 1:F10 2:B4 2:B4 1:A2 1:A2 1:A3 1:A3 1:B4 1:B4 2:C2 1:A4 1:E7 1:E3 1:H3 1:B5 1:H6 1:G10 1:G10 1:G10 2:D4 P3 PDL-1 2:E7 1:B3 R1 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15 R16 R17 R18

#R19 R20

#R2010

#R2015 RTS 2:C10 2:H2 1:F9 1:F9 1:H9 1:H10 1:H9 1:F10 1:H6 1:F6 1:F9 2:G10 2:B4 1:A2 1:A3 1:A4 1:G2 2:D3 1:C6 1:C6 1:A3 31/12/97 Copyright TEL M2000-00 T2000-A70 Data Modem Kit 8.15.15 T2000-A70 Data Modem PCB (IPN 220-01378-01) - Top Side Copyright TEL 31/12/97 8.15.16 T2000-A70 Data Modem Kit M2000-00 T2000-70 Data Modem PCB (IPN 220-01378-01) - Bottom Side 31/12/97 Copyright TEL M2000-00 T2000-A70 Data Modem Kit 8.15.17 Copyright TEL 31/12/97 8.15.18 T2000-A70 Data Modem Kit M2000-00 31/12/97 Copyright TEL M2000-00 T2000-A03/-A04/-A16 Remote Loom Kits 8.16.1 8.16 T2000-A03/-A04/-A16 Remote Loom Kits The T2000-A03 6m remote loom and T2000-A04 4m remote loom installation kits are for use with T2020, T2040 and T2050 radios in situations where the 3m remote loom or underdash mounting is unsuitable. The T2000-A16 6m shielded remote loom is suitable for use with EMC model radios, and for installations where electromagnetic radiation may cause problems with sensi-

tive equipment installed nearby or interference to the radios own antenna. Once installed, the loom should not be subjected to any pinching, crushing or chafing, nor should it interfere with the operation of the vehicle controls. Note: These instructions must be read in conjunction with Section 3.1 Servicing Pre-

cautions and Section 3.2 Disassembly Instructions. The following topics are covered in this Section:

Section 8.16.1 8.16.2 8.16.3 Title Components Required Fitting To Locally Mounted Radios Fitting To Remote Mounted Radios Page 8.13.2 8.13.2 8.13.6 Copyright TEL 31/12/97 8.16.2 T2000-A03/-A04/-A16 Remote Loom Kits M2000-00 8.16.1 Components Required The T2000 remote loom kits contain the following components:

Quantity Description 1 1 1 1 2 2 2 4 2 4 2 4 1 1 remote loom, complete with 8 way connectors remote mounting bracket remote back panel dummy front panel remoting connector cover (fitted to the remote back panel & dummy front panel) M4 pressed captive nut (for remote control head assembly) thumbscrew (for remote mounting bracket) ESD plug (to fit over remote back panel screw heads: T2000-A16 only) No 6x3/4 self-tapping screw (for remote mounting bracket) No 4x 3/8 pan Pozi Plastite screw (dummy front panel mounting) M3x6 pan Pozi Taptite screw (connector PCB mounting) M3x8 pan Pozi Taptite screw (EMC filter PCB mounting) EMC filter PCB (Series II radio chassis) connector PCB (Series I radio chassis) 8.16.2 Fitting To Locally Mounted Radios 1 Remove the top cover of the radio by unscrewing the 4 bottom cover screws. Remove the 3 logic PCB retaining screws and fold back the logic PCB. If necessary, remove the 3 option PCB mounting screws before lifting the logic PCB. Remove the microprocessor shield retaining screws and the screw securing the control head ground lead, then remove the microprocessor shield. Remove the bottom cover of the radio and unplug the loom running between the control head and the logic PCB (on EMC model radios, the loom runs between the control head and the EMC filter PCB). The control head can now be detached from the chassis. Remove the 4 adaptor plate retaining screws from the control head and remove the adaptor plate from the back of the control head. 2 Refer to Figure 8.16.1. Unclip the remote back panel remoting connector cover (3). Pass one end of the remote loom through the connector cover hole and plug onto the 8 way connector (6) on the top side of the control head PCB. T2000-A03 & T2000-A04 kits: Remove the ground lead from under one of the con-

trol head PCB screws, and discard the ground lead. 31/12/97 Copyright TEL M2000-00 T2000-A03/-A04/-A16 Remote Loom Kits 8.16.3 T2000-A16 kit: Remove the screw from the control head that secures the control head ground lead. Discard the ground lead, and use this screw to secure the remote loom drain wire solder tag to the control head PCB. Note: Ensure that the tag does not make contact with any devices in the control head. 3 Fit the 2 captive M4 nuts (4) into the slots on the remote back panel (2), and mount the remote back panel onto the control head front assembly (1). Secure in place using the 4 No. 4x5/8 Plastite screws previously used for the adap-

tor plate, and push the 4 ESD plugs (7) over the screw heads (T2000-A16 only). Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable. Item Description IPN Quantity Torque (in.lb) 1 2 3 4 5 6 7 CONTROL HEAD FRONT ASSEMBLY REMOTE BACK PANEL REMOTING CONNECTOR COVER CAPTIVE NUT M4 PRESSED NO 4X5/8 SCREW (REMOTE BACK PANEL SCREWS) MICROMATCH CONNECTOR 8 WAY ESD PLUG (OVER REMOTE BACK PANEL SCREWS) 1 1 1 2 4 1 4 Figure 8.16.1 Remote Control Head Assembly 316-06432-XX 316-85125-XX 352-00010-17 349-00010-24 240-04020-50 360-01057-00 8 (0.9Nm) 4 T2000 Series I chassis Refer to Figure 8.16.2. Mount the adaptor plate (2) onto the chassis and secure the connector PCB to the 2 chassis pillars, using the 2 M3x6 Taptite screws provided. As the pillars are not threaded, care must be taken that the screws are not inserted at an angle. Pass the logic PCB loom through the slot in the adaptor plate and chassis (7) and plug the loom onto one of the 8 way connectors (8) on the connector PCB. Unclip the remoting connector cover (5) from the dummy front panel and pass the unconnected end of the remote loom through the hole in the dummy head front panel. Plug the 8 way remote loom connector onto the 8 way connector (6) on the connec-

tor PCB. T2000-A16 kit: Secure the remote loom drain wire solder tag under one of the con-

nector PCB screws. Mount the dummy front panel (1) onto the adaptor plate (2), using the No 4x3/8 Plastite screws (4) provided. Copyright TEL 31/12/97 8.16.4 T2000-A03/-A04/-A16 Remote Loom Kits M2000-00 Item Description IPN Quantity Torque (in.lb) 1 2 3 4 5 6 7 8 DUMMY FRONT PANEL ADAPTOR PLATE (T2000 SERIES I) CONNECTOR PCB NO 4X3/8 SCREW (DUMMY FRONT PANEL SCREWS) REMOTING CONNECTOR COVER 8 WAY CONNECTOR PCB SOCKET (FOR REMOTE LOOM) SLOTS IN ADAPTOR PLATE & CHASSIS FOR LOGIC PCB LOOM 8 WAY CONNECTOR PCB SOCKET (FOR LOOM TO LOGIC PCB) 316-06433-XX 301-00001-XX 220-01274-XX 349-00010-22 316-85125-XX 240-04020-50 240-04020-50 Figure 8.16.2 Connector PCB Mounting 1 1 1 4 1 1 1 8 (0.9Nm) 5 T2000 Series II Chassis Refer to Figures 8.16.3 and 8.16.4. Fit the EMC filter PCB (18) provided in the kit to the chassis, first passing the loom on the bottom side of the PCB through the chassis hole, as shown. Secure the EMC filter PCB in place, using the 4 M3x8 Taptite screws. Note: EMC model radios will already have an EMC filter PCB fitted. Check that the top side con-

nector (SKT-1) is 8 way. If not, discard the exist-

ing filter PCB and fit the new PCB provided. Figure 8.16.3 EMC FIlter PCB Mounting Plug the EMC filter PCB loom onto the logic PCB. Unclip the remoting connector cover (5) from the dummy front panel (1), and pass the unconnected end of the remote loom through the holes in the dummy front panel and the adaptor plate (2). Plug the 8 way loom connector onto the 8 way connector (6) on the top side of the EMC filter PCB. T2000-A16 kit: Secure the remote loom drain wire solder tag under one of the EMC filter PCB screws. 31/12/97 Copyright TEL M2000-00 T2000-A03/-A04/-A16 Remote Loom Kits 8.16.5 Mount the dummy head front panel (1) onto the adaptor plate (2), using the 4 No 4x3/8 Plastite screws (4) provided. Mount the dummy front panel assembly onto the chassis. Item Description IPN Quantity Torque (in.lb) 1 2 3 4 5 6 7 316-06433-XX 301-00001-XX DUMMY FRONT PANEL ADAPTOR PLATE MAIN CHASSIS ASSEMBLY NO 4X3/8 SCREW (DUMMY FRONT PANEL SCREWS) REMOTING CONNECTOR COVER 8 WAY EMC FILTER PCB SOCKET EMC FILTER PCB 1 1 1 4 1 1 1 Figure 8.16.4 Dummy Front Panel Assembly 349-00010-22 316-85125-XX 240-04020-50 220-01383-XX 8 (0.9Nm) 6 7 Reposition the bottom cover of the radio and the microprocessor shield and replace the microprocessor shield retaining screws, tightening them to a torque of 12in.lb (1.4Nm). Refit the logic PCB, any options PCBs that were fitted and the top cover. Tighten the top cover to a torque of 15in.lb (1.8Nm). Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable. Mount the remote mounting bracket in the desired position (this must be on a flat surface), using the 2 No 6x3/4 self-tapping screws. Place the control head in the bracket, positioned for a good viewing angle, and secure in place with the 2 thumbscrews. Copyright TEL 31/12/97 8.16.6 T2000-A03/-A04/-A16 Remote Loom Kits M2000-00 8.16.3 Fitting To Remote Mounted Radios 1 Refer to Figures 8.16.2, 8.16.3 & 8.16.4. Remove the radio dummy front panel (1) by removing the 4 dummy front panel screws (4). Note:

In later T2000 radios, the radio dummy front panel is fitted with a remoting connector cover (3). This is unclipped to access the remote loom connector. When fitting a remote loom, it is therefore unnecessary to remove the dummy front panel. Unplug the old remote loom from the connector PCB (Series I chassis) or EMC fil-

ter PCB (Series II chassis). Series II chassis: Check that the top side connector (SKT-1) on the EMC filter PCB is 8 way. If not, discard the existing filter PCB and fit the new PCB provided in the kit (refer to Section 8.16.2, Fitting To Locally Mounted Radios, step (5)). If necessary, replace the old dummy front panel with the new dummy front panel, complete with remoting connector cover, provided in the kit. Pass the new remote loom through the connector cover hole in the dummy front panel, and plug the 8 way remote loom connector onto the 8 way connector (6) on the connector PCB or EMC filter PCB. T2000-A16: Fit the remote loom drain wire solder tag under one of the connector PCB or EMC filter PCB screws. Mount the dummy front panel onto the adaptor plate (2), and secure in place using the 4 dummy front panel screws. Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable. 2 Refer to Figure 8.16.1. Remove the control head remote back panel (2) by removing the 4 remote back panel screws (5), taking care not to loose the captive nuts (4). EMC model radios will also have ESD plugs (7) over the remote back panel screws. Note:

In later T2000 radios, the control head remote back panel is fitted with a remot-

ing connector cover (3). This is unclipped to access the remote loom connector. When fitting a remote loom, it is therefore unnecessary to remove the remote back panel. Unplug the old remote loom from the 8 way connector on the control head PCB (6). If necessary, replace the old remote back panel with the new remote back panel, complete with remoting connector cover, provided in the kit. Pass the new remote loom through the connector cover hole in the remote back panel, and plug the 8 way connector on the new remote loom onto the 8 way con-

nector on the control head PCB. T2000-A16: Fit the remote loom drain wire solder tag under one of the control head PCB screws. Note: Ensure that the solder tag does not make contact with any devices in the control head. 31/12/97 Copyright TEL M2000-00 T2000-A03/-A04/-A16 Remote Loom Kits 8.16.7 Fit the 2 captive M4 nuts into the slots in the remote back panel and mount the remote back panel onto the control head front assembly (1). Secure in place using the 4 remote back panel screws, and push the 4 ESD plugs

(7) over the screw heads (T2000-A16 only). Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable. Copyright TEL 31/12/97 8.16.8 T2000-A03/-A04/-A16 Remote Loom Kits M2000-00 31/12/97 Copyright TEL

 

 

Company Name ___________________________ Name ___________________________ Department ___________________________ Street or PO Box ___________________________ Town and Postcode ___________________________ Country ___________________________ Manual Product Code M___________-______-_______

Customer Services Mobile Radio Division Tait Electronics Ltd PO Box 1645 Christchurch New Zealand Fax: (64) (3) 358-3903 So that you are kept up to date with documentation relevant to this product, please fill out and return this registration form. Do you wish to be notified by your Tait subsidiary when Revision Packages are available, so that you can keep this manual up to date?

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T2000

T700

T800 Mobile Data Trunking Other

Tait Electronics Ltd 558 Wairakei Road P.O. Box 1645 Christchurch New Zealand Phone: 64 3 358-3399 Fax: 64 3 358-3636

Tait Electronics (Aust) Pty Ltd 275 Toombul Road Northgate 4013 P.O. Box 679 Virginia Queensland 4014 Australia Phone: 61 7 3865-7799 Toll Free: 1 300 304-344 Fax: 61 7 3865-7990 E-mail: helpdesk@tait.com.au

Tait Mobile Radio Ltd 14/1 Suwan Tower, Ground Floor Soi Saladaeng 1 North Sathorn Rd Bangrak Bangkok 10500 Thailand Phone: 662 267-6290 Fax: 662 267-6293 E-mail: taitthd@loxinfo.co.th

Tait Mobile Radio Ltd Ermine Business Park Ermine Road Huntingdon Cambridgeshire PE18 6YA United Kingdom Phone: 44 1480-52255 Fax: 44 1480-411996 E-mail: techsupport@tait.co.uk

Tait Electronics (USA) Inc. 9434 Old Katy Road Suite 110 Houston Texas 77055 USA Phone: 1 713 984-8684 Toll Free: 1 800 222-1255 Fax: 1 713 468-6944 E-mail: tech@taitus.com

Tait Mobilfunk GmbH Willsttterstrae 50 D-90449 Nrnberg 60 Germany Phone: 49 911 967-460 Fax: 49 911 967-4679 E-mail: tait@t-online.de

Tait Mobile Radio (Hong Kong) Ltd Room 703A New East Ocean Centre 9 Science Museum Road Tsim Sha Tsui East Hong Kong Phone: 852 2369-3040 Fax: 852 2369-3009 E-mail: 106122.2060@compuserve.com

Tait Communications Ltd Unit 4, 75 Blenheim Road P.O. Box 1185 Christchurch Phone: 64 3 348-3301 Fax: 64 3 343-0558 E-mail: nsc@tcl.tait.co.nz

Tait Electronics (Far East) Pte Ltd 4 Leng Kee Road SIS Building #05-11A Singapore 159088 Phone: 65 471-2688 Fax: 65 479-7778 E-mail: taittfe@singnet.com.sg

Tait Mobile Radio Inc. Unit 5, 158 Anderson Avenue Markham Ontario L6E1A9 Canada Phone: 1 905 472-1100 Fax: 1 905 472-5300 E-mail: 110252.44@compuserve.com

Tait Mobile Radio (Taiwan) Ltd 1104, 142 Chung Hsiao E Rd Sec 4 Taipei Taiwan Phone: 886 2 2731-1290 Fax: 886 2 2711-6351 E-mail: tait8503@ms7.hinet.net

Tait France S.A.R.L. 2 avenue de la Cristallerie 92 316 Svres, Cedex France Phone: 33 1 41 14-05-50 Fax: 33 1 41 14-05-55 E-mail: 100675.651@compuserve.com

This manual contains general, technical and servicing informa-

tion on T2000 Series II mobile two-way radios. We have published this manual in a ring binder so that revision packages containing additional information can be added as required.

Revision packages will normally be published to coincide with the release of information on a new PCB, and may also contain additions or corrections pertaining to other parts of the manual. If you return the customer registration card at the front of this manual, you will be notified when revision packages containing new PCB information and/or text are available. You may then order as many packages as you require from your local Tait Company. Revision packages are supplied ready-punched for inclusion in your manual. Each page in this manual has a date of issue. This is to comply with various Quality Standards, but will also serve to identify which pages have been updated and when. Each page and its publication date is listed in the List of Effective Pages, and a new list containing any new/revised pages and their publica-

tion dates will be sent with each revision package. Any portion of text that has been changed is marked by a verti-

cal line (as shown at left) in the outer margin of the page. Where the removal of an entire paragraph means there is no text left to mark, an arrow (as shown at left) will appear in the outer mar-

gin. The number beside the arrow will indicate how many para-

graphs have been deleted. The manual issue and revision status are indicated by the last three digits of the manual product code. These digits start at 100 and will increment through 101, 102, 103, etc., as revision pack-

ages are published, e.g:

3 0 1 issue status revision status Thus, Issue 301 indicates the first revision to issue 3, and means that one package should have been added to the manual. The issue digit will only change if there is a major product revision, or if the number of revision packages to be included means that the manual becomes difficult to use, at which point a new issue manual will be published in a new ring binder. PCB information is provided for all current issue PCBs, as well as all previous issue PCBs manufactured in production quanti-

ties, and is grouped according to PCB. Thus, you will find the parts list, grid reference index (if necessary), PCB layouts and circuit diagram(s) for each individual PCB grouped together.

2

If you find an error in this manual, or have a suggestion on how it might be improved, please do not hesitate to contact the Tech-

nical Writer, Product Support Group, Tait Mobile Radio Divi-

sion, Tait Electronics Ltd, P.O. Box 1645, Christchurch, New Zealand.

## $ Any enquiries regarding this manual or the equipment it describes should be addressed in the first instance to your nearest approved Tait Dealer or Service Centre. Further tech-

nical assistance may be obtained from the Product Support Group, Tait Mobile Radio Division, Tait Electronics Ltd, Christchurch, New Zealand.

%&(&! In the interests of improving performance, reliability or servicing, Tait Electronics Ltd reserve the right to update their equipment and/or manuals without prior notice.

)& All information contained in this manual is the property of Tait Electronics Ltd. All rights are reserved. This manual may not, in whole or part, be copied, photocopied, reproduced, translated stored or reduced to any electronic medium or machine readable form without prior written permission from Tait Electronics Ltd.

*# Service Manuals should be ordered from your nearest Tait Branch or approved Dealer. When ordering, quote the Tait product code and, where applicable, the version.

*$ M2000-00-300 T2000 Series II Service Manual Issue 300 published January 1997 Issue 301 published March 1998

,*# The total number of pages in this Manual is 484, as listed below.

Page Issue Date 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 1.10 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.13 2.14 2.15 2.16 2.17 31/12/97 31/12/97 31/10/96 31/10/96 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/10/96 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/12/97 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 2.18 2.19 2.20 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 5.11 5.12 5.13 5.14 5.15 5.16 31/10/96 31/10/96 blank 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/12/97 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96

5.17 5.18 5.19 5.20 5.21 5.22 5.23 5.24 5.25 5.26 5.27 5.28 5.29 5.30 5.31 5.32 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 7.1 7.2 7.3 7.4 7.1.1 7.1.2 7.1.3 7.1.4 7.1.5 7.1.6 7.1.7 7.1.8 7.1.9 7.1.10 7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 7.2.7 7.2.8 7.2.9 7.2.10 7.3.1 7.3.2 7.3.3 7.3.4 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/12/97 31/12/97 31/10/96 31/10/96 31/12/97 31/12/97 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) 31/10/96 (fold-out) 31/10/96 31/10/96 31/10/96 31/10/96

7.3.5 7.3.6 7.3.7 7.3.8 7.3.9 7.3.10 7.4.1 7.4.2 7.4.3 7.4.4 7.4.5 7.4.6 7.4.7 7.4.8 7.4.9 7.4.10 7.5.1 7.5.2 7.5.3 7.5.4 7.5.5 7.5.6 7.5.7 7.5.8 7.5.9 7.5.10 7.6.1 7.6.2 7.6.3 7.6.4 7.6.5 7.6.6 7.6.7 7.6.8 7.6.9 7.6.10 7.6.11 7.6.12 7.6.13 7.6.14 7.6.15 7.6.16 7.6.17 7.6.18 7.6.19 7.6.20 7.7.1 7.7.2 7.7.3 7.7.4 7.7.5 7.7.6 7.7.7 7.7.8 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) 31/10/96 (fold-out) 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) 31/10/96 (fold-out) 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) 31/10/96 (fold-out) 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 (fold-out) blank 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96

7.7.9 7.7.10 7.8.1 7.8.2 7.8.3 7.8.4 7.8.5 7.8.6 7.9.1 7.9.2 7.9.3 7.9.4 7.9.5 7.9.6 7.9.7 7.9.8 7.9.9 7.9.10 7.9.11 7.9.12 7.10.1 7.10.2 7.10.3 7.10.4 7.10.5 7.10.6 7.10.7 7.10.8 7.10.9 7.10.10 7.10.11 7.10.12 7.10.13 7.10.14 7.10.15 7.10.16 7.10.17 7.10.18 7.10.19 7.10.20 7.10.21 7.10.22 7.10.23 7.10.24 7.10.25 7.10.26 7.10.27 7.10.28 7.10.29 7.10.30 7.11.1 7.11.2 7.11.3 7.11.4 31/10/96 (fold-out) blank 31/10/96 blank 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 blank 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 (fold-out) blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 (fold-out) 31/10/96 (fold-out) 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 (fold-out) 31/12/97 (fold-out) 31/12/97 (fold-out) blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 (fold-out) 31/12/97 (fold-out) 31/12/97 (fold-out) blank 31/10/96 31/10/96 31/10/96 31/10/96

. 7.11.5 7.11.6 7.11.7 7.11.8 7.11.9 7.11.10 7.11.11 7.11.12 7.11.13 7.11.14 7.11.15 7.11.16 7.11.17 7.11.18 7.11.19 7.11.20 7.11.21 7.11.22 7.11.23 7.11.24 7.12.1 7.12.2 7.12.3 7.12.4 7.12.5 7.12.6 7.13.1 7.13.2 7.13.3 7.13.4 7.13.5 7.13.6 7.14.1 7.14.2 7.14.3 7.14.4 7.14.5 7.14.6 7.14.7 7.14.8 7.15.1 7.15.2 7.15.3 7.15.4 7.15.5 7.15.6 7.16.1 7.16.2 7.16.3 7.16.4 7.16.5 7.16.6 7.17.1 7.17.2 31/10/96 31/10/96 31/10/96 (fold-out) 31/10/96 (fold-out) 31/10/96 (fold-out) blank 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 (fold-out) 31/12/97 (fold-out) 31/12/97 (fold-out) blank 31/12/97 (fold-out) blank 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/12/97 blank 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 (fold-out) blank 31/12/97 blank 31/10/96 31/10/96 31/10/96 blank 31/12/97 blank

7.17.3 7.17.4 7.17.5 7.17.6 8.1 8.2 8.1.1 8.1.2 8.1.3 8.1.4 8.1.5 8.1.6 8.1.7 8.1.8 8.1.9 8.1.10 8.1.11 8.1.12 8.1.13 8.1.14 8.1.15 8.1.16 8.1.17 8.1.18 8.1.19 8.1.20 8.1.21 8.1.22 8.1.23 8.1.24 8.2.1 8.2.2 8.3.1 8.3.2 8.3.3 8.3.4 8.4.1 8.4.2 8.5.1 8.5.2 8.5.3 8.5.4 8.6.1 8.6.2 8.6.3 8.6.4 8.7.1 8.7.2 8.7.3 8.7.4 8.8.1 8.8.2 8.8.3 8.8.4 31/10/96 31/10/96 31/10/96 blank 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96

8.8.5 8.8.6 8.8.7 8.8.8 8.9.1 8.9.2 8.10.1 8.10.2 8.10.3 8.10.4 8.10.5 8.10.6 8.10.7 8.10.8 8.10.9 8.10.10 8.11.1 8.11.2 8.11.3 8.11.4 8.11.5 8.11.6 8.11.7 8.11.8 8.11.9 8.11.10 8.11.11 8.11.12 8.11.13 8.11.14 8.11.15 8.11.16 8.11.17 8.11.18 8.12.1 8.12.2 8.12.3 8.12.4 8.12.5 8.12.6 8.12.7 8.12.8 8.12.9 8.12.10 8.12.11 8.12.12 8.12.13 8.12.14 8.13.1 8.13.2 8.13.3 8.13.4 8.13.5 8.13.6 31/10/96 31/10/96 31/10/96 blank 31/10/96 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 fold-out blank 31/10/96 fold-out blank 31/10/96 31/10/96 31/10/96 31/10/96 31/12/97 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97

0 8.16.7 8.16.8 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 31/12/97 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96

8.13.7 8.13.8 8.14.1 8.14.2 8.14.3 8.14.4 8.14.5 8.14.6 8.14.7 8.14.8 8.14.9 8.14.10 8.14.11 8.14.12 8.14.13 8.14.14 8.14.15 8.14.16 8.14.17 8.14.18 8.14.19 8.14.20 8.14.21 8.14.22 8.14.23 8.14.24 8.14.25 8.14.26 8.14.27 8.14.28 8.15.1 8.15.2 8.15.3 8.15.4 8.15.5 8.15.6 8.15.7 8.15.8 8.15.9 8.15.10 8.15.11 8.15.12 8.15.13 8.15.14 8.15.15 8.15.16 8.15.17 8.15.18 8.16.1 8.16.2 8.16.3 8.16.4 8.16.5 8.16.6 31/12/97 blank 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 31/10/96 fold-out blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 blank 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97 31/12/97

1

2 $

1.1 1.2 Introduction . 1.2 Specifications . 1.3 Introduction. 1.3 1.2.1 General. 1.3 1.2.2 Receiver Performance . 1.5 1.2.3 1.2.4 Transmitter Performance . 1.7 Frequency Reference . 1.8 1.2.5 1.2.6 Trunking . 1.9 1.2.6.1 T2030, T2035, T2040 & T2050 Models . 1.9 1.2.6.2 T2060 Model . 1.9 1.3 Operating Instructions . 1.9 1.4 Product Codes . 1.10

)##& 2.1 Design Overview . 2.2 2.2 Synthesiser . 2.3 2.3 Audio & Regulators. 2.4 2.4 2.5 2.6 2.7 2.8 2.9 TCXO/TX Audio PCB. 2.4 IF PCB . 2.5 T2000-100 & -400 RF PCB . 2.6 T2000-100 & -400 Receiver . 2.6 2.6.1 T2000-100 & -400 Exciter . 2.7 2.6.2 2.6.3 T2000-100 & -400 Power Amplifier . 2.7 T2000-200 RF PCB . 2.8 T2000-200 Receiver. 2.8 2.7.1 T2000-200 Exciter . 2.9 2.7.2 2.7.3 T2000-200 Power Amplifier . 2.9 T2000-300 RF PCB . 2.10 T2000-300 Receiver. 2.10 2.8.1 2.8.2 T2000-300 Exciter . 2.11 T2000-300 Power Amplifier . 2.11 2.8.3 T2000-500, T2000-600, T2000-700, -900 & -000 RF PCB. 2.12 T2000-500, -600, -700, -900 & -000 Receiver . 2.12 2.9.1 T2000-500, -600, -700 -900 & -000 Exciter . 2.13 2.9.2 2.9.3 T2000-500, -600, -700, -900 & -000 Power Amplifier. 2.13

2.10 T2000-800 RF PCB . 2.14 T2000-800 Receiver. 2.14 T2000-800 Exciter . 2.15 T2000-800 Power Amplifier . 2.15 2.10.1 2.10.2 2.10.3 2.11 Control Module . 2.16 T2010 & T2015 HC05 Logic PCB . 2.16 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB . 2.19 2.11.1 2.11.2

$## 3.1 Servicing Precautions . 3.2 Caution: Accidental Transmit . 3.2 3.1.1 Caution: Antenna Loading . 3.2 3.1.2 3.1.3 Caution: Beryllium Oxide & Power Transistors . 3.2 Caution: CMOS Devices . 3.2 3.1.4 3.1.5 Caution: Screw Head Types . 3.3 3.2 Disassembly Instructions . 3.5 To Gain Access To The Logic PCB. 3.5 3.2.1 To Remove The Bottom Cover And Microprocessor Shield . 3.5 3.2.2 3.2.3 To Detach The Control Head . 3.6 3.2.3.1 Locally Mounted Models . 3.6 3.2.3.2 Remotely Mounted Models . 3.6 3.2.4 To Disassemble The Control Head . 3.7 3.2.4.1 T2010, T2015, T203X & T2060 Radios . 3.7 3.2.4.2 T2020, T2040 & T2050 Radios . 3.9 To Detach The EMC Filter PCB . 3.11 3.2.5 3.2.6 To Remote A Locally Mounted T2020, T2040 & T2050 . 3.11 3.3 Power Amplifier - Special Instructions . 3.12 To Replace PA Transistors . 3.12 3.3.1 3.3.2 To Remove Case Mica Capacitors . 3.12 3.4 Repair . 3.13 Surface Mount Devices . 3.13 3.4.1 Surface Mount Device (SMD) Precautions. 3.13 3.4.1.1 3.4.1.2 Servicing Equipment Required . 3.13 3.4.1.3 Removal & Replacement Of SMD Components . 3.15 3.4.1.4 Common Causes Of SMD Failure . 3.17 3.4.2 Leaded Component Removal. 3.17 3.4.2.1 Desoldering Iron Method . 3.17 3.4.2.2 Component Cutting Method . 3.18 3.5 Programming . 3.18

3# 4.1 Test Equipment Required. 4.2 4.2 Connecting The Radio. 4.3

4.3 Trunked Radios . 4.4 Trunking System Check . 4.4 4.3.1

4.4 Receiver Performance Tests . 4.5 To Check The Squelch Operation. 4.5 To Check The Squelch Ratio . 4.5 To Check The Audio Output Level And Distortion . 4.6 To Check The Sinad Sensitivity . 4.6 To Check The Signal+Noise To Noise Ratio. 4.7 To Check The Ultimate Signal To Noise Ratio. 4.7 RSSI. 4.7 To Check The Operation Of The Noise Blanker . 4.8 4.4.1 4.4.2 4.4.3 4.4.4 4.4.5 4.4.6 4.4.7 4.4.8 4.5 Transmitter Performance Tests . 4.9 4.5.1 Audio Processor . 4.9 4.5.1.1 To Check The Limiter Circuit Operation . 4.9 4.5.1.2 To Check The Audio ALC Operation . 4.9 4.5.1.3 To Check The Gain Of The Audio Processor . 4.10 4.5.2 Modulation Characteristics. 4.10 4.5.2.1 To Check The Above Limiting Response . 4.10 4.5.2.2 To Check The Below Limiting Response . 4.10 To Check The RF Power Control Circuit . 4.11 4.5.3

3 3 5.1 Servicing Warning . 5.2 5.2 Visual Checks . 5.2 5.3 Component Checks . 5.2 Transistor Check. 5.2 Integrated Circuit (IC) Check . 5.2 5.3.1 5.3.2 5.4 DC Checks. 5.3 5.5 Receiver RF Checks . 5.4 VCO Frequency . 5.4 Control Line Voltages . 5.4 RF Sensitivity . 5.5 5.5.1 5.5.2 5.5.3 5.6 5.7 5.8 Transmitter RF Checks . 5.5 Trunked Radios: System Check . 5.6 5.7.1 Base Station Check . 5.6 5.7.1.1 T2030 Radios . 5.6 5.7.1.2 T2040 Radios . 5.6 Base Station Control Channel Hunt. 5.6 5.7.2 Trunked Radios: Test Mode . 5.7 5.8.1 Test Mode Overview . 5.7 5.8.2 Manual Test Mode (MTM) . 5.7 5.8.2.1 T2030 & T2035 MTM Operation. 5.8

5.8.2.2 T2040 & T2050 MTM Operation. 5.9 5.8.3 Computer Controlled Test Mode (CCTM) . 5.9 5.8.3.1 CCTM Selection . 5.10 5.8.3.2 CCTM Protocol. 5.10 5.8.4 Power-Up State. 5.11 5.8.5 Test Facilities Available. 5.11 5.8.5.1 Resetting The Radio. 5.11 5.8.5.2 Test Facilities Table . 5.12 5.8.6 Trunked Radios: Radio Mode/Status Display Codes . 5.15 5.9 Options Interface Specifications . 5.17 5.10 Fault Finding Charts . 5.20 Radio Wont Switch On. 5.21 5.10.1 Radio Wont Program . 5.22 5.10.2 Synthesiser Faults. 5.23 5.10.3 Receiver Front End Faults. 5.24 5.10.4 Receiver IF Faults . 5.25 5.10.5 5.10.6 Receiver Mute Faults . 5.26 5.10.7 No Audio On Receive . 5.27 5.10.8 Transmitter RF Low Power Faults. 5.28 5.10.9 Transmitter Power Control Faults. 5.30 5.10.10 Transmit Audio Absent. 5.31 5.10.11 Trunked Radios: Radio Wont Acquire A Control Channel . 5.32

4!5 6.1 6.2 6.3 6.4 Tuning Precautions . 6.2 Tuning & Adjustment Points . 6.3 Trunked Radios . 6.5 Transmitter Adjustments . 6.5 6.4.1 Power Output . 6.5 TCXO Alignment . 6.6 6.4.2 Dual Point Modulation Adjustment . 6.6 6.4.3 6.4.4 CTCSS Modulation Adjustment . 6.7 6.4.5 LTR Code Deviation Adjustment. 6.7 6.4.6 Modulation Adjustment . 6.7 Selcall Tone Deviation . 6.8 6.4.7 6.4.8 FFSK Adjustment (Trunked Models Only) . 6.8 6.4.8.1 T203X Radios . 6.8 6.4.8.2 T2040 Radios . 6.8 6.5 Receiver Adjustments . 6.9 RF Alignment . 6.9 Internal Mute Control . 6.10 RSSI . 6.10 L Level Set-Up (Trunked Radios Only) . 6.10 6.5.1 6.5.2 6.5.3 6.5.3.1

)6$

7.1 7.2 7.3 7.4 7.5 7.6 T2000-100 RF PCB Parts List . IPN 220-01331-02 . 7.1.1 Mechanical & Miscellaneous Parts . ". 7.1.4 Grid Reference Index. ". 7.1.5 PCB Layout - Top. ". 7.1.7 PCB Layout - Bottom. ". 7.1.8 Circuit . ". 7.1.9 T2000-200 RF PCB Parts List . IPN 220-01202-10 . 7.2.1 Mechanical & Miscellaneous Parts . ". 7.2.4 Grid Reference Index. ". 7.2.5 PCB Layout - Top. ". 7.2.7 PCB Layout - Bottom. ". 7.2.8 Circuits . ". 7.2.9 T2000-300 RF PCB Parts List . IPN 220-01314-01 . 7.3.1 Mechanical & Miscellaneous Parts . ". 7.3.4 Grid Reference Index. ". 7.3.5 PCB Layout - Top. ". 7.3.7 PCB Layout - Bottom. ". 7.3.8 Circuits . ". 7.3.9 T2000-400 RF PCB Parts List . IPN 220-01204-11 . 7.4.1 Mechanical & Miscellaneous Parts . ". 7.4.4 Grid Reference Index. ". 7.4.5 PCB Layout - Top. ". 7.4.7 PCB Layout - Bottom. ". 7.4.8 Circuits . ". 7.4.9 T2000-500/-600 RF PCB Parts List . IPN 220-01205-14 . 7.5.1 Mechanical & Miscellaneous Parts . ". 7.5.6 Grid Reference Index. ". 7.5.7 PCB Layout - Top. ". 7.5.9 PCB Layout - Bottom. ". 7.5.10 Circuits . ". 7.5.11 T2000-700/-900 RF PCB Parts List . IPN 220-01289-02 . 7.6.1 Mechanical & Miscellaneous Parts . ". 7.6.4 Grid Reference Index. ". 7.6.5 PCB Layout - Top. ". 7.6.7 PCB Layout - Bottom. ". 7.6.8 Circuit . ". 7.6.9

7.7 7.8 7.9 7.9 T2000-800 RF PCB Parts List . IPN 220-01305-03 . 7.7.1 Mechanical & Miscellaneous Parts . " . 7.7.4 Grid Reference Index . " . 7.7.5 PCB Layout - Top . " . 7.7.7 PCB Layout - Bottom. " . 7.7.8 Circuits . " . 7.7.9 T2000 IF PCB Parts List . IPN 220-01384-00 . 7.8.1 PCB Layout - Top . " . 7.8.3 PCB Layout - Bottom. " . 7.8.4 Circuits . " . 7.8.5 T2000 TCXO/TX Audio PCB Parts List . IPN 220-01389-00 . 7.9.1 PCB Layout - Top . " . 7.9.3 PCB Layout - Bottom. " . 7.9.4 Circuits . " . 7.9.5 T2000 TCXO/TX Audio PCB Parts List . IPN 220-01389-02 . 7.9.7 PCB Layout - Top. " . 7.9.9 PCB Layout - Bottom. " . 7.9.10 Circuits . " . 7.9.11 7.10 T2010 & T2015 HC05 Logic PCB Parts List . IPN 220-01377-01 . 7.10.1 Mechanical & Miscellaneous Parts . " . 7.10.4 Grid Reference Index . " . 7.10.5 PCB Layout - Top . " . 7.10.7 PCB Layout - Bottom. " . 7.10.8 Circuit . " . 7.10.9 7.10 T2010 & T2015 HC05 Logic PCB Parts List . IPN 220-01377-02 . 7.10.11 Mechanical & Miscellaneous Parts . " . 7.10.14 Grid Reference Index . " . 7.10.15 PCB Layout - Top. " . 7.10.17 PCB Layout - Bottom. " . 7.10.18 Circuit . " . 7.10.19 7.10 T2010 & T2015 HC05 Logic PCB Parts List . IPN 220-01377-03 . 7.10.21 Mechanical & Miscellaneous Parts . " . 7.10.24 Grid Reference Index . " . 7.10.25 PCB Layout - Top. " . 7.10.27 PCB Layout - Bottom. " . 7.10.28 Circuit . " . 7.10.29

7.11 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB Parts List . IPN 220-01344-02 . 7.11.1 Mechanical & Miscellaneous Parts . ". 7.11.4 Grid Reference Index. ". 7.10.5 PCB Layout - Top. ". 7.11.7 PCB Layout - Bottom. ". 7.11.8 Circuits . ". 7.11.9 7.11 T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB Parts List . IPN 220-01344-04 . 7.11.13 Mechanical & Miscellaneous Parts . ". 7.11.16 Grid Reference Index. ". 7.10.17 PCB Layout - Top . ". 7.11.19 PCB Layout - Bottom. ". 7.11.20 Circuits. ". 7.11.21 7.12 T2010 & T2030 Control Head PCB Parts List . IPN 220-01331-02 . 7.12.1 Mechanical & Miscellaneous Parts . ". 7.12.2 PCB Layout - Top. ". 7.12.3 PCB Layout - Bottom. ". 7.12.4 Circuits . ". 7.12.5 7.13 T2015 & T2060 Control Head PCB Parts List . IPN 220-01320-01 . 7.13.1 Mechanical & Miscellaneous Parts . ". 7.13.2 PCB Layout - Top. ". 7.13.3 PCB Layout - Bottom. ". 7.13.4 Circuits . ". 7.13.5 7.14 T2020, T2040 & T2050 Control Head PCB Parts List . IPN 220-01321-04 . 7.14.1 Mechanical & Miscellaneous Parts . ". 7.14.3 PCB Layout - Top. ". 7.14.5 PCB Layout - Bottom. ". 7.14.6 Circuits . ". 7.14.7 7.15 T2035 Control Head PCB Parts List . IPN 220-01322-03 . 7.15.1 Mechanical & Miscellaneous Parts . ". 7.15.2 PCB Layout - Top. ". 7.15.3 PCB Layout - Bottom. ". 7.15.4 Circuits . ". 7.15.5 7.16 T2000 EMC Filter PCB Parts List . IPN 220-01383-01 . 7.16.1 PCB Layout - Top. ". 7.16.3 PCB Layout - Bottom. ". 7.16.4 Circuit . ". 7.16.5 7.17 T2000 Data Interface Decoupling PCB Parts List . IPN 220-01388-01 . 7.17.1 PCB Layout - Top. ". 7.17.3 PCB Layout - Bottom. ". 7.17.4 Circuit . ". 7.17.5

. 8.1 T2008 Power Supply . 8.1.1 Operation. 8.1.2 8.1.1 8.1.2 Performance Specifications. 8.1.3 Precautions . 8.1.5 8.1.3 Circuit Operation . 8.1.6 8.1.4 Installation. 8.1.8 8.1.5 8.1.6 Introduction To Servicing . 8.1.10 Setting Up The Power Supply . 8.1.12 8.1.7 Fault Finding. 8.1.14 8.1.8 Repair. 8.1.15 8.1.9 8.1.10 PCB Information. 8.1.17 8.2 Connection To External Devices . 8.2.1 Introduction . 8.2.1 Applications . 8.2.1 Connections. 8.2.2 T2010 & T2015 BCD Selection . 8.2.2 8.2.1 8.2.2 8.2.3 8.2.4 8.3 8.4 8.5 8.6 8.7 8.8 8.9 T2000-500 & T2000-600 1-7W Versions. 8.3.1 Components Required. 8.3.2 8.3.1 Fitting. 8.3.2 8.3.2 8.3.3 Set-Up . 8.3.4 Specifications . 8.3.4 8.3.4 T2000-05 Remote Speaker Kit . 8.4.1 8.4.1 Components Required. 8.4.1 Fitting. 8.4.1 8.4.2 T2000-06 Desktop Microphone Kit . 8.5.1 8.5.1 Introduction . 8.5.1 Fitting. 8.5.1 8.5.2 T2000-06 Set-Up . 8.5.1 8.5.3 8.5.4 Sensitivity . 8.5.2 T2000-07 DTMF Microphone Kit. 8.6.1 Fitting. 8.6.1 8.6.1 8.6.2 Operation. 8.6.1 T2000-07 Set-Up . 8.6.1 8.6.3 T2000-34 Selcall Kit . 8.7.1 8.7.1 Components Required. 8.7.2 Fitting. 8.7.2 8.7.2 8.7.3 Programming . 8.7.3 T2000-36 Selcall Kit . 8.8.1 Components Required. 8.8.2 8.8.1 Fitting. 8.8.2 8.8.2 8.8.3 PCB Information. 8.8.4 T2000-40 DTMF Kit . 8.9.1 Fitting. 8.9.1 8.9.1 8.9.2 Programming . 8.9.1

8.10 T2000-A450X CTCSS & Scrambler Kit . 8.10.1 8.10.1 Components Required. 8.10.2 Fitting . 8.10.2 8.10.2 T2000-A450X Link Options. 8.10.3 8.10.3 8.10.4 PCB Information. 8.10.5 8.11 T2000-50 Handsfree Kit. 8.11.1 8.11.1 Components Required. 8.11.2 8.11.2 Fitting . 8.11.2 Fitting The Complete Unit In The Vehicle . 8.11.3 8.11.3 T2000-50 Set-Up . 8.11.5 8.11.4 8.11.5 Signal Specifications. 8.11.7 8.11.6 Specifications. 8.11.8 8.11.7 Circuit Description . 8.11.8 8.11.8 PCB Information. 8.11.10 8.12 T2000-60 Dual Port UART Kit . 8.12.1 8.12.1 Components Required. 8.12.2 Fitting . 8.12.3 8.12.2 T2000-60 Link Options. 8.12.4 8.12.3 8.12.4 T2000-60 Set-Up . 8.12.5 Signal Specifications. 8.12.7 8.12.5 8.12.6 PCB Information. 8.12.9 8.13 T2000-A66 Single Port UART Kit. 8.13.1 8.13.1 Components Required. 8.13.2 Fitting . 8.13.2 8.13.2 8.13.3 Signal Specifications. 8.13.3 PCB Information. 8.13.4 8.13.4 8.14 T2000-80 Line Interface Kit. 8.14.1 8.14.1 Components Required. 8.14.2 Fitting . 8.14.2 8.14.2 Line Interface Options . 8.14.4 8.14.3 8.14.4 T2000-80 Set-Up . 8.14.7 8.14.5 Signal Specifications. 8.14.9 8.14.6 Applications . 8.14.10 8.14.7 Specifications. 8.14.16 8.14.8 Circuit Description . 8.14.18 8.14.9 PCB Information. 8.14.21 8.15 T2000-A70 Data Modem Kit. 8.15.1 8.15.1 Components Required. 8.15.2 8.15.2 Fitting . 8.15.2 T2000-A70 Link Options . 8.15.4 8.15.3 Signal Specifications. 8.15.5 8.15.4 8.15.5 Programming . 8.15.6 8.15.6 Circuit Description . 8.15.12 8.15.7 PCB Information. 8.15.13 8.16 T2000-A03/-A04/-A16 Remote Loom Kits . 8.16.1 8.16.1 Components Required. 8.16.2 Fitting To Locally Mounted Radios . 8.16.2 8.16.2 8.16.3 Fitting To Remote Mounted Radios. 8.16.6

0

7

0 9.1 9.2 Identifying The Software Version Number . 9.2 Software History . 9.3 T2010 & T2015 Radios . 9.3 9.2.1 T2020 Radios . 9.4 9.2.2 T2030 & T3035 Radios . 9.5 9.2.3 9.2.4 T2040 Radios . 9.6 T2050 Radios . 9.7 9.2.5 9.2.6 T2060 Radios . 9.8

,*$ T2000 TCXO/TX Audio PCB Block Diagram . 2.4 Figure 2.1 T2000 IF PCB Block Diagram . 2.5 Figure 2.2 T2000-100 & -400 RF PCB Block Diagram . 2.6 Figure 2.3 T2000-200 RF PCB Block Diagram. 2.8 Figure 2.4 T2000-300 RF PCB Block Diagram. 2.10 Figure 2.5 T2000-500, -600, -700, -900 & -000 RF PCB Block Diagram . 2.12 Figure 2.6 T2000-800 RF PCB Block Diagram. 2.14 Figure 2.7 T2010 & T2030 Control Head Block Diagram . 2.17 Figure 2.8 T2015 & T2060 Control Head Block Diagram . 2.17 Figure 2.9 T2020, T2040 & T2050 Control Head. 2.18 Figure 2.10 Anti-Static Bench Set-Up. 3.2 Figure 3.1 Screwdriver Identification . 3.3 Figure 3.2 T2000 Series II Radio Assembly . 3.4 Figure 3.3 T2010, T2015 & T203X Control Head Assembly . 3.7 Figure 3.4 T2020, T2040 & T2050 Control Head Assembly - Locally Mounted. 3.9 Figure 3.5 T2020, T2040 & T2050 Control Head Assembly - Remotely Mounted. 3.10 Figure 3.6 EMC Filter PCB Mounting . 3.11 Figure 3.7 Identifying SMD Components . 3.14 Figure 3.8 SMD Soldering Guide . 3.16 Figure 3.9 Suggested Test Equipment Set-Up . 4.3 Figure 4.1 RF Test Cable . 5.5 Figure 5.1 RF & TXCO/Tx Audio PCBs - Tuning & Adjustment Points . 6.4 Figure 6.1 Receiver Tuning Amplifier . 6.9 Figure 6.2 T2008 Float Charging Protection Circuit . 8.1.9 Figure 8.1.1 T2008 Typical Waveforms . 8.1.15 Figure 8.1.2 T2000-500/600 PA - Top Side. 8.3.2 Figure 8.3.1 T2000-500/600 PA - Bottom Side . 8.3.3 Figure 8.3.2 T2000-500/600 PA - Bottom Side . 8.3.3 Figure 8.3.3 T2000 Power Connector . 8.4.2 Figure 8.4.1 T2000-34 Selcall PCB Mounting - T2010 & T2015 Logic PCB . 8.7.3 Figure 8.7.1 Figure 8.8.1 T2000-36 Selcall PCB Mounting . 8.8.2 Figure 8.10.1 T2000-A450X PCB Mounting . 8.10.2 Figure 8.11.1 T2000-50 Handsfree PCB Mounting . 8.11.2 Figure 8.11.2 T2000-50 Test Equipment Set-Up. 8.11.5

1

Figure 8.11.3 T2000-50 9 Way D-Range Connector (S21) . 8.11.7 Figure 8.12.1 T2000-60 UART PCB Mounting . 8.12.3 Figure 8.12.2 T2000-60 Test Equipment Set-Up. 8.12.5 Figure 8.12.3 T2000-60 15 Way D-Range connector (S21) . 8.12.8 Figure 8.13.1 T2000-A66 Single Port UART PCB Mounting . 8.13.3 Figure 8.13.2 9 Way D-Range Connector (SKT1). 8.13.3 Figure 8.14.1 T2000-80 Line Interface PCB Mounting (T2010/T2015 shown) . 8.14.2 Figure 8.14.2 T2000-80 Test Equipment Set-Up. 8.14.7 Figure 8.14.3 T2000-80 15 Way D-Range connector (S21) . 8.14.9 Figure 8.14.4 T2000-80 Line Interface PCB Block Diagram . 8.14.18 Figure 8.15.1 T2000-A70 PCB Mounting. 8.15.2 Figure 8.15.2 T2000-A70 Data Modem PCB Mounting . 8.15.3 Figure 8.15.3 Data Interface Decoupling PCB Mounting: Series I Chassis . 8.15.3 Figure 8.15.4 Data Interface Decoupling PCB Mounting: Series II Chassis . 8.15.4 Figure 8.15.5 9 Way D-Range Connector (SKT1) . 8.15.5 Figure 8.16.1 Remote Control Head Assembly . 8.16.3 Figure 8.16.2 Connector PCB Mounting . 8.16.4 Figure 8.16.3 EMC FIlter PCB Mounting . 8.16.4 Figure 8.16.4 Dummy Front Panel Assembly . 8.16.5

,* Table 5.1 Table 5.2 Table 5.3 Table 5.4 Table 5.5 Table 5.6 Table 6.1 Table 8.15.1 Table 8.15.2 Table 8.15.3 Table 8.15.4 T2000 Test Facilities . 5.13 Radio Mode/Status Display . 5.16 Options Connectors - Audio Signal Specifications . 5.17 Options Connectors - Supply Voltage Specifications . 5.17 Options Connectors - Logic Signal Specifications . 5.18 BCD Channel Selection (T2010 & T2015 only) . 5.19 Tuning & Adjustment Point . 6.3 Message Format . 8.15.7 Messages To The Radio Unit . 8.15.8 Messages From The Radio Unit . 8.15.10 Software Test Commands . 8.15.11

8

2 $ This Section introduces the T2000 Series II radio, describing models and features availa-

ble and their performance. The following topics are covered in this Section:

Section Title 1.1 1.2 1.3 1.4 Introduction Specifications 1.2.1 1.2.2 1.2.3 1.2.4 1.2.5 1.2.6 1.2.6.1 1.2.6.2 Introduction General Receiver Performance Transmitter Performance Frequency Reference Trunking T2030, T2035, T2040 & T2050 Models T2060 Model Operating Instructions Product Codes Page 1.2 1.3 1.3 1.3 1.5 1.7 1.8 1.9 1.9 1.9 1.9 1.10

8

8

The T2000 Series II is a high performance mobile two way radio. It covers ten frequency bands between 66 and 870MHz, and is available in both trunked and conventional mod-

els. Operation of the T2000 is by handheld microphone, a press-to-talk switch and a range of front panel function keys. The T2020 and T2040 models are fitted with an LCD display and alphanumeric keypad. Most of the functions of the T2000 are microprocessor controlled. The system software is stored in a read only memory (ROM), while the data is stored in a non-volatile memory for ease of programming. Operational parameters can be programmed without opening the radio, via the front panel microphone socket. The T2000 uses a synthesiser with a single VCO switched between transmit and receive. A plug-in TCXO PCB is used to provide a highly stable reference frequency, and dual point modulation gives a flat modulation response at the synthesiser. The standard T2000 RF power output is 25W, except in the T2000-800 which delivers 15W. The receiver is electronically tuned across the entire frequency band and contains an IF noise blanker and RSSI facility. A maximum of 4W of audio is delivered to a 4W speaker. The RF and logic PCBs are shielded from each other in a diecast aluminium chassis, and are connected by two plug-in looms. The T2000 top and bottom covers are also diecast aluminium. There is provision within the radio to mount option PCBs and a 9 or 15 way output con-

nector which is used for options requiring connection to external equipment. Standard options include hands-free operation, line control interface, signalling and data trans-

mission. The DC supply to the radio must be negative earth and may be between 10.8 and 16V. The T2000 is protected against reversal of the DC supply and is provided with overvolt-

age protection. If further information is required about the T2000 or this Manual, it may be obtained from Tait Electronics Ltd or accredited agents. When requesting this information, please quote the equipment product code (e.g. T2010-512-002) and serial number. In the case of the Service Manual, quote the product code (e.g. M2000-00-300), and for circuit dia-

grams quote the Title, Internal Part Number (IPN) and Issue.

8

8

88

$# The performance figures given are typical figures, unless otherwise indicated, for equip-

ment operating at standard room temperature. Where applicable, the test methods used to obtain the following performance figures are those described in the European specifi-

cation ETS 300-086. Details of test methods and the conditions which apply for type approval testing in all countries can be obtained from Tait Electronics Ltd.

88 2 Modulation Type Frequency Ranges:

T2000-100 T2000-200 T2000-300 T2000-400 T2000-500 T2000-600 T2000-700 T2000-800 T2000-900 T2000-000 Frequency Increment:

All Except T2000-800 T2000-800 Number Of Channels:

T2010 T2015 T2020 Bandwidth Switching Range:

T2000-200 T2000-300 T2000-400, T2000-100 T2000-500, T2000-600 T2000-700 T2000-800 T2000-900

.. FM

.. 220 to 270MHz

.. 66 to 88MHz

.. 136 to 174MHz

.. 175 to 225MHz

.. 400 to 470MHz

.. 450 to 520MHz

.. 330 to 360MHz

.. 800 to 870MHz (Tx)

.. 851 to 870MHz (Rx)

.. 360 to 400MHz

.. 500 to 530MHz

.. 5 or 6.25kHz

.. 12.5kHz

.. 4

.. 24

.. 100

.. 7.5, 12 or 15kHz

.. 22MHz

.. 38MHz

.. 50MHz

.. 70MHz

.. 30MHz

.. 70MHz (Tx)

.. 19MHz (Rx)

.. 40MHz

8"

Tx/Rx Offset:

T2000-200 T2000-300 T2000-400, T2000-100 T2000-500, T2000-600 T2000-700 T2000-800 T2000-900 Supply Voltage:

Operating Range Standard Test Voltage Polarity Polarity & Overvoltage Protection Brown-out Recovery Supply Current:

Economy Mode Receiver:

Squelched Full Audio Transmit:

T2000-200, -300, -400, -800 T2000-500 T2000-600 T2000-100, -700, -900 T2000-000

.. 0 to 22MHz

.. 0 to 38MHz

.. 0 to 50MHz

.. 0 to 70MHz

.. 0 to 30MHz

.. 0 to 45MHz

.. 0 to 40MHz

.. 10.8V to 16V DC

.. 13.8V DC

.. negative earth

.. . <2s to full operation following supply internal transorb crowbar fluctuations below 10.8V

.. <270mA (T201X/T203X/T2060) or

<350mA (T2020/T2040/T2050)

.. 320mA (T201X/T203X/T2060) or 472mA (T2020/T2040/T2050)

.. 1.2A

.. 6A

.. 6.8A

.. 7A

.. 6.8A

.. 7.5A Tx/Rx Changeover Switching

.. solid state Operating Temperature Range

-30C to +60C ambient Programming Antenna:

Impedance Connector

.. clone or PC program via mic. socket

.. 50W

.. BNC (UHF optional on VHF radios only)

(nominal) Power/Speaker Connector

.. 7 way automotive type Options Connector Radio Unit Dimensions:

Depth Width Height Front Panel Dimensions:

Depth Width Height

.. 9 or 15 way high density D-range

(optional)

.. 150mm

.. 150mm 45mm

.. . 25mm

.. 158mm

.. 51mm

8+

Remote Control Head Dimensions:

Length Width Height Weight (radio & control head)

.. 26mm

.. 159mm

.. 51mm

.. 1.2kg

88

## Type:

All Except T2000-200 T2000-200 Sensitivity:

.. triple conversion superheterodyne

.. dual conversion superheterodyne 12dB Sinad 20dB Sinad (psophometric) 20dB Quieting

.. better than -117dBm

.. better than -113dBm

.. better than -113dBm IF Amplifiers:

Frequencies:

T2000-200 T2000-100, -300, -400 T2000-500, -600, -700, -900, -000 T2000-800

.. 10.7MHz and 455kHz

.. 27.7MHz, 10.7MHz and 455kHz

.. 49.1MHz, 10.7MHz and 455kHz

.. 61.9MHz, 10.7MHz and 455kHz First Local Oscillator Injection (with respect to signal):

T2000-200, -300 T2000-100, -400, -500, -600, -700, -800,

-900, -000

.. high side low side

.. Second Local Oscillator Injection (with respect to signal):

T2000-100, -300, -400 T2000-200, -500, -600, -700, -800, -900, -000 .. . high side low side Third Local Oscillator Injection (with respect to signal):

T2000-100, -300, -400 T2000-500, -600, -700 -800, -900, -000

.. . low side low side Bandwidth:

Narrow Band Medium Band Wide Band

.. 7.5kHz

.. 12kHz

.. 15kHz Signal-to-Noise Ratio (with respect to 100% deviation, at RF level of -47dBm):

Narrow Band Medium Band Wide Band All Except T2000-800 T2000-800

.. 45dB

.. 48dB

.. 50dB

.. 45dB

8-

Audio:

Minimum Load Impedance Rated Power (into 4W Distortion:

@ Rated Power (1kHz)

@ 0.5W (0.3 to 3.0kHz) Response Bandwidth

.. 2W

.. 4W (at 1kHz)

.. <5%

.. <3% (narrow band)

<2.5% (medium band)

<2% (wide band)

.. within +1, -3dB of 6dB/octave de-emphasis

.. 300Hz to 3kHz Selectivity

.. better than 70dB Spurious Response Attenuation All Except T2000-000, -800 T2000-000 T2000-800

.. 75dB (80dB EIA)

.. 60dB

.. 70dB (70dB EIA) Intermodulation Response Attenuation

.. 66dB (75dB EIA) Spurious Emissions

(conducted & radiated to 1GHz) Spurious Emissions

(conducted & radiated 1 to 4GHz) Blocking Co-channel Rejection:

Narrow Band Medium Band Wide Band Group Delay Squelch:

Preset Level Ratio Voting Levels

.. better than -57dBm

.. better than -47dBm

.. better than -23dBm

.. better than 9dB

.. better than 7dB

.. better than 6dB

.. 50m s (300Hz to 3kHz)

.. 11dB sinad

.. >70dB

.. >20dB sinad

(applies to T2020 only)

8.

88"

# Power Output:

Maximum:

All Except T2000-800 T2000-8000 High (high setting):

All Except T2000-800 T2000-8000 Low (low setting):

T2000-200, -300, -400 T2000-100, -500, -600, -700, -900 T2000-800 Low Power Version

. . 30W

.. 25W

.. 25W

.. 15W

.. 1 to 25W

.. 5 to 25W

.. 5 to 15W

.. 1 to 7W (T2000-500, -600) Duty Cycle (33%)

.. 2 minutes Tx, 4 minutes Rx Lock Up Time (synthesiser)

.. 25ms (from PTT to 90% output power within 2kHz, not including micro. delay) Spurious Emissions

(conducted & radiated to 1GHz) Spurious Emissions

(conducted & radiated to 1 to 4GHz)

.. better than -36dBm

.. better than -30dBm Adjacent Channel Power:

Narrow Band Medium Band Wide Band Group Delay Modulation System:

Type Deviation Limiting:

Narrow Band Medium Band Wide Band Bandwidth:

Narrow Band Medium & Wide Band Responses:

In Limiting Below Limiting Above 3kHz

-70dBc

-80dBc

.. better than -65dBc

.. . . +200/-50m s (300Hz to 3kHz)

.. direct FM

.. 2.5kHz (peak) max. . 4kHz (peak) max. . 5kHz (peak) max. . 300Hz to 2.55kHz below limiting or 450Hz to 2.55kHz in limiting

.. 300Hz to 3kHz below limiting or 450Hz to 3kHz in limiting

.. within +0dB, -4dB of maximum system deviation

.. within +1, -3dB of 6dB/octave pre-emphasis

.. greater than 25dB/octave roll-off

8/

Audio:

Microphone Type Input For 60% Deviation

.. dynamic or electret

.. 1.5mVrms maximum (at 1kHz) Distortion Hum & Noise:

All Except T2000-800:

Narrow Band Medium Band Wide Band T2000-800:

Wide Band Mismatch Capability:

Ruggedness Stability

.. 5%

.. 39dB

.. 43dB

.. 45dB

.. 40dB

.. 2 minutes transmission into infinite VSWR

.. VSWR 5:1 (all phase angles) Transmit Timer (non-trunking models)

.. programmable up to 4 minutes, or continuous.

88+

3(## Oscillator Frequency

.. 12.8MHz Crystal Stability And Source Details

.. see table below:

Product Code T2XX-XX1 T2XX-XX3*

T2XX-XX5 T2XX-XX6 Frequency Tolerance

(ppm) 5 3 2.5 2.0 Temperature Range (C) Frequency Source

-10 to +60

-30 to +60

-30 to +60

-30 to +60 TE/45 xtal VXO-2605A Module VXO-2605A-1 Module TDC 60281 Module

*. Not fitted to T2000-200 due to low modulatibility. Fitted only to 400MHz versions and above, due to low modulatibility.

88-

9

80

88-8

1 1:1 +:1"141+1 Data Modulation

.. as per MPT1317 Data Deviation (Tx: 60% full system deviation):

Narrow Band Medium Band Wide Band

88-8

1-1 System

.. 1.5kHz

.. 2.4kHz

.. 3kHz

.. LTR trunked1, systems x groups = 24 Data Deviation (Tx)

.. 1kHz

8

*&$# Refer to the Users Guide supplied with the radio. These are also available separately under the following IPNs:

T2010/T2015 T2020 T2030/T2035 T2040 T2060 459-20100-0X 459-20200-0X 459-20300-0X 459-20400-0X 459-20600-0X Comprehensive Operators Manuals are also available for T2020 and T2040 radios. These Manuals cover such topics as advanced user operations and the use of trunked radios for data applications. These are available under the following IPNs:

T2020 T2040 409-20200-0X 409-20400-0X 1. LTR is a trademark of E F Johnson & Co.

81

8"

#) The 3 groups of digits in a T2000 product code provide information about the radios model, RF type and options fitted, according to the conventions described below. The following explanation of the T2000 product codes is not intended to suggest that any combination of features is necessarily available in any one radio. For details regard-

ing availability of specific T2000 radios, consult your nearest Tait dealer or subsidiary.

The Model group indicates the basic features of the radio, as follows:

T20XX-XXX-XXX 4 channels 24 channels 100 channels 4 calls, all preset 1000 calls, including 20 preset T2010 T2015 T2020 T2030 T2035 T2040 dialled calls T2050 dual mode T2040 or T2020 operation trunked, non-trunked T2060 LTR, systems x groups = 24 trunked trunked trunked trunked

3& RF Type group uses 3 digits to indicate the basic RF configuration of the radio. The first digit in the RF Type group designates frequency band. T20XX-XXX-XXX 1 for 220 to 270MHz 2 for 66 to 88MHz 3 for 136 to 174MHz 4 for 175 to 225MHz 5 for 400 to 470MHz 6 for 450 to 520MHz 7 for 330 to 360MHz 8 for 800 to 870MHz transmit 851 to 870MHz receive 9 for 360 to 400MHz 0 for 500 to 530MHz The second digit in the RF Type group designates radio IF bandwidth. T20XX-XXX-XXX 1 for wide band (15kHz) 2 for narrow band (7.5kHz) 3 for medium band (12.5kHz) The third digit in the RF Type group designates frequency stability. T20XX-XXX-XXX refer to Frequency Reference on page 1.8.

*& T20XX-XXX-XXX The third group of digits covers a wide range of software and mar-

ket specific options. The large number of options and their frequent changes preclude listing them here.

8

)##& This Section describes the operation of the basic circuit blocks found in the T2000 radio. Refer also to the circuit diagrams in Section 7 of this Manual. The following topics are covered in this Section:

Section Title 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 Design Overview Synthesiser Audio & Regulators TCXO/TX Audio PCB IF PCB T2000-100 & -400 RF PCB T2000-100 & -400 Receiver T2000-100 & -400 Exciter T2000-100 & -400 Power Amplifier T2000-200 RF PCB T2000-200 Receiver T2000-200 Exciter T2000-200 Power Amplifier T2000-300 RF PCB T2000-300 Receiver T2000-300 Exciter T2000-300 Power Amplifier T2000-500, T2000-600, T2000-700, -900 & -000 RF PCB T2000-500, -600, -700, -900 & -000 Receiver T2000-500, -600, -700 -900 & -000 Exciter T2000-500, -600, -700, -900 & -000 Power Amplifier T2000-800 RF PCB T2000-800 Receiver T2000-800 Exciter T2000-800 Power Amplifier Control Module T2010 & T2015 HC05 Logic PCB T2020, T203X, T2040, T2050 & T2060 HC11 Logic PCB 2.6.1 2.6.2 2.6.3 2.7.1 2.7.2 2.7.3 2.8.1 2.8.2 2.8.3 2.9.1 2.9.2 2.9.3 2.10.1 2.10.2 2.10.2 2.11.1 2.11.2 Page 2.2 2.3 2.4 2.4 2.5 2.6 2.6 2.7 2.7 2.8 2.8 2.9 2.9 2.10 2.10 2.11 2.11 2.12 2.12 2.13 2.13 2.14 2.14 2.15 2.15 2.16 2.16 2.19

8

8

*7 The T2000 radio is made up of two modules, the RF module and the control module. The RF module consists of an RF PCB unique to each frequency band with common plug-in IF and TCXO/Tx audio PCBs, determining the frequency stability and reference frequency. The control module consists of a logic PCB and a control head PCB. Each con-

trol module is unique to each T2000 model, i.e. T2010, T2015, T2020, T203X, T2040 or T2050. The following circuit blocks are located in the RF module:

The synthesiser, containing the

- Tx/Rx VCO

- plug-in TCXO and Tx audio PCB

- Tx/Rx switching. The regulators and audio power amplifier. The receiver, containing the

- front end

- mixer

- noise blanker

- mute circuit

- RSSI

- plug-in IF PCB. The exciter, RF power amplifier and power control circuit. The following circuit blocks are located in the control module:

The microprocessor control circuitry. Audio processing. Control head. Options connectors (refer to Section 5.9, Options Interface Specifications).

8

8

Synthesiser IC201 (MC145158) receives channel and reference frequency information from the microprocessor via a three line serial interface:

DATA - synthesiser data: A counter: 7 bits M counter: 10 bits Ref. counter: 14 bits CLK - synthesiser clock ENABLE - synthesiser latch. Once the data has been latched in, the synthesiser IC processes the incoming signals; fin from the prescaler IC and fref from the temperature compensated crystal oscillator

(TCXO) operating at 12.8MHz. The TCXO signal is divided by the reference counter to provide 5kHz, 6.25kHz or 12.5kHz at the phase detector. IC201 generates the modulus control at the appropriate time to change the dividing factor for the prescaler. The phase detector outputs are summed and fed via the integrator to the control line. The VCO fre-

quency increases with a positive change in control line voltage. The synthesiser produces a signal called LCK-DET which is fed to the exciter after some processing to prevent transmission when the synthesiser is out of lock. The LCK-DET signal is also fed to the I/O bus of the control circuitry, where the signal is used for fea-

tures such as scanning. The time lapse between the synthesiser latch pulse and the lock detect line going low is typically 15ms (maximum is 20ms). The T2000 uses a dual point modulation system which allows the radio to be modulated at frequencies below the loop filter cut-off frequency (approximately 400Hz). In this sys-

tem, modulation is supplied to both the VCO and TCXO. When both the reference and VCO are modulated below the cut-off frequency of the loop filter, the phase detector cannot detect a difference between fin, and fref and will not generate corrective signals. The modulation bandwidth is therefore dependent only on the audio and coupling cir-

cuits.

8"

8

!4 The nominal supply voltage of the T2000 is 13.8VDC but satisfactory operation is possi-

ble from supply voltages of between 10.8 and 16V. Power for the radio is switched via the volume control and switch on the control head. Overvoltage protection is provided in the form of an 18V zener diode. This will sup-

press transient spikes but prolonged overvoltage will cause the device to fail short cir-

cuit. On the RF PCB, two regulated power supply rails of 8V and 5V are provided as well as a 30V supply from an inverter. The 30V supply is used to feed the synthesiser loop filter and the receiver front end tuning. A switched 8V line is used to enable the transmitter and disable the receiver. 13.8V is applied directly to the RF and audio power amplifiers, with the audio power amplifier rated for a standard output of 4Wrms into 4W, at a nominal supply voltage of 13.8V.

8"

);*;!)6 The TCXO/Tx audio PCB provides the temperature compensated 12.8MHz reference frequency for the synthesiser and a times-three multiplier in the receiver. The PCB also contains the Tx audio limiter, deviation level potentiometer and low pass filter. The TCXO fine frequency adjustment is provided by a ten turn potentiometer. Narrow or wide band deviation and TCXO frequency stability with temperature are determined solely by this PCB.

8+

$3)6

8+

The l0.7MHz signal from the RF PCB feeds Q104, passes through a crystal filter (Xl0l) and is amplified by Q111 and Q112 before passing through a 10.7MHz ceramic filter to a mixer/oscillator (Qll3). This 455kHz mixer output is further filtered and amplified by CF102, CF103 and Q114, then passes back to the RF PCB where it is demodulated by IC101. The RSSI function is internal to IC101. The demodulated signal is filtered and compensated on the IF PCB before passing to the logic PCB via the RF PCB. Narrow band or wide band response is determined solely by the IF PCB.

The processed transmit audio passes to the RF PCB where it is split into a VCO modula-

tion path and a TCXO modulation path. The TCXO path passes through a potentiome-

ter to enable the dual point modulation to be correctly adjusted, and then returns to the TCXO/Tx audio PCB.

8-

8-

111114"113)6

8-8

111114"11# The incoming signal from the antenna via the PIN switch passes through a high pass fil-

ter to the RF amplifier, Q101. The 50W output from the amplifier is coupled to a varicap tuned triplet which provides the spurious response rejection necessary for the first mixer. An attenuator is provided at the output to allow for fine adjustment of the front end gain. The VCO output is fed to the first double balanced mixer via a low pass filter to reduce harmonic content. The VCO signal is 27.7MHz below the RF signal and the first mixer output (at 27.7MHz) feeds the first post-mixer buffer, Q103. The output of Q103 feeds both a delay line and the noise blanker circuit.

8. L114 and L116 form a 50W delay line which provides the spurious response rejection necessary for the second mixer. L114 and L116 also provide the delay necessary for the noise blanker to detect and clamp noise pulses. The local oscillator signal of 38.4MHz for the second double balanced mixer is provided by the 12.8MHz reference via a tripler circuit, and the 10.7MHz output feeds the plug-in IF PCB. Each sub-block within the front end has been designed with 50W terminations for ease of testing and fault finding.

8-8

111114"11<# The VCO output from the PIN switch is amplified to 900mW by a two stage broad band exciter (Q301 and Q302) with approximately 22dB of gain. Q301 is operating into com-

pression to prevent changes in VCO drive affecting output power. This output power is controlled by varying the collector voltage on Q302, via Q303, Q304 and the feedback loop from the PA. The power settings (maximum, high and low) are under microprocessor control and are set for each channel by programming. R308, R309, R310 and R313 form a 2dB attenuator, reducing the output to approximately 550mW and also providing good isolation between the exciter and PA.

8-8

111114"117!& The 550mW exciter output is amplified to 30W by Q305 and Q306. Q305 has a small amount of bias applied (via R319, D302, R322 and R315) to provide stability at low power levels. The T2000-100 power amplifier has no tuning, and when the output power is set to 25W the variation across the 50MHz switching range should be less than 2W. The high level RF signal passes via the Tx/Rx PIN switch, the low pass filter and direc-

tional coupler to the antenna connector. The power level is sensed by D301 on the direc-

tional coupler and this voltage is fed back to the power control operational amplifier via RV324. RV324 on the RF PCB sets the high power and RV507 on the logic PCB will adjust the low power.

8/

8.

111113)6

8.8

11111# The incoming signal from the antenna via the PIN switch passes through a high pass fil-

ter to the RF amplifier, Q101. The 50W output from the amplifier is coupled to a varicap tuned triplet that provides the spurious response rejection necessary for the first mixer. An attenuator is provided at the output to allow for fine adjustment of the front end gain. The VCO output is fed to the first double balanced mixer via a low pass filter to reduce harmonic content. The VCO signal is 10.7MHz above the RF signal and the first mixer output (at 10.7MHz) feeds the first post-mixer buffer, Q103. The output of Q103 feeds both a delay line and the noise blanker circuit.

80 L114 and L116 form a 50W delay line that provides the delay necessary for the noise blanker to detect and clamp noise pulses and also provides a high impedance point for the signal to be clamped. The 10.7MHz output feeds the plug-in IF PCB through R128, R129 and R132 which pro-

vide the attenuation equivalent to the second mixer of the T2000-300, T2000-400, T2000-

500 or T2000-600. Each sub-block within the front end has been designed with 50W of testing and fault finding. terminations for ease

8.8

11111<# The VCO output from the PIN switch is amplified to 500mW by a two stage broad band exciter (Q301 and Q302) with approximately 2ldB of gain. Q301 is operating into com-

pression to prevent changes in VCO drive affecting output power. This output power is controlled by varying the collector voltage on Q302, via Q303, Q304 and the feedback loop from the PA. The power settings (maximum, high and low) are under microproces-

sor control and are set for each channel by programming. R308A, R308, R309 and R310 provide approximately 1dB of attenuation and isolation between the exciter and power amplifier.

8.8

111117!& The 500mW exciter output is amplified to 30W by Q305 and Q306. The T2000-200 power amplifier has no tuning, and when the output power is set to 25W the variation across the 22MHz switching range should be less than 2W. The high level RF signal passes via the Tx/Rx PIN switch, the low pass filter and the directional coupler to the antenna connector. The power level is sensed by D301 on the directional coupler and this voltage is fed back to the power control operational ampli-

fier via RV324. RV324 on the RF PCB sets the high power and RV507 on the logic PCB will adjust the low power.

81

8/

111 113)6

8/8

111 11# The incoming signal from the antenna via the PIN switch passes through a high pass fil-

ter to the RF amplifier, Q101. The 50W output from the amplifier is coupled to a varicap tuned triplet which provides the spurious response rejection necessary for the first mixer. An attenuator is provided at the output to allow for fine adjustment of the front end gain. The VCO output is fed to the first double balanced mixer via a low pass filter to reduce harmonic content. The VCO signal is 27.7MHz above the RF signal and the first mixer output (at 27.7MHz) feeds the first post-mixer buffer, Q103. The output of Q103 feeds both a delay line and the noise blanker circuit.

8 L114 and L116 form a 50W delay line which provides the spurious response rejection necessary for the second mixer. L114 and L116 also provide the delay necessary for the noise blanker to detect and clamp noise pulses. The local oscillator signal of 38.4MHz for the second double balanced mixer is provided by the l2.8MHz reference via a tripler circuit, and the 10.7MHz output feeds the plug-in IF PCB. Each sub-block within the front end has been designed with 50W of testing and fault finding. terminations for ease

8/8

111 11<# The VCO output from the PIN switch is amplified to 1W by a two stage broad band exciter (Q301 and Q302) with approximately 22dB of gain. Q301 is operating into com-

pression to prevent changes in VCO drive affecting output power. This output power is controlled by varying the collector voltage on Q302, via Q303, Q304 and the feedback loop from the PA. The power settings (maximum, high and low) are under microprocessor control and are set for each channel by programming. R308, R309, R310 and R313 form a 2.7dB attenuator, reducing the output to approxi-

mately 550mW and also providing good isolation between the exciter and PA.

8/8

111 117!& The 550mW exciter output is amplified to 30W by Q305 and Q306. Q305 has a small amount of bias applied (via R319, D302, R322 and R315) to provide stability at low power levels. The T2000-300 power amplifier has no tuning, and when the output power is set to 25W the variation across the 38MHz switching range should be less than 2W. The high level RF signal passes via the Tx/Rx PIN switch, the low pass filter and direc-

tional coupler to the antenna connector. The power level is sensed by D301 on the direc-

tional coupler and this voltage is fed back to the power control operational amplifier via RV324. RV324 on the RF PCB sets the high power and RV507 on the logic PCB will adjust the low power.

8

80

111+11:111-11:111.11:01141113

)6

808

111+11:-11:.11:0114111# The incoming signal from the antenna via the PIN switch passes through a high pass fil-

ter to the RF amplifier, Q101. The 50W output from the amplifier is coupled to a varicap tuned triplet which provides the spurious response rejection necessary for the first mixer. An attenuator is provided at the output to allow for fine adjustment of the front end gain.

8 The VCO output is fed to the first double balanced mixer via a low pass filter to reduce harmonic content. The VCO signal is 49.lMHz below the RF signal and the first mixer output (at 49.lMHz) feeds the first post-mixer buffer, Q103. The output of Q103 feeds both a delay line and the noise blanker circuit. L114 and L116 form a 50W delay line which provides the spurious response rejection necessary for the second mixer. L114 and L116 also provide the delay necessary for the noise blanker to detect and clamp noise pulses. The local oscillator signal of 38.4MHz for the second double balanced mixer is provided by the 12.8MHz reference via a tripler circuit, and the 10.7MHz output feeds the plug-in IF PCB. Each sub-block within the front end has been designed with 50W terminations for ease of testing and fault finding.

808

111+11:-11:.110114111<# The VCO output from the PIN switch is amplified to 2W by a three stage broad band exciter (Q300, Q301 and Q302) with approximately 28dB of gain. The first stage (Q301 in the T2000-500/600, and Q300 in the T2000-700) operates into compression to prevent changes in VCO drive affecting output power. This output power is controlled by varying the collector voltage on Q300, via Q303, Q304 and the feedback loop from the PA. The power settings (maximum, high and low) are under microprocessor control and are set for each channel by programming.

808

111+11:-11:.11:01141117!& The 2W exciter output is amplified to 30W by Q305 and Q306. The T2000-500/600/700 power amplifier has no tuning, and when the output power is set to 25W the variation across the switching range should be less than 2W. The high level RF signal passes via the directional coupler, the Tx/Rx PIN switch and the low pass filter to the antenna connector. The power level is sensed by D301 on the directional coupler and this voltage is fed back to the power control operational ampli-

fier via RV324. RV324 on the RF PCB sets the high power and RV507 on the logic PCB will adjust the low power.

8"

81

111/113)6

818

111/11# The incoming signal from the antenna via the PIN switch passes through a band pass filter to the RF amplifier, Q101. The 50W output from the amplifier is coupled to a sec-

ond band pass filter, and these two filters provide the spurious response rejection neces-

sary for the first mixer. An attenuator is provided at the output to allow for fine adjustment of the front end gain. The VCO output is fed to the first double balanced mixer via a low pass filter to reduce harmonic content. The VCO signal is 61.9MHz below the RF signal and the first mixer output (at 61.9MHz) feeds the first post-mixer buffer, Q103. The output of Q103 feeds a band pass filter.

8+

L114 and L116 form a 50W band pass filter which provides the spurious response rejec-

tion necessary for the second mixer. The local oscillator signal of 51.2MHz for the sec-

ond double balanced mixer is provided by the 12.8MHz reference via a times 4 multiplier circuit, and the 10.7MHz output feeds the plug-in IF PCB. Each sub-block within the front end has been designed with 50W of testing and fault finding. terminations for ease

818

111/11<# The VCO output from the PIN switch is amplified to 0.5W by a three stage broad band exciter (Q300, Q301 and Q302) with approximately 21dB of gain. Q300 is operating into compression to prevent changes in VCO drive affecting output power. This output power is controlled by varying the voltage on IC405 pin2, via Q303, Q304 and the feedback loop from the PA. The power settings (maximum, high and low) are under microprocessor control and are set for each channel by programming.

818

111/117!& The 0.5W exciter output is amplified to 20W by IC405. The T2000-800 power amplifier has no tuning, and when the output power is set to 15W the variation across the 70MHz switching range should be less than 1W. The high level RF signal passes via the directional coupler, the Tx/Rx PIN switch and the low pass filter to the antenna connector. The power level is sensed by D301 on the directional coupler and this voltage is fed back to the power control operational ampli-

fier via RV324. RV324 on the RF PCB sets the high power and RV507 on the logic PCB will adjust the low power.

8-

8

) The primary task of the control section in the T2000 is to control the state of the radio at all times, based both on user input, and activity of the internal circuitry. To achieve this, the control section monitors the radios operation and responds to any changes with various control signals. The input shift registers are read by the microprocessor approximately 100 times per second. The output shift registers are updated only when a control signal is required to change, and the miscellaneous I/O is continually scanned. In the majority of cases, a control output will change only in response to an input stimu-

lus, e.g. a control head key being pressed, receiver busy, etc. Some outputs may be affected by more than one input or a sequence of events; this is particularly so in the case of the mute gate control line. Its operation may be affected by a number of external conditions and even some generated in the microprocessor. For operation of the T2000 Series II control heads, refer to Figures 2.8 to 2.10.

88

1141+=)1+,#)6 Transmitter speech from the microphone is preamplified and fed into an automatic level control circuit which also has two mute facilities (one for options and one for the micro-

processor). The speech is pre-emphasised and high pass filtered to reduce CTCSS com-

ponents, then passes via the RF PCB to the limiter on the TCXO/Tx audio PCB. DCS/CTCSS signals are generated by the microprocessor and are filtered by a low pass filter before being passed to the level potentiometer on the TCXO/Tx audio PCB. A five tone Selcall module is available which is directly interfaced to the microprocessor. Selcall tones are fed to the limiter on the TCXO/Tx audio PCB. Receiver audio from the IF PCB passes through a low pass filter where it is split into sig-

nalling and speech paths. Five tone signals are coupled to the five tone module. DCS/

CTCSS passes through a low pass filter and limiter before arriving at the microproces-

sor. Speech is de-emphasised and passed through one or two high pass filters, depend-

ing on the signalling used. Processed speech passes through the mute to an amplifier where speech and progress tones are summed. The signal then passes via the volume control to the audio power amplifier on the RF PCB.

8.

8/

80

88

11:1 ;:1"1:1+141-1=),#)6 Transmitter speech from the microphone is preamplified and fed into an automatic level control circuit which also has three mute facilities (one for options and two for the microprocessor). The speech is pre-emphasised and high pass filtered to reduce CTCSS components. The speech passes via the RF PCB to the limiter on the TCXO/Tx audio PCB. The FFSK modem tones pass through a level potentiometer before being fed to the lim-

iter on the TCXO/Tx audio PCB. DCS/CTCSS signals are generated by the microproces-

sor and are filtered by a low pass filter before being passed to the level potentiometer on the TCXO/Tx audio PCB. Five tone Selcall and DTMF modules are both available to directly interface to the microprocessor. Selcall tones are fed to the limiter on the TCXO/Tx audio PCB and DTMF tones are summed at the automatic level control. Receiver audio from the IF PCB passes through a low pass filter where it is split into sig-

nalling and speech paths. Five tone signals are coupled to the five tone module. DCS/

CTCSS passes through a low pass filter and limiter before arriving at the microproces-

sor. FFSK modem signals pass through a buffer amplifier before the modem input. Speech is de-emphasised and passed through one or two high pass filters, depending on what signalling is used. Processed speech passes through the mute to an amplifier where speech and progress tones are summed. The signal then passes via the volume control to the audio power amplifier, on the RF PCB.

81

8

This Section provides information necessary for servicing T2000 Series II radios, and covers the following topics:

Section Title Page 3.1 Servicing Precautions 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 Caution: Accidental Transmit Caution: Antenna Loading Caution: Beryllium Oxide & Power Transistors Caution: CMOS Devices Caution: Screw Head Types 3.2 Disassembly Instructions 3.2.1 3.2.2 3.2.3 3.2.3.1 3.2.3.2 3.2.4 3.2.4.1 3.2.4.2 3.2.5 3.2.6 To Gain Access To The Logic PCB To Remove The Bottom Cover And Microprocessor Shield To Detach The Control Head Locally Mounted Models Remotely Mounted Models To Disassemble The Control Head T2010, T2015, T203X & T2060 Radios T2020, T2040 & T2050 Radios To Detach The EMC Filter PCB To Remote A Locally Mounted T2020, T2040 & T2050 3.3 3.4 Power Amplifier - Special Instructions 3.3.1 3.3.2 To Replace PA Transistors To Remove Case Mica Capacitors Repair 3.4.1 3.4.1.1 3.4.1.2 3.4.1.3 3.4.1.4 3.4.2 3.4.2.1 3.4.2.2 Surface Mount Devices Surface Mount Device (SMD) Precautions Servicing Equipment Required Removal & Replacement Of SMD Components Common Causes Of SMD Failure Leaded Component Removal Desoldering Iron Method Component Cutting Method 3.5 Programming 3.2 3.2 3.2 3.2 3.2 3.3 3.5 3.5 3.5 3.6 3.6 3.6 3.7 3.7 3.9 3.11 3.11 3.12 3.12 3.12 3.13 3.13 3.13 3.13 3.15 3.17 3.17 3.17 3.18 3.18

8

8

## 88

)!## Under certain circumstances the microprocessor can key the transmitter. Ensure that all instruments are protected from accidental transmit at all times. 88

)!, The equipment has been designed to operate with a 50W termination impedance, but will tolerate a wide range of antenna loading conditions. However, it is strongly recom-

mended that the transmitter is not operated in the absence of a suitable load. Failure to observe this precaution may result in damage to the transmitter power output stage. 88

)6 *<47 The RF power transistors in the T2000 all contain some beryllium oxide. This substance, while perfectly harmless in its normal solid form, can become a severe health hazard when it has been reduced to dust. For this reason the RF power transistors should not be scratched, mutilated, filed, machined, or physically damaged in any way that can produce dust particles. 88"

))*# This equipment contains CMOS Devices which are susceptible to damage from static charges. Care when handling these devices is essential. For correct handling procedures refer to manufacturers data books covering CMOS devices, e.g. Philips Data Handbook Covering CMOS Devices; Motorola CMOS Data Book Section 5 (Handling Procedures), etc. The following diagram shows a typical anti-static bench set-up.

8 88+

)#7=& Pozidriv screws are the preferred standard on all T2000 series equipment. Pozidriv No. 1 and 2 screwdrivers will fit all pozidriv screws used in the T2000: Philips cross-head screwdrivers are not satisfactory for use on these screws. The following diagram identifies the differences between Philips and Pozidriv screw-

drivers. Pozidriv Philips internal notches no special markings

"star" markings between slots slots with parallel sides slots with tapered sides driving flutes with parallel sides driving flutes with tapered sides ridges between driving flutes

The diagrams on the following pages show the types of screws used in the T2000 Series II radios, their locations and torque specifications.

8"

3 4 8 14 10 12 1 2 6 11 13 3 4 5 7 9 12 14

8+

8

To carry out alignment it is necessary to remove only the top cover (1) and logic PCB retaining screws (3). It is essential that the bottom cover (13) and microprocessor shield (5) with its three retaining screws (4) are torqued down as specified in Figure 3.3.

Various electronic components within the radio can be damaged by elec-

trostatic discharge. A properly grounded earth mat and wrist strap should be used at all times (refer to Section 3.1.4). 88

2!##,#)6 Refer to Figure 3.3. Remove the top cover (1) by unscrewing the four bottom cover screws (14). Remove the three logic PCB retaining screws (3). It should now be possible to open out the logic PCB (2), giving access to both sides of the logic PCB, and access to the RF PCB (11) tuning points, audio, plug-in TCXO PCB and loop filter components. 88

6)!#&# Refer to Figure 3.3. Remove the top cover and logic PCB screws as instructed in Section 3.2.1, then remove the three microprocessor shield retaining screws (4). Remove the screw securing the earthing wire from the control head to the micro-

processor shield. It should now be possible to lift off the microprocessor shield (5) and the bottom cover (13). This will give access to both sides of the RF PCB and IF PCBs, and enable the con-

trol head to be removed.

8-

88

#) = 88 8

,# Remove all covers, as instructed in Section 3.2.2. Unplug the loom running between the control head and the logic PCB.

In EMC model radios, the loom connects to a Micromatch connector on the EMC filter PCB (refer to Section 3.2.5). 88 8

Remove the four screws on the front of the radio dummy front panel. This will give access to the control head loom, which can now be unplugged.

In EMC model radios, the loom connects to a Micromatch connector on the EMC filter PCB (refer to Section 3.2.5).

8. 88"

) = 88"8

11:1+:1 ;41-1 7 8 1 2 4 3 5 6 9 10 12 11 14 13 16 15

Refer to Figure 3.4. Remove the control head from the main chassis, as instructed in Section 3.2.3. Remove the four adaptor plate retaining screws (16). Remove the control head PCB retaining screws (14).

8/

The screws used in the control head are No. 4 Plastites, and should not be con-

fused with the M3 screws used elsewhere. When being replaced, the No. 4 Plas-

tite screws must be tightened to a torque of 8in.lb (0.9Nm). With the control head face down, gently remove the PCB (13), along with the key-

pad (8) and lightspreader (7). Do not disturb the positioning or height of the LEDs, as this is critical for reas-

sembly. Remove the speaker by carefully removing the four speaker retaining spire nuts. Remove of the volume knob (1) and volume pot nut (5) to access the volume knob light spreader (6).

80 88"8

11:1"141+1 6 7 8 1 2 3 12 4 9 5 10 11 13 14 15 16

Refer to Figure 3.5 and Figure 3.6. Remove the control head from the main chassis, as instructed in Section 3.2.3. Remove the four adaptor plate/remote back panel retaining screws (16). Remote mounted models also have two captive nuts (17) fitted in the back cover.

EMC model radios have 4 ESD plugs fitted over the remote back panel screws. These will need to be removed to access the remote back panel screws. Remove the control head PCB retaining screws (14). The screws used in the control head are No. 4 Plastites, and should not be con-

fused with the M3 screws used elsewhere. When being replaced, the No. 4 Plas-

tite screws must be tightened to a torque of 8in.lb (0.9Nm).

81

With the control head face down, gently remove the PCB (13), along with the key-

pad (8) and lightspreader (7). Do not disturb the positioning or height of the LEDs, as this is critical for reas-

sembly. Carefully remove the LCD (6) and lens (12). Lay the front panel (3) on a horizontal surface, with the light spreader (7) in place. Remove the volume knob (1) and volume knob nut (5) to access the lightspreader and keypad (8). Before reassembly, the LCD and PCB edge connectors should be wiped with alco-

hol. Take care to ensure the alcohol does not come in contact with the coating on the light spreader, as this will dissolve on contact with alcohol.

8 88+

#)3 )6 Refer to Figure 3.7. Remove the top cover and open the logic PCB, as described in Section 3.2.1. Remove the microprocessor shield and bottom cover, as described in Section 3.2.2. The control head (locally mounted models) or dummy front panel (remotely mounted models) can now be removed. Unplug the loom running between the logic PCB and EMC filter PCB (18). Unplug the loom running between the EMC filter PCB and the control head. Remove the 4 EMC filter PCB retaining screws. The EMC filter PCB can now be lifted from the chassis.

88-

!,# 11:1"141+1 Refer to Section 8.16, T2000-A03/-A04/-A16 Remote Loom Kits.

8

8

7!& &# $#

As the location of certain components in the PA is critical to performance, it is important that any components removed or disturbed are refitted in exactly the same location. 8 8

& #! Desolder the tabs by heating them with a soldering iron, then lifting them up towards the transistor with a thin stainless steel spike or screwdriver. Unscrew the transistor mounting stud nut or screws and remove the transistor. Trim the tabs of the replacement to make them similar to the faulty item, then lightly tin the underside of the tabs. Apply a thin layer of heatsink compound to the underside of the transistor. Screw the transistor tightly to the heatsink then solder the tabs. Do not solder the tabs before tightening the screws or nut, as this will fracture the device. 8 8

)#)&# Apply a heavy duty soldering iron to the top of the capacitor case. When the solder is molten, ease the capacitor away from the PCB with a thin stainless steel spike or screwdriver.

8"

8 8"8

Surface mount devices require special storage, handling, removal and replacement techniques. This equipment should be serviced only by an approved Tait Dealer or Service Centre equipped with the necessary facil-

ities. Repairs attempted with incorrect equipment or by untrained person-

nel may result in permanent damage. If in doubt, contact Tait Electronics Ltd or your nearest Tait Branch or Subsidiary. 8"88

##>?# The following points must be observed when servicing SMDs:

Carry out all servicing in a static safe work area (refer to Figure 3.1). Always observe static precautions when handling or carrying SMDs. Carry in foil, anti static bags or in trays and anti-static tubes for fine pitch ICs. Use appropriate tools when working with SMDs (refer to 3.4.1.2). Do not use soldering irons on surface mount capacitors, resistors, SOIC and SOT components. Use new solder when replacing SMDs. Use the correct amount of solder (refer to Figure 3.9). Never reuse old SMDs. Do not use SMDs that have been dropped. 8"88

#(&( Hot air tool or heat gun: adjustable temperature is required and a regulated hot air blower. The nozzle is changed according to the size of the SMDs. Weller Pyropen: this is a butane hot air tool, and is hotter than a heat gun. For use only for resistors, capacitors and SOTs. Solder paste dispenser or syringe: for SMD placement. Tweezers: for use when handling SMDs. Solderwick: for removing solder on SMD pads or for removing excess solder or bridging on multi-leg components.

8"

Soldering iron: for use on electrolytic capacitors and plastic coated devices that may be damaged by a heat gun. Microscope: for individual SMD inspection and for SMD replacement. Use the following diagram to identify types of SMD components. RESISTOR MELF SOIC PLCC CAPACITOR SOT QFP LCCC

272 272

8+

8"88

4& #*)& Refer to Figure 3.9.

(a) Capacitors, Resistors, MELF & SOT Hold the nozzle of the hot air tool above the component and keep it moving to ensure that the PCB is not damaged. Remove the SMD and clean away any glue using the hot air tool and a pair of tweezers. Remove any excess solder from the pads using solderwick. Deposit a small amount of solder paste on the pads using the solder paste dis-

penser or syringe. Apply heat evenly to both sides of the device using the hot air gun or Weller Pyro-

pen, until all the paste has reflowed. As this happens, the device will self-align on the pads. If necessary, use tweezers to prevent the SMD from moving while heat is being applied.

(b) SOIC, VSO, QFP, LCCC & PLCC Hold the nozzle of the hot air tool on top of the leads and keep it moving to ensure that the PCB is not damaged. A hot air tool with the correct size nozzle must be used. After a few seconds heating, use a very gentle twisting motion to allow the device to move away from its associated pads. Carefully remove all excess solder from the pads using a soldering iron and sol-

derwick. Apply an even amount of solder paste along the full length of the pads, using flux where necessary. Align the device accurately on the pads and apply a slight pressure with the tweezers to hold in place. Hold the heat nozzle at an angle and move it slowly along the leads, ensuring that the paste reflows properly. If any fine bridges occur, use a spike or solderwick to clear. If this is necessary, apply more solder paste before using the hot air gun again.

8-

adaquate solder insufficient solder excess solder capacitor

& resistor MELF SOT SOIC

(gull leads) PLCC

(J leads)

8. 8"88"

))*3

(a) Cracked SMD Most often occurs with capacitors, caused by:

Thermal shock: if the SMD is heated too rapidly either it will crack or internal seals will be lost, resulting in premature failure. In-service temperature changes that cause invisible micro-cracks. These start at or just under the end termination and will spread throughout the device over a long period of time.

(b) Solder Joint Failure Stress causing flexing of the PCB leads to a cracked joint. Excessive or too little solder results in a poor quality joint. Various soldering process defects such as solder balling, device misalignment, solder bridging and glue defects.

(c) Static Electricity Damage If static electricity damage is suspected, remove and replace the component. 8"8

,)& Whenever components are removed from or fitted to the PCB, care must be taken to avoid damage to the track. The two satisfactory methods of removing components from PTH PCBs are detailed below. 8"88

$ Use a desoldering station, e.g. Philips SBC 314 or Pace MBT-100E for this method. Place the tip over the lead and, as the solder starts to melt, move the tip with a cir-

cular motion. Start the suction and continue the movement until 3 or 4 circles have been com-

pleted. Remove the tip while continuing suction to ensure that all solder is removed from the joint, then stop the suction. Before pulling the lead out, ensure it is not stuck to the plating. If the lead is still not free, resolder the joint and try again. The desoldering iron does not usually have enough heat to desolder leads from the ground plane. Additional heat may be applied by holding a soldering iron on the tip of the desoldering iron (this may require a helper).

8/

8"88

)&) Cut the leads on the component side of the PCB. Heat the solder joint sufficiently to allow easy removal of the lead by drawing it out from the component side: do not use undue force. Fill the hole with solder and then clear with solderwick. 8+

Refer to the T2000 programming manual supplied with the T2000 programming kit, and Section 9 of this manual.

"8

3# This Section details test procedures will confirm that the T2000 has been adjusted cor-

rectly and is fully operational. The following topics are covered:

Section Title 4.1 4.2 4.3 4.4 4.5 Test Equipment Required Connecting The Radio Trunked Radios Trunking System Check Receiver Performance Tests To Check The Squelch Operation To Check The Squelch Ratio To Check The Audio Output Level And Distortion To Check The Sinad Sensitivity To Check The Signal+Noise To Noise Ratio To Check The Ultimate Signal To Noise Ratio RSSI To Check The Operation Of The Noise Blanker Transmitter Performance Tests Audio Processor To Check The Limiter Circuit Operation To Check The Audio ALC Operation To Check The Gain Of The Audio Processor Modulation Characteristics To Check The Above Limiting Response To Check The Below Limiting Response To Check The RF Power Control Circuit 4.3.1 4.4.1 4.4.2 4.4.3 4.4.4 4.4.5 4.4.6 4.4.7 4.4.8 4.5.1 4.5.1.1 4.5.1.2 4.5.1.3 4.5.2 4.5.2.1 4.5.2.2 4.5.3 Page 4.2 4.3 4.4 4.4 4.5 4.5 4.5 4.6 4.6 4.7 4.7 4.7 4.8 4.9 4.9 4.9 4.9 4.10 4.10 4.10 4.10 4.11

"8

"8

(&( The following equipment is required for functional testing. Power supply cord, wired as shown in Section 8.3. Power supply adjustable between 9 & 16V DC, with a capacity of at least 8A. VHF or UHF signal generator: good quality FM 50W 200mV (0dBm) pd (e.g. HP8640B, Marconi 2019).

, usable from 0.1V (-127dBm) to Frequency counter: 10Hz to 650MHz, 2ppm stability, with at least a 2s time base res-

olution (e.g. Opto). Audio signal generator: 600W output, -50 to 0dB level, fully adjustable, sine wave output 10Hz to 100kHz (e.g. Trio 203, HP204C/D). FM deviation meter (e.g. Sayrosa 257 or 252), with the following specifications:

low residual FM resolution down to a full scale of 1kHz and a minimum of 10kHz

- maximum positive and negative peak display

- 15kHz low pass filter

- detected audio output facility.

When using with LTR or DCS, the deviation meter must have a good low fre-

quency response, to avoid incorrect deviation readings. Sinad meter or audio distortion analyser, 1kHz notch type (e.g. HP334A, HP339A or Helper Instruments Sinadder). AC millivoltmeter (e.g. Trio VT-106). Digital multimeter (e.g. Fluke 75). 20MHz dual channel oscilloscope and X10 . X1 scope probes (e.g. Trio CS1022). RF power meter, 50W

; RF detecting element 50W and 5W for appropriate frequency ranges (e.g. Bird Meter 6154 or 611). RF power attenuator, 50W 150W).

, total attenuation 30dB (e.g. Weinschel 40-40-33 30dB, Microphone test box (refer to Figure 4.1). A multifunction test set may be used as long as it has the appropriate function to per-

form the calibration correctly e.g. Rhode & Schwarz CMS52 Radio Communications Test Set, with a high stability oscillator.

"8

"8

)# The following diagram shows a suggested test equipment set-up.

"8"

"8

9 The test facility enables T2000 trunked radios to emulate a multichannel radio, using the frequencies reserved for trunking. For a description of how to put the radio in test mode, refer to Section 5.8, Trunked Radios: Test Mode. Once the radio is in test mode, functional testing can be carried out as described in Section 4.4 and Section 4.5.

When in test mode, connect the antenna socket to a dummy load to pre-

vent interference with trunking systems. Avoid testing on channels in use locally.

"8 8

9)#9 Connect the radio to an antenna and switch on. Check that the radio locks onto the system:

T203X radios: the

 LED illuminates. T2040 radios: the

 annunciator will appear in the control head display. The following parameters relating to the local trunking system base station must be correctly programmed before the mobile will lock onto the system:

Base station channel numbers and frequencies. Network ID. Zone and area field length. Base station control channel number in the hunt list. Valid acquisition authorisation code (for test purposes this can be set to none, which allows total access). Initiate a call to a known unit identity. For test purposes this can be your own identity. Check that:

The radio beeps. A 0.5s ringing tone is sounded. The receiver unmutes. T203X: The

LED illuminates. T2040: the

annunciator comes on.

"8+

"8"

## In this Section, deviation settings are given first for wide band, followed by settings for medium band in brackets ( ) and settings for narrow band in square brackets [ ].

"8"8

)#9( #*& Connect a sinad meter across the speaker terminals. Connect an on-channel RF signal generator to the antenna input terminal. Disable any signalling control in T2010 or T2020 models by using the monitor function. The control head  LED should now be active. Reduce the signal generator output level to -127dBm, modulated to 3kHz

(2.4kHz) [1.5kHz] deviation at 1kHz AF. Increase the RF output level until the squelch gate just opens. Check that the reading on the sinad meter is between 8 and 14dB. Reduce the signal generator output and check that the squelch gate closes within 4dB of the original RF level.

"8"8

)#9( # Set the signal generator output level to -47dBm, modulated to 5kHz (4kHz)

[2.5kHz] deviation at 1kHz AF. Replace the sinad meter with an audio millivoltmeter across the speaker termi-

nals. Adjust the volume control to the onset of clipping. Reduce the signal generator output level to -127dBm. The fall in output is the squelch ratio, and this should be at least 70dB.

"8-

"8"8

)#9!*&, ! Connect an audio millivoltmeter and an oscilloscope across the speaker terminals. Connect an on-channel RF signal generator to the antenna input socket, with the output set to -107dBm (1V) modulated to 5kHz (4kHz) [2.5kHz] deviation at 1kHz AF. Set the volume control to the onset of clipping. The receiver output should be 4.2Vrms across 4W at +13.8V supply. Check the distortion with the aid of a distortion analyser connected across the speaker terminals. The distortion should not exceed 5%.

"8"8"

)#9 Connect a sinad meter across the speaker terminals. Connect the signal generator to the antenna input terminal. Set the signal generator accurately on the receive frequency. Set the modulation for 3kHz (2.4kHz) [1.5kHz] deviation at 1kHz AF. Increase the signal generator output until a 20dB sinad is reached. Switch off the signal generator modulation. Couple a 10.7MHz reference oscillator loosely into the receiver IF stage, tune the signal generator for a zero beat, then uncouple the reference oscillator. Set the signal generator deviation to 3kHz (2.4kHz) [1.5kHz] at 1kHz AF.

The modulating frequency must match the notch of the sinad meter. Set the signal generator output level to -127dBm. Disable the squelch control circuitry using the  key T2015, T2020, T2050 or T2060, the 


21 on the T2040. The LED should then flash. Fn on the T2010, key on the T203X, or function Increase the signal generator output level until a sinad of 12dB is reached. The signal generator output should not be greater than -117dBm and is typically

-119dBm.

"8.

"8"8+

)#9 @AA Set the signal generator output level to -107dBm modulated to 5kHz (4kHz)

[2.5kHz] deviation at 1kHz AF. Connect an audio millivoltmeter across the speaker terminals. Set the volume control for a reading of 0.8V (0dBm) on a convenient scale on the millivoltmeter. Switch off the signal generator modulation. Note the reading on the millivoltmeter. The fall in reading when the modulation is switched off should typically be 30dB

(28dB) [25dB].

"8"8-

)#9% A

A good quality RF signal generator with low residual FM must be used for this check (e.g. HP8640B or 8656). Set the signal generator to give an on-channel signal, modulated to 5kHz

(4kHz) [2.5kHz] with a 1kHz tone. Set the signal generator output level to -47dBm. Connect an AC millivoltmeter across the speaker terminals. Adjust the volume control for a reading of 0.8V (0dBm) on a convenient scale. Turn off the signal generator modulation. Note the reading on the millivoltmeter. The fall in reading when the modulation is switched off should be at least 50dB

(48dB) [45dB].

"8"8.

$ Set the signal generator to give an unmodulated signal at an output level of

-120dBm. Increase the input level in 10dB steps over the 50dB dynamic range and monitor the RSSI output on pin 15 of S14 (logic PCB). Ensure the output varies approximately 540mV/10dB over the dynamic range.

"8/

"8"8/

)#9*&*A6 9 Connect an ignition noise simulator and an RF signal generator to the receiver antenna input. Set the signal generator modulation for 3kHz (2.4kHz) [1.5kHz] deviation at 1kHz AF. Set the signal generator output level to give a 20dB sinad. Listen to the receiver output and check the operation of the noise blanker by tem-

porarily short circuiting R135 on the RF PCB to ground, thus disabling the noise blanker. The noise blanker should give a marked reduction in noise over a wide range of noise input amplitudes.

"80

"8+

# In this Section, deviation settings are given first for wide band, followed by settings for medium band in brackets ( ) and settings for narrow band in square brackets [ ].

"8+8

"8+88

)#9,)#*& Connect an oscilloscope to monitor the waveform at TSP901 (TCXO PCB). Plug the microphone test lead into the control head microphone input socket. Apply a 1kHz sine wave. Slowly increase the sine wave output level until the waveform begins to distort

(squaring), indicating that limiting has commenced. Any further increase in sine wave output level should not increase the amplitude of the waveform.

"8+88

)#9!!,)*& Connect an oscilloscope to monitor the waveform at TP606 (logic PCB). Apply a 1kHz sine wave. Connect an EVM to the junction of R667 and C639. Increase the sine wave output level to 10dB above the limiting level, as described in Section 4.5.1.1. Note the amplitude on the oscilloscope, then increase the output level by another 10dB. Check that the amplitude of the waveform does not increase or distort signifi-

cantly. The EVM should show a positive DC reading.

"81

"8+88

)#92*!# Connect the T2000 antenna output via a 30dB attenuator to a modulation meter. Plug the microphone test lead into the control head microphone input socket. Apply a 1kHz sine wave and adjust the output level to give a 3kHz (2.4kHz)

[1.5kHz] deviation reading on the modulation meter. Connect a millivoltmeter across the input of the microphone test box and check for a reading of approximately 1mVrms on the millivoltmeter.

The audio processor gain must be checked at a level below that at which the audio ALC or limiting are influencing the measurements.

"8+8

"8+88

)#9!,& Connect the T2000 antenna output via a 30dB attenuator to a modulation meter. Plug the microphone test lead into the control head microphone input socket. Apply a 1kHz sine wave and increase the output level to 20dB above the limiting level, as described in Section 4.5.1.1. Vary the frequency of the sine wave generator between 0.3 and 5kHz. Note the reading on the modulation meter. The deviation should not exceed 5kHz (4kHz) [2.5kHz]. Between 450Hz and 3kHz (3kHz) [2.55kHz] the deviation should be within 4dB of maximum. Above 3kHz the deviation should decrease by more than 25dB/octave.

"8+88

)#96 7,& Decrease the sine wave generator output level to 10dB below the limiting level, as described in Section 4.5.1.1. Sweep the sine wave from 0.3 to 10kHz. Note the reading on the modulation meter. From 300Hz to 3kHz (3kHz) [2.55kHz] the deviation should increase at the rate of 6dB/octave (+1, -3dB) relative to 1kHz. Above 3kHz the deviation should decrease by more than 25dB/octave.

"8

"8+8

)#937) )# Connect an RF power meter to the transmitter output. Select a channel programmed for high power (25W). Close the PTT switch. Vary the supply voltage between 10.8 and 16V. Above 13.8V the RF power output should not increase by more than 2W. At 10.8V the RF power output should be more than 16W.

"8

+8

This Section provides general fault finding assistance, and is intended to be used in con-

junction with the circuit descriptions and block diagrams in Section 2 and the circuit diagrams and PCB information in Section 7. The following topics are covered in this Section:

Section Title 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 5.10 5.5.1 5.3.2 5.5.1 5.5.2 5.5.3 5.7.1 5.7.1.1 5.7.1.2 5.7.2 5.8.1 5.8.2 5.8.2.1 5.8.2.2 5.8.3 5.8.3.1 5.8.3.2 5.8.4 5.8.5 5.8.5.1 5.8.5.2 5.8.6 Servicing Warning Visual Checks Component Checks Transistor Check Integrated Circuit (IC) Check DC Checks Receiver RF Checks VCO Frequency Control Line Voltages RF Sensitivity Transmitter RF Checks Trunked Radios: System Check Base Station Check T2030 Radios T2040 Radios Base Station Control Channel Hunt Trunked Radios: Test Mode Test Mode Overview Manual Test Mode (MTM) T2030 & T2035 MTM Operation T2040 & T2050 MTM Operation Computer Controlled Test Mode (CCTM) CCTM Selection CCTM Protocol Power-Up State Test Facilities Available Resetting The Radio Test Facilities Table Trunked Radios: Radio Mode/Status Display Codes Options Interface Specifications Fault Finding Charts Page 5.2 5.2 5.2 5.2 5.2 5.3 5.4 5.4 5.4 5.5 5.5 5.6 5.6 5.6 5.6 5.6 5.7 5.7 5.7 5.8 5.9 5.9 5.10 5.10 5.11 5.11 5.11 5.12 5.15 5.17 5.20

+8

+8

#B T2000 Series II radios require specialised servicing techniques. Before attempting any disassembly or repair, refer to Section 3, Introduction To Servicing. Repairs attempted with incorrect equipment or by untrained personnel may result in permanent damage. If in doubt, contact Tait Electronics Ltd or your nearest Tait Branch or Subsidiary.

+8 C )#9 Check that the radio is suitable for the required frequency range and IF band-

width (refer to Section 1.4, Product Codes). Check that the programmed frequencies are correct. Remove the covers from the T2000 and inspect the PCBs for damaged or broken components, paying particular attention to the surface mounted devices (SMDs). Check for obvious mechanical faults in the PCBs, controls, microphone, etc. Check for defective solder joints.

If repair or replacement is considered necessary, refer to Section 3.4, Repair.

+8

)&)#9

+8 8

)#9 Measure the forward and reverse resistance of the transistor junctions, first mak-

ing sure that the transistor is not shunted by some circuit resistance.

A 20kW /V or better multimeter should be used for taking the measurements, using only the medium or low resistance ranges. Check the collector current drawn by the transistor.

+8 8

$)#>$)?)#9 Measure the DC operating voltages if the IC. Due to the catastrophic nature of most IC failures, the pin voltages will usually be markedly different from the rec-

ommended values in the presence of a fault. The recommended values can be obtained from either the circuit diagram or the component data catalogue.

+8"

))#9

+8 Refer to the Radio Wont Switch On fault finding chart in Section 5.10.1. Check all regulated supply voltages for the correct voltage levels. DC levels can be checked using the voltage information on the circuit diagrams.

+8"

+8+

#3)#9

+8+8 C)*3(# Check that the VCO is phase locked. Connect a frequency counter (level +10dBm) to the VCO input to the mixer (junction of C241 and L109). Monitor the local oscillator frequency and check that it is above or below the required receive frequency according to the following list:

Model T2000-100 T2000-200 T2000-300 T2000-400 2000-500 T2000-600 T2000-700/900 T2000-800 Local Oscillator Frequency 27.7MHz below 10.7MHz above 27.7MHz above 27.7MHz below 49.1MHz below 49.1MHz below 49.1MHz below 61.9MHz below

+8+8

) ,C The following table gives approximate control line voltage for receive and transmit at the band edges. Model Frequency

(MHz) T2000-100 T2000-200 T2000-300 T2000-400 2000-500 T2000-600 T2000-700 T2000-800 T2000-900 220 270 66 88 136 174 175 225 400 470 450 520 330 360 851 870 360 400 Receive Control Line Transmit Control Line VCO Frequency

(MHz) 192.3 242.3 76.7 98.7 163.7 201.7 147.3 197.3 350.9 420.9 400.9 470.9 280.9 310.9 789.1 808.1 310.9 350.9 Control Line Voltage (V) VCO Frequency

(MHz) Control Line Voltage (V) 4.50.5 9.81 7.30.6 13.81 7.50.6 131 4.50.6 10.61 2.50.5 131 2.50.5 131 2.50.5 6.30.7 1.80.5 4.50.5 20.5 7.51 220 270 66 88 136 174 175 225 400 470 450 520 330 360 806 825 851 870 360 400 7.60.5 12.71 4.50.6 111 4.50.6 9.21V 7.80.7 13.81 30.6 13.50.7 2.20.5 13.51 8.50.7 12.30.7 3.80.5 6.50.5 9.50.5 12.00.5 81 12.51

+8+8

3

+8+

Refer to the Synthesiser Faults, Receiver Front End Faults and Receiver IF Faults fault finding charts in Section 5.10. Check that the VCO is on the correct frequency, and that the receiver is correctly aligned. Check that the sensitivity into the front end is -119dBm (typical). If the sensitivity is low (less than -117dBm), the fault can be traced by measuring the sensitivity into successive circuit blocks. Prepare a test cable by connecting a 1nF capacitor to the end of a length of coaxial cable, as shown below. Coax 1nF To Test Cable Connect To Earth

Before using the test cable, ensure the coax braid is connected to an earth point on the PCB. Using the RF test cable, apply a modulated signal to test points in the first IF sec-

tion, at the first IF frequency, as follows:

Model T2000-100 T2000-200 T2000-300 T2000-400 2000-500 T2000-600 T2000-700/900 T2000-800 First IF Frequency (MHz) 27.7 10.7 27.7 27.7 49.1 49.1 49.1 61.9 Alternatively, apply an on-channel RF signal to the front end test points. Poor sensitivity indicates a fault in one of the circuit blocks following the test point. For typical sensitivity levels, refer to the fault finding charts.

Poor sensitivity at the mixer input can be caused by lack of drive level from the VCO.

+8-

3)#9 Measure in-circuit RF levels with an RF probe. Typical RF levels can be found in the Transmitter RF Low Power Faults fault finding chart, in Section 5.10.8.

Shorten the RF probe earth lead to a minimum.

+8-

+8.

9)#9

+8.8 6)#9 This checks that the local base station repeater is on air and checks that the correct base station frequency is programmed into the radio.

+8.88

1 1 Reprogram the first normal hunt channel to be the base station repeater channel number. Enter test mode (refer to Section 5.8, Trunked Radios: Test Mode). Press the front panel C4 key, and the FFSK should be audible.

+8.88

1"1 Enter test mode (refer to Section 5.8, Trunked Radios: Test Mode). Enter the base station repeater channel number, and the FFSK should be audible.

+8.8 6) ) = This checks that the radio is hunting the base station control channel. Refer to the Trunked Radios: Radio Wont Acquire A Control Channel fault finding chart in Sec-

tion 5.10.11.

Do not enter test mode. Monitor pin 15 of IC510 (modem IC) on the T2030 or T2040 logic PCB, with a scope probe. FFSK should be visible for 100ms as the radio scans (hunts) through the channels. If the radio does not lock onto the required channel, this indicates one of the fol-

lowing faults:

The parameters on the network identity page are incorrect. The acquisition authorisation is incorrect. The signal is not opening the mute (receiver mute fault, refer to the Receiver Mute Faults fault finding chart in Section 5.10.6). The programmed logical channel number is incorrect (even if the frequencies are correct).

+8.

+8/

9

+8/8

*7 The test mode facility enables the trunked radio to emulate a multichannel radio, utilis-

ing the frequencies reserved for trunking. The radio can then be tested and aligned, as described in Section 4 and Section 6. There are two test modes provided: manual and computer controlled. Manual Test Mode (MTM): Commands are entered and test results are displayed using the keys, LEDs and the display on the control head. Computer Controlled Test Mode (CCTM): Test commands are accepted via the serial port of the radio, and test results are returned as required. Although this mode is primarily intended for automated production testing, it may also be useful in the field. No test facilities have been provided for functions relating to non-trunked operating mode (e.g. CTCSS), as these functions can be easily tested in non- trunked mode. Within this Section, the following conventions apply:

Characters within indicate a string sent or received via the serial communica-

tions port of the radio, e.g. a command code or an error code. Numbers without are function numbers, manually entered via the control head in MTM to select particular test functions.

) When in test mode, connect the antenna socket to a dummy load to pre-

vent interference with trunking systems. Avoid testing on channels in use locally.

+8/8

>? Switch the radio off and remove the top cover. Place a temporary link across the two pads labelled TEST MODE on the logic PCB. Switch on the radio:

T2030 radios: all the front panel indicators will illuminate briefly. T2035 and T2060 radios: the display will show - - for a short time. T2040 radios: the control head will display TEST MODE for a short time. Remove the link. The radio will remain in test mode until it is next switched off.

+8/

In MTM, the following operations are common to T203X, T2040 and T2060 radios:

A short beep is sounded after every key press. All models accept the reset command character (^). The microphone PTT switch functions as in normal operation, i.e. a PTT press/

release selects transmit and receive respectively. LEDs or LCD annunciators are used to indicate transmit, synthesiser lock status and receive signal detect status (refer to Table 5.2, Radio Mode/Status Display).

MTM can also be selected by sending the MTM select command while in CCTM or program mode (refer to Table 5.1, T2000 Test Facilities), then switching the radio off then on again.

This mode selection is sticky, in that the radio will always power- up in MTM if no serial device logs on, regardless of the state of the test link. This automatic mode selection can only be cleared by sending the appropriate command (refer to Table 5.1, T2000 Test Facilities).

Increment channels in MTM by shorting S14 pin 10 (/EMRGNCY) to ground. When the highest channel is reached, the next increment selects the lowest channel.

+8/88

1 141 +*&

1 1 Four preset channels are available via the four preset keys

, and their associated LEDs show the current channel. All four channels can be programmed to any frequency within the full coverage band of the radio. selects the channel with the lowest number (i.e. the lowest channel in the net-

to C1 C4 C1 work). C2 selects halfway between the highest and lowest channels available, rounding up to the nearest channel. C3 selects the channel with the highest number (i.e. the highest channel in the network). C4 selects the first channel in the normal hunt list.

1 + To select a channel, enter the channel number required using the front panel keys, and press the   key

. The   key enables & disables the minimum shift keying (MSK) modem transmit, and the   LED momentarily shows status. Action of the key is push-on/

push-off. When the modem transmit is enabled, the microphone audio is muted and when the modem transmit is disabled, the microphone audio is unmuted. When the radio is in receive, the modem transmit is temporarily disabled (and the microphone audio is muted), but this is not shown by the   LED.

+80 The
 
key selects MSK modem transmit test patterns. The
 
LED is off for zeros, on for ones and flashing when preamble is being sent. Successive depressions of the key will scroll through the three states. Whenever the
 

key is pressed, the modem transmit is enabled unless the radio is in receive, in which case the   LED will illuminate momentarily. The 

 key controls the transmit power output of the radio. The 

 LED is off for low power, on for high power and flashes when maximum power has been selected. Successive depressions of the key will scroll through the three states. Each time the channel is changed, the transmit power is reset to the level pro-

grammed for the new channel and is indicated by the 

 LED.

+8/88

1"141+1*& Test functions are selected by entering a two digit number followed by the  

key

. Channels are selected by pressing the key (Chan will appear in the display), followed by a one to four digit channel number and terminated with the  

key. After every valid command execution, a confirmation will appear in the control head display in the form of a message. A confirmation tone is also sounded. Entries that are invalid for any reason, e.g. an invalid function or channel number, result in a displayed message and a warning tone.

+8/8

)&) >))? In CCTM, test commands are accepted via the serial port of the radio and test results are returned as required. To send and receive commands from the radio it is necessary to run a dumb terminal emulation program on a PC. The serial communications port parameters are as follows:

Logic levels:

Out: 0V = 1, +5V = 0 In: -12V to 0V = 1, +3V to +12V = 0 A programming lead may be used to convert the output to RS232 voltage levels. No handshaking (RTS, CTS etc. not implemented). Full duplex. 4,800 baud. One start bit, eight data bits, one stop bit, no parity. Flow control: Xon/Xoff

+81

+8/8 8

After power-up, a reset command or a hardware reset, the radio sends the logon prompt character v. Replying with an ASCII % within 500ms of the prompt will put the radio in CCTM. The radio will confirm engagement of CCTM by sending the prompt -, preceded by a CR.

If no reply is received within the required period, the radio will engage normal trunked mode, or MTM if the test link is fitted or the sticky MTM is active. If CCTM is engaged when the test link is fitted, the radio sends an error message and gives a unique error indication (refer to Table 5.2, Radio Mode/Status Display). While in CCTM, MTM can be selected (refer to Section 5.8.2). This will not come into effect until after the next power-up or reset. To re-engage CCTM without switching the radio off then on, a reset command can be sent to reset the radio and restart logon prompting.

+8/8 8

))# The radio accepts commands in any of the following formats:

- A two digit ASCII string selects the corresponding test function.

- A * character followed by a one to four digit channel number (in ASCII) sets the radio to that channel. Each command must be terminated with an ASCII CR character to initiate execu-

tion of the command.

If the command requires no reply, the radio then responds with a - prompt char-

acter. If a reply is required, the radio responds with a data string followed by a CR and a - prompt . The - prompt indicates that the radio is ready to accept the next command. There is only ever a single reply string to any command. Invalid commands, e.g. an invalid function number or channel number or invalid characters in a command, cause a {C01}, followed by CR and -, to be sent in reply, indicating a command error. In CCTM the radio will accept a reset command character (refer to Section 5.8.5). ASCII line feed characters are permitted at any time, but are ignored so that test commands may be terminated with CR or LF. All switches (including PTT, hook etc), keys and displays on the front panel or con-

trol head of the radio are disabled while in CCTM, and no tones are sounded.

+8/8"

7%&

+8 When manual or automated test mode is engaged after logon, the radio will be in the following state, where applicable to particular radio models. The numbers in brackets refers to the test facility, as described in Table 5.1, T2000 Test Facilities. Synthesiser programmed to the last selected channel. Modem transmit off (13). Force receive audio muted if in transmit mode (20). Force receive audio unmuted if in receive mode (21). Microphone audio muted if in receive mode (22). Microphone audio unmuted if in transmit mode (23). Radio power amplifier enabled (31). Radio set to receive if PTT released on power-up (32). Radio set to transmit if PTT pressed at power-up (33). 13.8V switched supply on / ECN off (43). Radio not in state for current measurement test (45). Microprocessor clock rate set as programmed for the channel if in receive mode. Microprocessor clock rate normal if in transmit mode (70). Radio transmit power set as programmed for the channel. The behaviour of the front panel or control head digital display and/or LEDs is described in Table 5.2, Radio Mode/Status Display.

+8/8+

3# !

+8/8+8

The radio may be reset at any time in any of the following ways:

Switch the radio off then on again. Momentarily connect the microprocessor reset pin to ground (pads are provided on the enhanced control PCB). Send a reset command character (^) over the serial communications port (refer to Table 5.1).

The radio will not respond to the reset character after an EPROM or RAM test failure.

+8

+8/8+8

3# The following table lists the test facilities available in MTM and CCTM for the T203X, T2040 and T2050. Facilities for the T2010, T2015 and T2020 are also listed for compari-

son, and further information about the tests is listed following the table. Within the table, a - indicates the corresponding facility is not available, and nnnn is a one to four digit channel number (leading zeros are permitted). T2010/T2015 T2020 Normal CCTM Normal CCTM Man T203X T2040/T2050 Auto Man Auto Signalling functions:

10. set modem to send zeros 11. set modem to send ones 12. set modem to send preamble 13. disable modem Tx 14. read modem Rx state 15. disable subaudible signal 16. enable subaudible signal 17. read signalling decode status Mute functions:

20. force Rx audio muted 21. force Rx audio unmuted 22. mute microphone audio 23. unmute microphone audio 24. let squelch control Rx audio 25. read squelch Rx busy status 26. relax Rx audio mute control Radio Rx/Tx functions:

30. inhibit the PA (Tx mode) 31. enable the PA (Tx mode) 32. set radio to Rx 33. set radio to Tx 34. set PA to low power 35. set PA to high power 36. set PA to max power 37. relax PA power control Power supply functions 42. 13.8VSW off /ECN on 43. 13.8VSW on /ECN off 44. set radio state for current measurement 45. cancel current measurement state RSSI functions:

61. Set L1 threshold 62. set L2 threshold 63. read averaged RSSI level 64. read L1 65 read L2 Miscellaneous functions:

70. select normal P clock rate 71. select birdie P clock rate 72. read synth. lock status 73. relax P clock control

by channel speaker

l-MON*

s-MON

17

21 22 23 24

by channel speaker

l-MON

s-MON

s-MON 26 s-MON

see below

by channel

32 33 34 35 36 37

see below

by channel

by channel

15 16 17 20 21 22 23 24 25 26

32 33 34 35 36 37 42 43

63

70 71 72 73

keys

Fn

Fn

use or key

10 11 12 13 14

20 21 22 23 24 25

30 31 32 33 34 35 36

42 43 44 45 61 62 63 64 65 70 71 72

10 11 12 13

20 21 22 23 24

30 31 32 33 34 35 36

42 43

61 62 63 64 65 70 71

10 11 12 13 14

20 21 22 23 24 25

30 31 32 33 34 35 36

42 43 44 45 61 62 63 64 65 70 71 72

+8 T2010/T2015 T2020 Normal CCTM Normal CCTM Man T203X T2040/T2050 Auto Man Auto Special functions:

92. set sticky MTM 93. clear sticky MTM 94. read serial number 95. read factory model ID 99. get current channel number Radio channel control:

select a channel Single character commands:

reset the radio select programming mode select auto test mode Radio controls & indicators:

PTT press = select Tx mode PTT release = select Rx mode channel increment input Tx indicator synth. out of lock indicator RF signal detected indicator

94 95

94 95

92 93 94 95

92 93 94 95

T2010:

to 1 14 T2015:

keys

yes yes

Tx flash chan LED BUSY

*n chan

*nnn T2030:

to C1 C4 T2035:

Select channel

& press

*nnn

*nnn *nnn

Tx flash chan LED BUSY

yes yes

Tx flash TX &

BUSY BUSY

pin 10, S14 yes yes TX SVC GO

yes yes ECR TX SVC GO

l-MON & s-MON indicate a long (>1s) and a short (<1s) press of the
 key

, respectively.

In MTM, functions 10 - 13, 21, channel selection and PTT control of receive/transmit are all required for MPT1352 testing. Type approval testing requires the channel increment facility using an external input. All test function requests are valid when the radio is in either receive or transmit but some functions (10, 11, 12, 21, 23 and 24) take effect only when the radio is in the appropriate mode. 10 - 13, 22, 23: When any of the functions which set the modem sending test data are selected (functions 10 - 12), the microphone audio is automatically muted. When the microphone audio is unmuted using function 23, the modem transmit is disabled. When the radio is in receive, the microphone audio is temporarily muted and the modem transmit is temporarily disabled. This prevents any unwanted TCXO modulation which may occur on radios with dual point modulation. These automatically selected states can be overridden until the next transmit to receive transition. If microphone unmute or modem transmit enable is requested when the radio is in receive, these functions will not be actioned until the radio is in transmit. 10, 11, 12: The two modem data states selected by functions 10 and 11 are 0 =

1800Hz tone and 1 = 1200Hz tone respectively. Preamble, selected by function 12, is alternating 1800 and 1200Hz tones at a rate of 1200 baud.

+8"

14, 25, 72: These functions return a Boolean radio status value, either a 0 or a 1, as follows:

Return Value 0 1 14 - read modem Rx state 25 - read Rx busy state 72 - read synth lock status data = 0 no RF signal detected RF signal detected out of lock data = 1 in lock 20: The receive audio is muted temporarily to quieten the speaker whenever the radio is in transmit. This state may be temporarily overridden until the next receive to transmit transition. If force Rx audio unmuted (21) or let squelch control Rx audio (24) is requested when the radio is in transmit, the function will not be selected until after the radio is in receive. 32, 33: Functions 32 and 33 are provided in MTM so that the radio transmit state can be sustained without the need to hold the PTT depressed. Caution must be exercised to prevent the power amplifier from overheating. 42, 43: Select economy/non-economy state. In economy state the audio power amplifier is disabled and the front panel backlighting is set to its programmed econ-

omy state. In non-economy state, the audio power amplifier is enabled and the back-

lighting is set to its normal programmed state. 44, 45: Engage/disengage radio state for measurement of typical trunked mode sup-

ply current drain. In this state only the SVC and C1 LEDs are switched on and non-economy state is selected (function 43). Upon disengagement, the previous dis-

play is reinstated but the economiser state is not altered. 61, 62: To set up the RSSI thresholds, apply an RF signal to the radio (on an appropri-

ate receive channel) at the threshold level. Allow at least 400ms for the RSSI averag-

ing to settle, then select function 61 or 62 as required. The averaged RSSI threshold value (in decimal full scale = 255) is either displayed if in MTM or returned via the serial port if the radio is under computer control. The value is also stored in the radios database (in the microprocessor EEPROM) and the database checksum is automatically updated. 63: In MTM, function 63 gives a regularly updated display of the averaged RSSI value. The leftmost decimal point will light when the RSSI level equals or exceeds L1, and the rightmost decimal point will light when the RSSI level equals or exceeds L2. In CCTM a single averaged RSSI value is returned. At least 400ms should be allowed after any change in signal level for the returned value to be accurate. 94: Returns the serial number part of the radios ESN as a number of up to 6 digits with leading zeros suppressed. 95: Returns the factory programmed factory model ID as a string of six decimal digits. 99: This function is intended to allow easy modification of the current channel number via the number entry keys.

+8+

+8/8-

9& ) The mode or status of the radio is indicated by the behaviour of:

the monitor LEDs (ML1 and ML2) on the top side of the logic PCB the radio control head LEDs. Unless otherwise stated, the two monitor LEDs behave as in normal operation:

ML2 is off ML1 flashes at a rate of 1Hz to indicate watchdog timer kick activity In normal trunked radio mode, ML2 flashes at a rate of several Hertz. This indicates control channel hunt or codeword reception on a control channel. A value in brackets { } with a mode/status description indicates that the radio sends an error message via the serial port upon engaging that mode/status. This table identifies display states for trunked radios, with non-trunked models for comparison. Mode/State T2010/T2015 T2020 T2030/T2035 T2040 CONFIG error CONFIG register programmed ROM or RAM test failure ESN checksum error

{X31}

(go to program mode) Database checksum error {X32}

(go to program mode) System error

{Enn}

MOBD link left in &

CONFIG register OK

{X06}

Logon with test link in

{X07}

Key/LED test failure

{X04}

Monitor LEDs flashing together. Display shows CONF-ERR Display shows CONF-PGM Tone output tog-

gling. Display undefined CTCSS output tog-

gling. Display undefined Display shows

-PROG-

Top row LEDs on As for program mode. 2010: all channel LEDs on 2015: display shows 00 Monitor LEDs flashing together. Display shows CONF-ERR Monitor LEDs flashing together. Top & bottom row LEDs flashing. C1 LED on (if fitted) Display undefined Display shows CONF-PGM Tone output tog-

gling. Display undefined Display shows ESN-ERR Tone output tog-

gling. LEDs unde-

fined As for program mode + CLR LED flashing. T2035: dis-

play shows -U1 As for program mode + DESP LED flashing. T2035: display shows -U2 Display shows

-DATA-ERR-

Top row LEDs on. Monitor LEDs alternately flashing. ERROR nn in dis-

play (nn = error mumber) Display shows MODB-ERR Display shows TLINK-ERR Monitor LEDs alternately flashing

-ERROR nn in display (nn = error mumber) Display error shows MODB-ERR Monitor LEDs &

top row LEDs flash-

ing. 2 digit BCD error number on bottom rows. T2035: display flashes error number Top & bottom row LEDs flashing + C2 LED on (if fitted) Top & bottom row LEDs flashing + C3 LED on (if fitted) LED flashing shows error - all LEDs to right &

below on

+8-

Mode/State Program mode Cloning mode T2010/T2015 2010: all channel LEDs on 2015: display shows 00 AUX LED flashing. AUX/SCAN LEDs flash if clone failed. Target radio in pro-

gramming mode. Manual Test Mode

(MTM) Key pressed at power-up

(control head test)

[AUX] = clone

[CALL] = program Computer Control-

led Test Mode

(CCTM) Front panel shows normal radio state

(not a separate mode) CCI mode Normal radio mode PTT on power-up in MTM or normal mode No special power-

up sequence - nor-

mal radio state immediatly dis-

played Software version #

indicated for a short time as h.nn. h is shown with the Busy and TX LEDs as a hex number. ns are indicated by the two lower rows of LEDs

(2010), or by the channel display

(2015). T2020 T2030/T2035 T2040 Display shows

-PROG-

Top row LEDs on Display shows CLONING Top row LEDs on. Tar-

get radio in pro-

gramming mode. Any key on the control head & any mode. All LEDs & all LCD segments are set flashing indefi-

nitely Display shows

-AUTOTEST- Top row LEDs on Normal display CCI BUSY & top row LEDs on when processing a com-

mand or in lockout all mode Programmable power-up message displayed for a short time then nor-

mal radio display

(default mode) Display shows xxxx nn.mm for a short time, nn =

major, mm = minor version number Top row + C1 LEDs all on (if fitted) T2033/35: display shows -UU Display shows

-PROG-

Top row LEDs on All LEDs on for a short time then indicate radio sta-

tus. C1 to C4 show last channel (if fitted). T2035: display shows - - - briefly C1 key (if fitted) in MTM

- a front panel key/

LED test is initi-

ated - all LEDs on initially Top row + C2 LEDs

(if fitted) all on. T2035: display shows "- - -" contin-

uously T2030: own number as CD on 3 rows of LEDs, then last number on C1 to C4 & DESP LEDs. Others as labelled. T2035: Own number briefly on display, then last number called. T2030: 3 rows of LEDs display the software version #

for a short time as h.nn (h is a hex number) then as per selected mode. T2035: software version number on display. Display shows chan xxxx (xxxx

= last channel number). LEDs indicate radio sta-

tus Any key on the control head & any mode. All LEDs &

all LCD segments are set flashing indefinitely Display shows AUTOTEST Top row of LEDs on Normal display CCI BUSY & top row LEDs on when processing a com-

mand or in lockout all mode. Own number dis-

played for a short time after power-

up then program-

mable power-up message followed by normal radio display Display shows xxxx nn.mm for a short time, nn =

major mm = minor version number, then as per selected mode

+8.

+80

*&$#&## The options connectors, S13 and S14, are located on the top side of the T2000 logic PCBs, and are provided for use with plug-on accessory PCBs. The following tables describe the signals available on these connectors, and also on S15

(T2010 & T2015 logic PCB). Connection

(to/from) DET-AF-OUT

(from detector via 3kHz LPF) ALC-IN

(to compressor) RX-LINE-OUT

(de-emphasised receiver audio) TX-LINE-OUT

(from ALC) RX-LINE-IN

(to squelch element) TX-LINE-IN

(to pre-emphasis) RX-GTD-AF

(Rx Audio from after squelch) TX-SIG-IN

(to limiter) RX-BEEP

(to AF PA with min. volume stop) Pin No. S13-1 S13-2 S13-3 Used for Level for 1kHz AF 60% FM Z1W Z0W Min. ZL DC Level Slope dB/8 CTCSS data, DCS, Selcall 400mVp-p

<1k 1k 3.3V flat LF

-3dB Hz 10 HF

-3dB Hz 3.4k 0.2Vp-p 2.2k 0V

+6 0.25k 3.4k to accessory line interface 0.4Vp-p 100 10k 3.3V

-6 0.23k 3.4k or 0.35k S13-4 to accessory 1.2Vp-p

<1k 1k 3.3V flat 70 33k S13-5 S13-6 from accessory from accessory line interface S13-7 line interface 0.4Vp-p 1.2Vp-p 5k*

5k*

3.3V flat 0.18k 20k 3.3V +6V 0.25k 3k 0.4Vp-p 10k 0.2M 3.3V flat 0.23k 3.4k or 0.35k S13-8 data Selcall 2.5Vp-p S13-9 sidetone 0.5Vp-p 470k 470k 2.2k 3.3V flat 4 3.4k AC flat 0.18k 20k 3.3V flat 4 3.4k TX-LF-SIG

(to LPF) S13-10 CTCSS, DCS 5.0Vp-p for 12%

deviation OPTIONS-GND

(connected to S13-11 ground on RF PCB)

    W




W

Connection

(to/from)

+13.8V-UNSW

+13.8V

+5V

Pin No. S13-12 S14-1 S14-2 Function Available Current

- emergency: to bypass the on/

off switch

- supply to options with own regulators supply to options 0.5A 200mA (remote loom resist-

ance = 0.43W /loop meter) 150mA

+8/

Connection BUSY Pin No. S14-3 Function carrier detect opening time: <35ms closing time: <20ms

(8dB sinad, 6dB margin) Logic Levels 0V 5V Logic Sense Sink Imax Source Imax Zin 0V = busy 0.5mA 0.1mA RX-GATE S14-4 Rx audio gate information 5V CMOS 5V = audio 1.5mA 0.3mA

/PTT-TO-OPT S14-5 from mic.; linked to 18 pull-up 0V = Tx 1.5mA 50A 2k7

/PTT-FRM-OPT S14-6 Tx 5V CMOS 0V = Tx CMOS

/IN-LOCK S14-7 synthesiser lock detect

(lock-up time: <20ms) 0V 5V 0V = lock 0.2mA 0.2mA MIC-MUTE S14-8 disables AF from mic. only 5V CMOS 5V = mute

/SIG-SQLCH S14-9 Rx audio gate control open c. 0V = AF muted

/EMERGNCY S14-10 starts s/w sequence open c. 0V = emergency CALL-SW S14-11 front panel control 5V CMOS HUSH S14-12 car radio mute output 5V CMOS AUX-ON/OFF S14-13 front panel control 5V CMOS HORN RSSI S14-14 S14-15 Selcall horn alert 5V CMOS Rx signal strength 0 - 50A 0.8A/dB EXTERNAL S14-16 line to power plug 1.5mA 0.3mA 1.5mA 0.3mA 1.5mA 0.3mA 1.5mA 0.3mA channel change option on T201X*

0 - 5V CMOS 0V = 0 5V = 1 BCD0 BCD1 BCD2 BCD3 BCD4 BCD5 S15-9 S15-10 S15-11 S15-12 S15-13 S15-13

* Refer to BCD selection table.

200k 47k 10k 10k The following table shows the BCD codes for T2010 and T2015 radios under external channel control.

T2010 has 4 channels accessible by BCD and T2015 has 24 channels accessible by BCD BCD Channel Number Codes BCD-5 BCD-4 BCD-3 BCD-2 BCD-1 BCD-0 BCD Number Channel Number 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 0 0 1 1 0 0 0 1 0 1 0 1 0 1 2 3 4 5 1 2 3 4 5 6

+80 BCD Channel Number Codes BCD-5 BCD-4 BCD-3 BCD-2 BCD-1 BCD-0 BCD Number Channel Number 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 1 1 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 1 1 0 0 0 0 1 1 0 0 1 1 0 0 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

)#-:./ Additional microprocessor control signals are available on the T2020, T203X, T2040, T2050 and T2060 HC11 logic PCB (PCB IPN 220-01344-0X), on connectors S16, S17 and S18.

+81

+81 3 3) The fault finding charts listed below are intended to be used in conjunction with the cir-

cuit diagrams and other PCB information found in Section 7, and with the circuit descriptions and block diagrams found in Section 2. Title Section 5.10.1 5.10.2 5.10.3 5.10.4 5.10.5 5.10.6 Radio Wont Switch On Radio Wont Program Synthesiser Faults Receiver Front End Faults Receiver IF Faults Receiver Mute Faults 5.10.7 No Audio On Receive 5.10.8 5.10.9 Transmitter RF Low Power Faults Transmitter Power Control Faults 5.10.10 Transmit Audio Absent 5.10.11 Trunked Radios: Radio Wont Acquire A Control Channel Page 5.21 5.22 5.23 5.24 5.25 5.26 5.27 5.28 5.30 5.31 5.32

+8

+818

BD7#*

+8

+818

BD

+8

+818

3


'/0( 


+8"

+818"

#33

+8+

+818+

#$33

+8-

+818-

#3

+8.

+818. A!*#

+8/

+818/

3,773

+80

 

"0



'0

 "
0

'0

 '0

+8 1

+8180

7) 3

+8

+8181

+8

+818

9BD!#(!) )

-8

4!5 This Section details procedures for tuning and adjustment of T2000 series II radios. This is normally only required during product manufacture or after major servicing. The following topics are covered in this Section:

Section Title 6.1 6.2 6.3 6.4 Tuning Precautions Tuning & Adjustment Points Trunked Radios Transmitter Adjustments 6.4.1 6.4.2 6.4.3 6.4.4 6.4.7 6.4.5 6.4.7 6.4.8 6.4.8.1 6.4.8.2 Power Output TCXO Alignment Dual Point Modulation Adjustment CTCSS Modulation Adjustment Modulation Adjustment LTR Code Deviation Adjustment Selcall Tone Deviation FFSK Adjustment (Trunked Models Only) T203X Radios T2040 Radios 6.5 Receiver Adjustments 6.5.1 6.5.2 6.5.3 6.5.3.1 RF Alignment Internal Mute Control RSSI L Level Set-Up (Trunked Radios Only) Page 6.2 6.3 6.5 6.5 6.5 6.6 6.6 6.7 6.7 6.7 6.7 6.8 6.8 6.8 6.9 6.9 6.10 6.10 6.10

-8

-8

# Refer to Section 4.1 for a list of test equipment required and a suggested test set-up. The following precautions must be observed when carrying out the alignment procedures in this Section. The microprocessor shield must remain in place throughout the alignment proce-

dure, with its 3 retaining screws torqued down to 8in.lbf (0.9Nm). To gain access to the alignment test points and adjustment controls, it is only neces-

sary to remove the top cover and logic PCB mounting screws (refer to Section 3.2.1). For accurate tuning, the test cable connecting the signal generator or power meter to the T2000 must be as short as practical and fitted with a mating BNC connector. Do not use adaptors, sniffer couplings, etc., which introduce changes to cable impedance and errors in test results. Non-metallic tuning tools must be used for the alignment of all coil slugs. The use of metallic tools will result in tuning errors. Tuning tools need to be of correct size to avoid the damage to coil slugs. The RF PA and audio output IC have a direct unswitched supply, and are therefore not controlled by the control head on/off switch. This switch removes power only from the regulated supplies.

) Under certain circumstances the microprocessor can key the transmitter. Ensure that all instruments are protected from accidental PTT at all times.

-8

-8

4!5 The following table lists tuning and adjustment points, and Figure 6.1 shows their posi-

tion on the RF and TCXO/Tx audio PCBs. The PCB layouts in Section 7 have all relevant logic PCB test and adjustment points marked. Tuning/Adjustment Point:

Designator RV153 RV222 RV324 CV212 L104 to L106 L114 & L116 L119 L203 RV906 RV907 RV923 RV507

#RV508

#RV599 Test Points:

Designator TSP901 TP601 TP602 TP603 TP604 TP605 TP606 TP607 Location RF PCB TCXO/Tx audio PCB logic PCB Location TCXO/Tx audio PCB logic PCB Function internal squelch control dual point modulation control high power control x4 multiplier

(only used in T2000-800) front end tuning

(not used in T2000-800) IF tuning quad coil x3 /x4 multiplier

(not used in T2000-200) CTCSS deviation control deviation control frequency control low power control T2010, T2015 & T2020:

signalling adjust (not fitted as standard) T203X, T2040, T2050 & T2060:

FFSK adjust Function dual point modulation test point Rx audio (detected) Tx CTCSS Rx CTCSS Rx audio Tx audio ALC audio pre-amp output

-8"

-8+

-8

9 The test facility enables T2000 trunked radios to emulate a multichannel radio, using the frequencies reserved for trunking. For a description of how to put the radio in test mode, refer to Section 5.8 Trunked Radios: Test Mode. Once the radio is in test mode, tuning and adjustment can be car-

ried out as described in Section 6.4 and Section 6.5.

) When in test mode, connect the antenna socket to a dummy load to pre-

vent interference with trunking systems. Avoid testing on channels in use locally.

-8"

!5 In this Section, deviation settings are given first for wide band, followed by settings for medium band in brackets ( ) and settings for narrow band in square brackets [ ].

-8"8

7*& Set up the test equipment as shown in Section 4, and close the PTT switch. Turn RV324 fully clockwise and check that the output power is greater than 30W for all channels. Select a channel programmed for high power and adjust RV324 for 25W. Check that the transmit current is approximately the values stated below:

Model T2000-100 T2000-200 T2000-300 T2000-400 T2000-500 T2000-600 T2000-700/900 T2000-800 Current 6A 6A 6A 6A 6.5A 7A 6.5A 6A Select a channel programmed for low power and adjust RV507 for the required output power.

-8-

-8"8

Close the PTT switch and monitor the transmit frequency with a frequency coun-

ter. Adjust RV923 on the TCXO/Tx audio PCB for a channel frequency within 100Hz at ambient temperature.

-8"8

!5 DC isolate the audio generator from TSP901 using a capacitor (10F is sufficient). Set the audio generator to 7kHz and inject the audio into the dual point modula-

tion input TSP901 on the TCXO/Tx audio PCB. Close the PTT switch and select the lowest frequency channel. Adjust the audio generator level to give a reading of 5.2kHz deviation on the modulation meter. Remove any filters selected on the deviation or modulation meter which could give erroneous readings. Select the highest frequency channel and check that the deviation is 4.8kHz. If not, adjust the audio generator output level so that the average deviation of the two channels is 5kHz. The difference in deviation between the two channels must be less than 800Hz. Select the lowest frequency channel, set the audio generator to 70Hz and inject the audio at TSP901. Adjust RV222 to give 4.8kHz deviation on the modulation meter. Select the highest frequency channel and check that the deviation is 5.2kHz. If not, adjust RV222 so that the average deviation of the two channels is 5kHz. The difference in deviation between the two channels must be less than 400Hz.

-8.

-8"8"

)) !5 The following instructions apply only to those radios with CTCSS activated and must be carried out before any further modulation adjustment can proceed. Refer to the T2000 Programming Manual for the CTCSS channel programming instructions. The frequency range of the CTCSS tone is 67 to 250.3Hz. Switch to any channel with CTCSS activated. Close the PTT switch. Adjust RV906, on the TCXO PCB, to set the CTCSS tone peak deviation for 660Hz 100Hz (530Hz 80Hz) [330Hz 50Hz] on the modulation meter.

-8"8+

,)!5 Close the PTT switch and set up a continuous call. This can be an LTR Repeater Talkaround call, a Repeater Interconnect Call (RIC) or an on-channel call. Adjust RV906 on the TCXO PCB to set the LTR code deviation to 1kHz (900Hz)

[600Hz]. A The deviation meter must have a good low frequency response to avoid incor-

rect readings.

-8"8-

!5 Complete the dual point modulation and CTCSS modulation adjustments (Sec-

tion 6.4.3 and Section 6.4.4) before commencing the modulation adjustment. Apply a 3kHz sine wave at a level of -40dBm to the microphone input. Select a channel with CTCSS activated and close the PTT switch. If CTCSS is disa-

bled, select any channel. Adjust RV907 for a +5kHz (+4kHz) [+2.5kHz] deviation reading on the modula-

tion meter. Maintain the same sine wave output level and sweep the audio frequency from 300Hz to 3.3kHz. Find the frequency of maximum + deviation and readjust RV907 for +5kHz

(+4kHz) [+2.5kHz] deviation. Reset the modulation meter to read - deviation. Slowly sweep the audio frequency from 300Hz to 3kHz. If the - deviation peak is found to exceed -5kHz (-4kHz) [-2.5kHz], readjust RV907 for a peak deviation of

-5kHz (-4kHz) [-2.5kHz] at that frequency. The peak deviation should not exceed 5kHz (4kHz) [2.5kHz] on any channel.

-8/

-8"8.

# This is normally preset at 60% of voice deviation. If adjustment is needed, fit

#RV508 (refer to Section 7 for a component description) to the logic PCB, and pro-

ceed as follows. 2 Adjust #RV508 for 3kHz (2.4kHz) [1.5kHz] deviation reading on the modula-

tion meter. Check to ensure that no limiting occurs in IC901.

-8"8/

33E!5>9 * ?

-8"8/8

1 ; Enter test mode (refer to Section 5.8, Trunked Radios: Test Mode). Press the front panel # key

. Adjust #RV599 for 3kHz 200Hz (2.4kHz 160Hz) [1.5kHz 100Hz] deviation reading on the modulation meter.

-8"8/8

1"1 Enter test mode (refer to Section 5.8, Trunked Radios: Test Mode). Select test function 10 using the control head. Adjust #RV599 for 3kHz 200Hz (2.4kHz 160Hz) [1.5kHz 100Hz] deviation reading on the modulation meter.

-80

-8+

#!5 In this Section, deviation settings are given first for wide band, followed by settings for medium band in brackets ( ) and settings for narrow band in square brackets [ ].

-8+8

3! Set up the test equipment as shown in Section 4, and select the highest possible frequency in the operating band. Set the signal generator to the required receive frequency with modulation set for 3kHz (2.4kHz) [1.5kHz] deviation at 1kHz AF and an output level of

-100dBm. Using the receiver tuning amplifier circuit shown in Figure 6.2, adjust RV1 until the voltage of point A equals 3.0V DC, measured on a 1MW digital multimeter. Connect the receiver tuning amplifier to the RSSI output on pin 15 of S14 (logic PCB) and monitor the output on an oscilloscope (1V/division, DC coupled). If the output on the oscilloscope is 0V DC, increase the RF input level above

-100dBm until the output level just starts to rise. Adjust L104, L106, L105, L114, L116 and L203, in this order, to give maximum amplitude. A L203 is not used in the T2000-200. While tuning the coils, adjust the signal generator output so that the level on the oscilloscope does not exceed 6V DC. Monitor the audio output at the speaker terminals and adjust L119 for maximum amplitude. Set the squelch control (RV153) to minimum and connect a sinad meter across the speaker terminals. Decrease the signal generator output until a 12dB sinad is reached. The signal generator output should not be greater than -117dBm. Switch to the lowest possible frequency in the operating band, and check that the receiver sensitivity is better than -117dBm. input from RSSI R1 12k RV1 100k

(26 turn)

C1 1F

C2 1F

+9V DC IC1 LM358 1 3 2

output to oscilloscope 1V/div.

(DC coupled) R3 10k A = 3V DC R2 390k

-81

-8+8

$ ) If required, the mute setting can be adjusted internally as follows. Align the receiver, as described in Section 6.5.1. Adjust RV153 fully clockwise. Set the signal generator to the required receive frequency. Set the modulation for 3kHz (2.4kHz) [1.5kHz] deviation at 1kHz AF. Adjust the signal generator output for 11dB sinad. Adjust RV153 so that the radio mutes then turn RV153 until the mute gate just opens.

-8+8

$ The T2000 RSSI is non-adjustable and should operate over an approximate 50dB range. Monitor the RSSI output on pin 15 of S14 on the logic PCB. Set the signal generator to the required receive frequency with modulation set for 3kHz (2.4kHz) [1.5kHz] deviation at 1kHz AF and an output level of -70dBm. Decrease the signal generator output in 10dB steps to -120dBm, noting the RSSI output at each step. The RSSI should have a typical slope of approximately 540mV/10dB, from

-120dBm to -70dBm RF input.

-8+8 8 F,D, %&>9* ? These levels are factory set at the time of manufacture and will require reprogram-

ming only if the receiver has been realigned or has had parts replaced, or if the logic PCB has been replaced. Set the signal generator to give an unmodulated RF signal in the centre of the trunking band. Enter test mode. A The T203X will need to use CCTM, as described in Section 5.8.3. Set the signal generator to -108dBm and program L1 (function 61), as described in Section 5.8.5.2. Set the signal generator to -100dBm and program L2 (function 62), as described in Section 5.8.5.2.

 

 

A B C D E F G H J K

L

+5V M N P Q R D5 RED D6 RED D7 RED D8 RED 9 8 7 6 5 4 3 2 1 0 NOTE: COLOURS SHOWN ARE FOR 4 LED DISPLAY.

#LED9 RED

#LED10 YEL

#LED11 GREEN

#LED12 RED 4 LED 2 LED CONFIG LINK R574 560 R575 560 R576 560 R577 560 R588 2K2 R589 4K7 15 1 2 3 4 5 6 7 9

+13V8 R594 10 YEL DIFF D520 BACKLIGHTING YEL DIFF D521 YEL DIFF D522

#TYPE 4LED 2LED

#LED9 SLC-22VR SLC-22YY

#LED10 SLC-22YY SLC-22VR

#LED11 SLC-22MG

#LED12 SLC-22VR

Q550 BC848 R591 150 R590 2K2

+5V

+5V SQH RESET CLK P/S D8 1 P8 2 P8 3 P8 4 P8 5 P8 6 P8 DGND 7 P8 74HC04 IC515 1 74HC04 IC515 9 74HC04 IC515 13 74HC04 IC515 11 2 8 12 10 R548 560 R549 560 R550 560 R551 560 R552 560 R553 560 R554 560 R555 560 R556 7 47K 5 5 R 8 5 5 R 47K 9 5 5 R 47K 0 6 5 R 47K 1 6 5 R 47K 2 6 5 R 47K 47K R563 47K

+5V C570 100N 16 74HC595 VCC Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7 IC514 SHIFT REG

+5V 14 V+

IC515 74HC04 7 V-

14 DI 14 DI 11 12 CK LE 11 12 CK LE

+5V C510 100N 74HC595 IC508 SHIFT REG 16 VCC Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7 15 1 2 3 4 5 6 7 9 SQH RST 10 OE GND 8 13 R567 1K0

+5V 16 VCC 4021 IC507 SHIFT REG 2 Q6 12 Q7 3 Q8 GND 8 P/S C 9 7 6 5 4 13 14 15 1 11 D0 D1 D2 D3 D4 D5 D6 D7 DS CK 10 SQH OE 13 GND 8 RST 10 R573 1K0 IC515 74HC04 5 6

+13V8 3 74HC04 IC515 4 D1 RED D2 RED D3 RED D4 RED SWPAD SWPAD SWPAD SWPAD B5 B6 B7 B8 SWPAD SWPAD SWPAD SWPAD B1 B2 B3 B4

+13V8-UNSW

+13V8 TX-DATA RX-DATA PTT-IN GND AF MIC-I/P VOL 8 P8 9 P8 10 P8 11 P8 12 P8 13 P8 14 P8 15 P8 16 P8 TBADMARK BADMARK BBADMARK BADMARK P8 16 WAY PADDLE CONNECTOR P11 2X5 WAY RIGHT ANGLE HEADER Q506 BC848 R545 47K R544 47K 3 2 BAV99 D502 C512 1N0 C513 1N0 R564 470 R566 470 R565 470 C516 4N7 C511 15N C531 150P 3 P11 2 P11 1 P11 4 P11 5 P11 6 P11 7 P11 8 P11 9 P11 10 P11 TXD PTT MIC GND RXD AF GND VOL

+13V8-UNSW

+13V8-UNSW

+13V8

+13V8 3 S11 2 S11 1 S11 4 S11 5 S11 6 S11 7 S11 8 S11 9 S11 10 S11 PT501 4 5 10K LOG SPST SWITCH C514 10N C518 22N C515 1N0 C517 10N 1 S10 2 S10 3 S10 4 S10 5 S10 6 S10

+13.8V TXD PTT MIC GND RXD R587 10 1 CW PT501 2 3 10K LOG SPST SWITCH R517 0 9 8 7 6 5 4 3 2 1 0 1A 1A REV/ISS UPDATE TEXT ADDED(3) 1N0 CAPS BY S10 FOR EMC AMENDMENTS RPS YH DRAWN CHKD D.O. APVD 05/11/96 18/11/95 DATE S11 2X5 WAY PLUG S10 6 WAY RIGHT ANGLE PHONE JACK

TAIT ELECTRONICS T2000 DISPLAY PCB 2010/2030 IPN:

220-01319-01 ISSUE:

A PROJECT:

T2000 DESIGNER:

YH FILE NAME:

2D1001A ID:. 2.SC. 1 FILE DATE:

05/11/96 NO.SHEETS:

1

A B C D E F G H J

L M N P Q R TENS HDSP-7503 K 5 3 2 4 1 7 6 D0 D1 D2 D3 LD BI PH

+5V

+5V C542 100N 16

+V IC510 4543 GND 8 X7 680 R596A R596B 680 R596C 680 R596D 680 R596E 680 R596F 680 R596G 680 9 10 11 12 13 15 14 A B C D E F G C543 100N 9 10 11 12 13 15 14 A B C D E F G 5 3 2 4 1 7 6 D0 D1 D2 D3 LD BI PH 16

+V IC512 4543 GND 8 X7 680 R597A R597B 680 R597C R597D 680 R597E 680 R597F 680 R597G 680 680 B C 10 9 8 5 4 2 3 7 A B C D E F G DP F E 1 A G D 6 UNITS HDSP-7503 B C 10 9 8 5 4 2 3 7 A B C D E F G DP F E 1 A G D 6 Q508 BC857 Q509 BC848 R598 2K2 R599 4K7 R552 560 R553 560 R554 560 R555 560 DMON RED DSCAN RED DCALL RED DAUX RED IC515 2 IC515 12

+13V8 R594 10 D520 YEL DIFF D521 YEL DIFF D522 YEL DIFF Q550 BC848 TX RED BUSY YEL R576 560 R577 560 R591 150 R590 2K2 R588 2K2 R589 4K7

+5V 15 1 2 3 4 5 6 7 9

+5V C570 100N 16 74HC595 VCC Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7 IC514 SHIFT REG 14 DI 14 DI 11 12 CK LE 11 12 CK LE

+5V C510 100N 74HC595 IC508 SHIFT REG 16 VCC Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7 15 1 2 3 4 5 6 7 9 SQH SQH OE 13 GND 8 RST 10 R573 1K0 RST 10 OE GND 8 13 R567 1K0 74HC04 1 74HC04 13

+5V SQH RESET CLK P/S D8 DGND

+13V8-UNSW

+13V8 TXD RXD PTT-IN GND AF MIC-I/P VOL 1 P8A 2 P8A 3 P8A 4 P8A 5 P8A 6 P8A 7 P8A 8 P8A 1 S8B 2 S8B 3 S8B 4 S8B 5 S8B 6 S8B 7 S8B 8 S8B S8B 8 WAY TOP ENTRY SKT S10 6 WAY RIGHT ANGLE PHONE JACK P8A 8 WAY PADDLE CONNECTOR S11 2X5 WAY PLUG P11 2X5 WAY RIGHT ANGLE HEADER

+5V 16 VCC 2 Q6 12 Q7 3 Q8 4021 IC507 SHIFT REG IC515 74HC04 3 4 GND 8 P/S C 9

+13V8 47K 6 5 5 R 7 5 5 R 8 5 5 R 9 5 5 R 0 6 5 R 1 6 5 R 2 6 5 R C580 100N 3 6 5 R 47K 47K 47K 47K 47K 47K 47K 7 6 5 4 13 14 15 1 11 7X D0 D1 D2 D3 D4 D5 D6 D7 DS CK 10 C531 150P DISPLAY BOARD POT BOARD Q506 BC848 R544 47K 3 2 R545 47K BAV99 D502 74HC04 IC515 5 6 R564 470 R565 470 C513 1N0 C512 1N0 C511 15N R566 470 C516 4N7 3 P11 2 P11 1 P11 4 P11 5 P11 6 P11 7 P11 8 P11 9 P11 10 P11 TXD PTT MIC GND RXD AF GND VOL

+13V8-UNSW

+13.8V 3 S11 2 S11 1 S11 4 S11 5 S11 6 S11 7 S11 8 S11 9 S11 10 S11 LINK500 R500 1K0 B-M2 SWPAD B-M1 SWPAD B-UP SWPAD B-DN SWPAD MON SWPAD SCAN SWPAD CALL SWPAD AUX SWPAD 1 S10 2 S10 3 S10 4 S10 5 S10 6 S10

+13.8V TXD PTT MIC GND RXD C520 3N3 C519 10N C517 22N C518 1N0 MIC SKT R587 10 4 10K LOG SPST SWITCH 1 CW PT501 2 3 R517 0 5 PT501 10K LOG SPST SWITCH 9 8 7 6 5 4 3 2 1 0 2A P2 P1 1A REV/ISS UPDATED FOR EMC MODIFICATIONS BP/PW BP/PW BP/PW YH PW PW PW 19/2/96 AMENDMENTS DRAWN CHKD D.O. APVD DATE

9 8 7 6 5 4 3 2 1 0

+5V 14 V+

IC515 74HC04 7 V-

TBADMARK BADMARK BBADMARK BADMARK TAIT ELECTRONICS T2015/T2060 CONTROL HEAD PCB ID:. 2.SC. 1 FILE DATE:

18-10-96 FILE NAME:

2D150L1A ISSUE:

A YH DESIGNER:

IPN:

220-01320-01 PROJECT:

T2000 NO.SHEETS:

1

A B C D E F B1 SWPAD B2 SWPAD B3 SWPAD B4 SWPAD B5 SWPAD B6 SWPAD F1 SWPAD F2 SWPAD F3 SWPAD F4 SWPAD B7 SWPAD B8 SWPAD B9 SWPAD F5 SWPAD F6 SWPAD F7 SWPAD F8 SWPAD B*

SWPAD B0 SWPAD B#

SWPAD

+5V G

+5V MC34064D 1 RES 2 IN IC706 LVI GND 4 C703 100N 44 VCC 4 VPP H

+5V R768 47K C717 15N J

+13V0 R720 10 R743 10 C704 100N 8 4 VIN N/C IC705 78L05 1 5 VOUT N/C

+5V C705 100N GROUND 2 3 6 7 C706 47U C720 47U K L M N 74HC04 IC703 5 74HC04 IC703 3 6 4 R777 10K R776 10K

+5V R778 560 DF7 RED R779 560 DF3 RED

+5V C716 100N 9 8 7 6 5 4 3 2 1 0 R705 47K R706 47K R707 47K R708 47K R709 47K 3 18 23 40 NC NC NC NC 39 38 37 36 35 34 33 32 24 25 26 27 28 29 30 31 PD7 TCMP SS/PD5 SCK/PD4 MOSI/PD3 MISO/PD2 TDO/PD1 RDI/PD0 IC701 68HC05C4FN PC7 PC6 PC5 PC4 PC3 PC2 PC1 PC0 1 RESET IRQ TCAP PA7 PA6 PA5 PA4 PA3 PA2 PA1 PA0 PB7 PB6 PB5 PB4 PB3 PB2 PB1 PB0 2 41 5 6 7 8 9 10 11 12 21 20 19 17 16 15 14 13 R717 2K7 R718 47K R711 470 C713 4N7 C711 15N HOOK DETECT

+5V 14 V+

IC703 74HC04 14 V+

IC704 74HC04 7 V-

7 V-

R710 470 C712 1N0 Q702 BC857 R719 10K R716 4K7 IC703 74HC04 8 9 C730 4N7 GND 22 OSC2 42 OSC1 43 R767 10M X701 4M C702 22P C701 22P

+5V R730 47K 9 10 IC703 74HC04 74HC04 IC704 8 11

+5V 1 3 BAV99 D703 BAV99 D703 3 2 R715 4K7 R712 R713 470 C710 47K BAV99 1 1N0 D701 3 R714 47K Q701 BC848

+13V0 Q103 BCW72 R106 2K2 4U7 C102 C103 1N0

+5V R762 10K R763 10K P701 P702 P703 6 74HC04 IC704 5 R766 10K I/OPAD I/OPAD I/OPAD R764 3K3 R765 10K

+13V0 Q704 BC857

+5V R739 2K2

*R732 1K0 R734 2K2 R733 2K2

*C720 4U7

*C721 22N C709 0805 R735 1K8 R736 6K8 R738 2K7 R737 10K 4N7 C708 C722 100N Q705 BC848 R740 12K Q706 BC848 R731 47K Q703 BC848 C707 10N R741 33K R750 4K7 R701 2K7 R702 2K7 R703 2K7 R704 2K7 BACKLIGHTING

+13V0 Q711 BC869 Q710 BC848

+5V

+5V R793 33 R790 470 D713 4V7 D714 4V7 BULB-705 LAMP 5V BULB-704 LAMP 5V R791 390 D R A O B T O P D R A O B Y A L P S D I TXD PTT MIC GND RXD AF VOL

+13.0V-UNSW

+13V8-SW

+13V0 3 P11 2 P11 1 P11 4 P11 5 P11 6 P11 8 P11 7 P11 9 P11 10 P11 3 S11 2 S11 1 S11 4 S11 5 S11 6 S11 8 S11 7 S11 9 S11 10 S11 R746 10K R110 0805

+13.0V-UNSW

+13V0 R792 33 BULB-701 LAMP 5V BULB-702 LAMP 5V BULB-703 LAMP 5V C731 10N R595 10 D710 3V3 D711 3V3 D712 3V3 MIC SOCKET

+13.8V TXD PTT MIC GND RXD 1 S10 2 S10 3 S10 4 S10 5 S10 6 S10 PT501 10K LOG SPST SWITCH C732 10N C734 22N C733 1N0 1 CW 2 3 R517 0 PT501 10K LOG SPST SWITCH DECOUPLING C911 0805 4 5 C912 0805

P

+5V R797 10K

-T R796 1K2 R795 470 1 2 3 4 6 7 8 9 10 13 15 14 16 17 18 19 20 21 22 23 24 25 26 27 28 5 VDD 12 VLCD SDA SCL SYNC CLK OSC A0 A1 A2 SA0 BP0 BP1 BP2 BP3 S0 S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 IC702 8576T VSS 11 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 S39 S38 S37 S36 S35 S34 S33 S32 S31 S30 S29 S28 S27 S26 S25 S24 S23 S22 S21 S20 S19 S18 S17 S16 S15 S14 S13 S12 BP0 BP1 BP2 S0 S1 S2 S3 S4 S5 S6 S7 S8 S9 S10 S11 Q R BBADMARK BADMARK TBADMARK BADMARK S39 S38 S37 S36 S35 S34 S33 S32 S31 S30 S29 S28 S27 S26 S25 S24 S23 S22 S21 S20 S19 S18 S17 S16 S15 S14 S13 S12 BP0 BP1 BP2 42 43 1 COM1 COM2 COM3 S4 S3 S2 S1 S0 S9 S8 S7 S6 S5 S14 S13 S12 S11 S10 S19 S18 S17 S16 S15 37 38 39 40 41 32 33 34 35 36 27 28 29 30 31 22 23 24 25 26 1BHC 1KNBUSY 1JMA 1ILD 1FGE LCD T2000LCD 2BHC 2KNTX 2JMA 2ILD 2FGE 3BHC 3KNSCAN 3JMA 3ILD 3FGE 4BHC 4KNWAIT 4JMA 4ILD 4FGE 17 18 19 20 21 12 13 14 15 16 7 8 9 10 11 5BHC 5KNGO 5JMA 5ILD 5FGE 6BHC 6KNP1 6JMA 6ILD 6FGE 7BHC 7KNX1 7JMA 7ILD 7FGE 8BHC 8KNSVC 8JMA 8ILD 8FGE 2 3 4 5 6 S24 S23 S22 S21 S20 S29 S28 S27 S26 S25 S34 S33 S32 S31 S30 S39 S38 S37 S36 S35 9 8 7 6 5 R780 12 560 DF8 RED R769 180K 74HC04 IC703 13 R775 10K 74HC04 IC703 1 74HC04 IC704 R774 10K 11 R773 10K 74HC04 IC704 13 R772 10K 74HC04 IC704 3 4 2 74HC04 IC704 1 R771 10K R770 10K R781 560 2 R782 10 560 R783 12 560 R784 560 R785 560 DF4 RED DF5 RED DF1 RED DF6 RED DF2 RED

+5V R760 4K7 R761 4K7

+5V C721 1N0 C700 1N0 R752 470 1 S20 2 S20 3 S20 4 S20 5 S20 6 S20 1 S9A 2 S9A 3 S9A 4 S9A 5 S9A 6 S9A 7 S9A 8 S9A DGND SERIAL-DATA 4 SERIAL-CLK DTMF-OUT MIC-COMPRESS

+5V

+13.0V-UNSW DGND TXDATA RXDATA GND AF MIC-O/P VOL D R A O B L O R T N O C O T 3 2 1 0 R751 470

+13.0V-UNSW C714 10U C726 1N0 C715 10U C725 1N0 Q715 BC857 R729 330 R753 330 Q713 BC857 R723 330 R724 330 R747 330K R742 560K

+5V R728 10 R727 120K Q714 BC848 C727 100N R726 68K C729 10N

+5V R725 10 R721 33K C723 100N Q712 BC848 C728 10N R722 18K C913 0805 C914 0805 C915 0805 C531 150P

*MIC DYNAMIC ELECTRET

*C720 4U7FR

*C721

*R732

22NT

1K0S 4A 4A 3A 2A 0A REV/ISS UPDATE TEXT RPS YH SAME AS 3A,MOVED CHIPS AROUND THE CLIP UPDATED FOR EMC MODS,AND CHANGED S9A TO LEADED MICRO-M. YH ADDED EMI CAPACITORS,CHANGE S9A TO SMD YH MNC DEPANELLED AND ADDED ECON CCT. DRAWN AMENDMENTS KB CHKD 05/11/96 28/2/96 16/12/95 19/9/95 D.O. APVD DATE P11 2X5 WAY RIGHT ANGLE HEADER S10 6 WAY RIGHT ANGLE PHONE JACK S9A 8 WAY TOP ENTRY SKT S11 2X5 WAY PLUG S20 T2000 DTMF PCB TAIT ELECTRONICS T2000 LCD DISPLAY IPN:

220-01321-04 ISSUE:

A PROJECT:

T2000 DESIGNER:

YH FILE NAME:

2D200L4A ID:. 2.SC. 1 FILE DATE:

05/11/96 NO.SHEETS:

1

9 8 7 6 5 4 3 2 1 0 A B C D E F G H J K L M N P Q R

GO GREEN WAIT YEL TX RED SVC RED R639 560 R638 560 R637 560 R636 560 13.8 R594 10 D520 YEL DIFF D521 YEL DIFF D522 YEL DIFF Q550 BC848 R591 150 R590 2K2 I/OPAD PAD3 R588 2K2 R589 4K7 15 1 2 3 4 5 6 7 9

+5V 1 P8A

+5V

+5V

+5V 12 11 D CP 10 S D IC517 FF 74HC74 R D 13 9 8 Q Q

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+5V 20 VDD IC508 14499 5 6 15 14 DATA OSC CL EN VSS 9 C510 10N 5 6 Q Q

+5V C542 100N 4 3 2 1 19 18 17 16 13 12 8 7 A B C D E F G H 1 2 3 4 HUNDREDS HDSP-7503 B C 10 9 8 5 4 2 3 7 A B C D E F G DP F E A G D 1 6 Q516 BC848 R574 270 R553 270 R567 270 R552 270 R555 270 R597 270 R575 270 R554 270 74HC04 1 9

+5V 74HC04 IC515 2 IC515 8 I/OPAD I/OPAD PAD1 PAD2 TENS HDSP-7503 10 9 8 5 4 2 3 7 A B C D E F G DP F E A G D 1 6 B C Q515 BC848 DSP RED CLEAR RED R635 10K K 7 4 6 5 5 R 7 5 5 R 7X 8 5 5 R 47K 9 5 5 R 47K 0 6 5 R 47K 1 6 5 R 47K 2 6 5 R 47K 3 6 5 R 47K K 7 4 UNITS HDSP-7503 10 9 8 5 4 2 3 7 A B C D E F G DP F E A G D 1 6 B C Q514 BC848 I N O T C N U F D E R K B

L L A C D E R Q513 BC848 D523 BAV99 D523 BAV99 D524 BAV99 2 3 3 1 2 3 Q512 BC848 CALL SWPAD X1 SWPAD X10 SWPAD X100 SWPAD CLR SWPAD DESP SWPAD FUNC SWPAD QUE SWPAD C580 100N 4021 16 VCC IC507 SHIFT REG 2 Q6 12 Q7 3 Q8 GND 8 P/S C 9 74HC04 IC515 5 6 74HC04 IC515 3 4 7 6 5 4 13 14 15 1 11 D0 D1 D2 D3 D4 D5 D6 D7 DS CK 10 R564 470 R565 470 C513 1N0 C512 1N0 C511 15N R566 470 C516 4N7

13.8 V C531 150P PAD4 I/OPAD DISPLAY BOARD POT BOARD 3 P11 2 P11 1 P11 4 P11 5 P11 6 P11 7 P11 8 P11 9 P11 10 P11 TXD PTT MIC GND RXD AF GND VOL

+13.8V-UNSW

+13.8V 3 S11 2 S11 1 S11 4 S11 5 S11 6 S11 7 S11 8 S11 9 S11 10 S11 1 S10 2 S10 3 S10 4 S10 5 S10 6 S10

+13.8V TXD PTT MIC GND RXD MIC SKT C517 3N3 C518 10N C520 22N C519 1N0 R587 10 4 10K LOG SPST SWITCH 1 CW PT501 2 3 R517 0 9 8 7 6 5 4 3 2 1 0 S11 2X5 WAY PLUG P11 2X5 WAY RIGHT ANGLE HEADER P8A 8 WAY PADDLE CONNECTOR S8B 8 WAY TOP ENTRY SKT S10 6 WAY RIGHT ANGLE PHONE JACK 5 PT501 10K LOG SPST SWITCH TAIT ELECTRONICS T2035 CONTROL HEAD PCB IPN:

220-01322-03 ISSUE:

A PROJECT:

T2000 DESIGNER:

YH FILE NAME:

2D35L3A ID:. 2.SC. 1 FILE DATE:

18-10-96 NO.SHEETS:

1

14 V+

IC515 74HC04 7 V-

+5V 14 V+

IC517 74HC74 7 V-

TBADMARK BADMARK BBADMARK BADMARK

+ V 13.8 Q506 BC848 R544 47K 3 2 R545 47K BAV99 D502 2 P8A 3 P8A 4 P8A 5 P8A 6 P8A 7 P8A 8 P8A 1 S8B 2 S8B 3 S8B 4 S8B 5 S8B 6 S8B 7 S8B 8 S8B SQH RESET CLK P/S D8 DGND

+13V8

+13.8V TXD RXD PTT-IN GND AF MIC-I/P VOL 01/03/91 28/8/90 1/3/96 23/01/96 5/10/95 27/5/94 26/2/94 23/11/93 DATE BP BP BP YH YH YH B,P.(J,F) B,P.(J,F) B,P.(J,F) DRAWN S,H. S,H. S,H. CHKD D.O. APVD PRE-PRODUCTION UPDATE UPDATE FROM PROTO-1 ORIGINAL MOVED C520 AWAY FROM S11 ADDED 4 CAPS BY PIN(1,3,4) S10 FOR EMC MODS DEPANELLED THE DISPLAY BOARD ADDED FETCHED IN CORRECTED 40218D VERSION ONLY ORIGINAL BY BRENT.P IC512-GATES. IC517 &

(MODIFIED DISPLAY BY JF) AMENDMENTS 2A T99 PROTO-1 3A 2A 1A 0A P2 PROTO-1 REV/ISS

 

 

 

 

 

 

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This Section provides information on T2000 Series II accessories. The following accessories are covered in this Section:

Section Title PCB IPN Page 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9 8.10 8.11 8.12 8.13 8.14 8.15 8.16 T2008 Power Supply 220-01170-03 Connection To External Devices T2000-500 & T2000-600 1-7W Versions T2000-05 Remote Speaker Kit T2000-A06 Desktop Microphone Kit T2000-A07 DTMF Microphone Kit T2000-34 Selcall Kit T2000-A36 Selcall Kit T2000-40 DTMF Kit T2000-A450X CTCSS & Scrambler Kits T2000-A50 Handsfree Kit T2000-A60 Dual Port UART Kit T2000-A66 Single Port UART Kit T2000-A80 Line Interface Kit T2000-A70 Data Modem Kit T2000-A03/-A04/-A16 Remote Loom Kits 220-01313-02 220-01335-04 225-01210-03 220-01251-01 220-01348-04 220-01272-02 220-01378-01 8.1.1 8.2.1 8.3.1 8.4.1 8.5.1 8.6.1 8.7.1 8.8.1 8.9.1 8.10.1 8.11.1 8.12.1 8.13.1 8.14.1 8.15.1 8.16.1

The following topics are covered in this Section:

Title Section 8.1.1 8.1.2 8.1.3 8.1.4 8.1.5 8.1.6 8.1.7 8.1.8 8.1.9 8.1.10 Operation Performance Specifications Precautions Circuit Operation Installation Introduction To Servicing Setting Up The Power Supply Fault Finding Repair PCB Information Page 8.1.2 8.1.3 8.1.5 8.1.6 8.1.8 8.1.10 8.1.12 8.1.14 8.1.15 8.1.17

The T2008 Power Supply is a mains operated power supply designed to provide the DC supply requirements of the T2000 Series II radios. It uses switch mode technology to control the regulation of the output voltage, which results in a power supply with a higher temperature rating, improved efficiency and greater reliability. The power supply can either be operated with the radio sitting on top as a desk top unit, or with the radio and power supply detached as two separate units (refer to Section 8.1.5, Installation). The T2008 has protection circuits for overcurrent, overtemperature and overvoltage pro-

tection circuitry. Current limiting is included to restrict the peak current to about 9.5A. In addition, a self-restoring thermal shutdown keeps the temperature of the switching transistor within the safe operation area ratings. The point of thermal shutdown is also dependant on the load current, to allow for a higher duty cycle rating at lower output currents. The output voltage and thermal shutdown points are factory preset. The power supply also has a limited capability to float charge a lead acid battery under constant voltage conditions (refer to Section 8.1.5, Installation).

T2000-21, -23, -24:

Voltage Frequency T2000-22:

Voltage Frequency

.. 230V 10% (limits: 207-253V AC)

.. 50Hz

.. 115V 10% (limits: 105-130V AC)

.. 60Hz Power

(mains input +10%, current limited output)

.. 200VA maximum Mains Supply Plug:

T2008-21 T2008-22 T2008-23 T2008-24

Voltage Current:

Intermittent Operation

(TA = 25C, input 230V) Peak Rating Continuous Rating

(TA = 25C, input 230V)

.. New Zealand

.. USA

.. UK

.. European

.. 13.8V DC (adjustable 12.5 to 14.5V)

.. 6.5A at 33% duty cycle (maximum 2

.. 8A max. (duration limited by thermal minutes on) shutdown)

.. 4.5A maximum Voltage Regulation

(supply variation 10%, currents up to 6A, temp. range -10C to +60C)

.. 5%

Current Limiting (TA = 25C)

(10A secondary fuse available) Overvoltage Thermal Overload

(cold start @ 25C, input = 115/230V)

.. 9.5A nominal

.. 16V 5% by zener transient suppression diode (not self-restoring)

.. shutdown occurs at approximately 95C heatsink temperature (7A continuous after 1 hour)

Input:

Primary Fuse:

T2008-21, -23, -24 T2008-22 Thermal Cutout

Ripple and Noise 0 to 6.0A, mains voltage 10%

Operating Temperature Range Weight Dimensions:

Height Length Width

.. 1A time delayed

.. 3A

.. integral with transformer

.. less than 10mVrms

-10C to +40C

.. 3.0kg

.. 95mm

.. 225mm

.. 150mm

The power supply contains voltages that may be lethal. The unit should not be disman-

tled without first disconnecting the mains supply. Servicing should be carried out only by qualified technicians.

If the power supply is operated at high output currents and/or a high duty cycle rate for a prolonged period of time (e.g. more than 10 minutes), the heatsink will become very hot. Do not touch. Do not operate the power supply in a sealed cabinet. Ensure that there is an adequate airflow past the unit, and in particular past the heatsink at the back of the unit.

If the mains supply cord needs replacing, it must be replaced with a mains supply cord of the same size and type as originally fitted.

When using a T2008 and radio at a fixed location, it is advisable to check the maximum allowable transmit power, as defined by the local radio regulatory authority. This is commonly in the range of 1 to 5W, and exceeding this output power may result in pros-

ecution.

If the duty cycle (33%) of the radio and power supply is likely to be exceeded, then the radio output power must be reduced to ensure that the current drawn from the power supply does not exceed its rating. It is advisable to check the current drawn from the power supply, regardless of duty cycle, if the radio is operated at full power (25W). Variations in antenna VSWR can result in current drain, which may exceed the rating of the supply.

Refer to the diagram to the rear of this Section.

The mains supply is connected to the primary of the transformer via the supply cord, input fuse and on/off switch. A conventional bridge rectifier is used across the secondary winding of the transformer, with both positive and negative leads being isolated from earth. Five PCB mounted smoothing capacitors are used to produce a 23V DC bus from the 18Vrms secondary of the transformer. The ripple on the DC bus is 4V peak to peak, with an output current of 6A. The front panel LED is illuminated when mains power is applied.

Voltage regulation is provided by the complementary Darlington configuration of Q1 and Q2. The switching of this pair is derived directly from IC1 (TL494). When Q1 is turned on, current flows in inductors L1, L2 and L3 to supply the output. Capacitors C6 and C7 hold the output voltage at a nominal 13.8V. When Q1 turns off, the current flowing in the inductors continues to flow, via diode D1. C8, C9 and L3 form a common mode filter to suppress conducted noise at the output.

A pulse width modulating IC (IC1) controls the switching of Q1 and thus the regulation of the output voltage. A voltage divider (R4, R5 and RV1) converts the output voltage to a 5V nominal level. It is then compared to IC1s temperature compensated internal 5V reference. The length of time Q1 is turned on is proportional to the difference between the reference and the output voltage. Feedback compensation is provided by C10, C11, R6 and R7, while R10 improves the transient response for the feedback circuit.

Current limiting is provided by monitoring the voltage across the current sense resistor

(R18). When the current is increased to approximately 9.5A, the voltage on pin 15 of IC1 decreases to a point where the pulse width of the switching waveform decreases. In addition, a 10A fuse is provided in the secondary circuit of the power supply.

Overvoltage protection is provided by diode D2 and fuse F2. D2 is a 16V zener transient suppression diode that reacts instantly to overvoltage DC or spikes. If an overvoltage condition persists, causing excessive power dissipation in D2, it will become short cir-

cuit, causing F2 to blow. F2 will need to be replaced before operation of the power sup-

ply is possible. D2 will need to be replaced to restore overvoltage protection.

Transistor Q3 is mounted on the heatsink and its junction temperature therefore closely follows that of both the heatsink and Q1. Q3 is biased by R12 and RV2. As the tempera-

ture of the heatsink increases, the temperature of the base- emitter junction of Q3 also increases, which results in the Vbe of Q3 decreasing. At 95C, the base-emitter voltage is exceeded by the biasing voltage, and Q3 switches on. As a result, Q4 turns off, and the deadtime pin (pin 4 of IC1) is pulled high. The deadtime is now 100%, which means Q1 is completely turned off.

The T2008 power supply is designed to provide the DC supply requirements of the Tait T2000 two way radios. It can be operated either with the radio sitting on top as a desk top unit, or with the radio and power supply detached as two separate units. The bot-

tom case includes two screw recesses for wall mounting. The two way radio then can be mounted in its cradle next to the supply, or operated away from it, e.g. on a desk top, etc. If the radio and the power supply are operated away from each other, an extension cable for the DC supply would have to be used. To keep the voltage drop of this extension cable reasonably low, the wiring should be of sufficient gauge to carry the required load. It is recommended that a minimum wire size of 1.5mm is used. The power supply requires a mains supply of 230V nominal 50Hz or 115V nominal 60Hz, as set out in Section 8.1.2. If the power supply is run at a high duty cycle rate, high continuous output currents and/or high mains input voltage, it will generate a considerable amount of heat. An adequate flow of cooling air past the unit, particularly past the heatsink, is therefore essential for reliable operation. Do not operate the power supply in a completely enclosed cabinet.

 Do not touch the heatsink after prolonged heavy duty operation. Keep the heatsink away from anything affected by heat (plastics, etc). The microphone clip supplied with every power supply may be attached to the side of the top cover with the supplied screws and spacer, which fits between the clip and cover. The hook switch monitor wire should be connected as shown in the wiring dia-

gram.

The power supply has a limited capability to float charge a lead acid battery under con-

stant voltage conditions. The performance is limited by the way the power supplys continuous output current rating is limited (typically 4.5A at 20C). The following diagram shows an external protection circuit, consisting of two diodes with the appropriate ratings (i.e. 10A/50V), to be used when float charging a lead acid battery. This circuit prevents damage to the power supply due to reverse current, or the battery being connected with reverse polarity. The current limit prevents charging from being excessive, should a discharged battery be connected. The output voltage of the power supply does not compensate for the tem-

perature dependence of lead acid batteries.

All sub-assemblies within the T2008 power supply (e.g. transformer, PCB/heatsink) are housed in a specially moulded plastic case with no screws. The top and bottom halves of the plastic case are fastened by four self-tapping screws. All electrical components except the transformer and LED are mounted on either the larger regulator/heatsink PCB or on the smaller mains input PCB.Disassembly

 Disconnect the unit from the mains supply before attempting to remove the top case.

The power supply contains voltages that may be lethal. The unit should not be disman-

tled without first disconnecting the mains supply. Servicing should be carried out only by qualified technicians.

If the power supply is operated at high output currents and/or a high duty cycle rate for a prolonged period of time (e.g. more than 10 minutes), the heatsink will become very hot. Do not touch. Do not operate the power supply in a sealed cabinet. Ensure that there is an adequate airflow past the unit and in particular past the heatsink at the back of the unit.

If the mains supply cord needs replacing, it must be replaced with a mains supply cord of the same size and type as originally fitted.

Turn the unit upside down and remove the two self-tapping screws. Turn the unit back on its feet and remove the two top screws. Carefully lift the top case away from the unit. All the sub-assemblies are now easily accessible, and can be lifted out as neces-

sary.

Unsolder the leads of the transistor using solder wick or a solder sucker. Remove the appropriate screws and carefully lift off the transistor. Mount the new transistor using a silicon insulating gasket on the underside. Do not use any other insulators (mica, etc) as they are unlikely to fit under Q1 and/or would require thermal compound. Refit the two screws for Q1 from the copper side of the PCB. Isolate each of these two mounting screws from touching the heatsink with a 3mm length of silicone rubber sleeving. Use spring washers under the two nuts. Carefully position the PCB onto the heatsink before tightening the two screws/

nuts. Ensure that Q3 sits firmly against the walls in its slot on the heatsink. Resolder the leads of the transistor.

Reassembly is carried out in the reverse order to disassembly.

Ammeter: 10A DC

Voltmeter: 0 - 20V DC

Load Resistor: 0 - 100, 10A (variable)

Short circuit plug-in link: IPN 240-04020-62

Ohmmeter: infinity to 0

Refer to the T2008 circuit and wiring diagrams to the rear of this Section. Check with the ohmmeter that the heatsink is electrically isolated from the nega-

tive output. Connect the variable load in series with the ammeter across the output terminals

(see wiring diagram for the pin configuration of the output plug). Set the load to maximum resistance (minimum load current). Connect the DC voltmeter across the power supply output terminals. The DC output wiring should be of sufficient gauge to carry the load current required. It is recommended that a minimum wire size of 1.5mm is used. Plug in the mains connector.

Switch on the power supply. Set RV1 for an output voltage of 13.8V. Switch off the power supply.

Before setting up the temperature shutdown, ensure that the power supply is at ambient temperature, i.e. it has not been running recently with any significant load current. The temperature shutdown is based on a heatsink ambient tempera-

ture of 25C. Disconnect the load resistor.

Insert the plug-in link (1 - 2). Switch on the power supply. Set RV2 (TSD) so that the power supply just shuts down. Switch off the power supply. Remove the plug-in link.

Reconnect the load resistor. Switch on the power supply. Decrease the load resistance (current rises) and set it for an output current of approximately 9.5A. Decrease the load resistance and the voltage output should drop, indicating that current limiting is in progress. If the power supply is very hot, the current limit circuit may cause the unit to switch off completely. If this occurs, switch off the mains supply and wait approximately one minute. The power supply should now operate normally.

The checks listed below have been included to provide assistance in locating faults. It is sometimes convenient to disable a complete section of the power supply in order to iso-

late a fault. If individual sections are isolated the rest of the unit should operate nor-

mally (refer to Figure 8.1.2, Typical Waveforms for details).

Faulty diodes and transistors can generally be found by a simple ohmmeter check, as follows (an AVO model 8 or equivalent meter should be used for taking the measure-

ments, using only the medium or low resistance ranges):

Set the ohmmeter to the ohms x 1 range. Measure the forward and reverse resistance of each junction. The resistance in one direction should be low (generally 30 to 100), and the resistance in the other direction should be high. In a faulty transistor or diode, the junctions will usually be either short or open circuited.

 Other components in the circuit may affect these readings unless the junctions are isolated. The collector current drawn by multijunction transistors is a further guide to their oper-

ating performance.

The following table shows voltages under normal operating conditions, and those fol-

lowing thermal shutdown:

output voltage Q3 base-emitter voltage Q4 base-emitter voltage IC1 pin 4 voltage IC1 pin 14

(voltage reference) Normal Operation

(V) 13.8 0.2 approx. 0.7 approx. 0 5 Thermal Shutdown Operating (V) 0 0.7 approx. 0 approx. 5 5

The following waveforms can be expected under the stated conditions.

The T2008 power supply requires specialised component replacement techniques. Before attempting repair, refer to Section 3.4, Repair.

r e w o P y a W 4 r o t c e n n o C i o d a R 0 0 5 T o t 2 1 0 I o T 1 C I t u O

t u O

r e k a e p S l a n r e t n I t u O

r e k a e p S

. t x E d n G t u O

r e k a e p S

. t x E e v L i 7 E C 5 C 4 C

2 ~

C p i l i C c M o T i s n a M h t r a E w o l l e Y

n e e r G l i d e h S h t r a E r e m r o f s n a r T e t i r r e F d a e B n e e r G i s n a M w o l l e Y n w o d t u h S l a m r e h T t e S i c M o T p i l C i r e w o P y a w 7 o t r o t c e n n o C o d a R 0 0 0 2 T

d e R D E L k c a B l l k c a B D E L r e m r o f s n a r T y r a d n o c e S t e S e g a t l o V t u p t u O Green n e e r G n w o r B e u B l n w o r B e u B l 1 F e s u F y r a m i r P i s n a M h c t i w S w o l l e Y r e m r o f s n a r T 3 6 0 4 T y r a d n o c e S k c a B l

k c a B l

d e R D E L

The spare external pin in the T2000 power connector (refer to Figure 8.4.1) may be wired to any of the option connections tabled in Section 5.9, Options Interface Specifications. The most commonly used connections (hush, horn, emergency and auxiliary), are explained below. The T2010 and T2015 can be programmed to have channel selection controlled via S15 on the T2000 logic PCB.

An active +5V signal is supplied to this line each time the PTT is pressed or a valid transmission is received (i.e. audio is heard), and is commonly used to mute a car radio. It may be connected directly to some modern stereo systems, otherwise an interface device will be required. This signal is sometimes referred to as the external mute.

This is used in a Selcall system where an external alert has been programmed. An active

+5V signal is supplied to this line when the radio goes into the external alert cycle. This signal will either be pulsed, steady or ringing, depending on the radio model and pro-

gramming.

This is used to put the radio into emergency mode for a Selcall system and is activated when the input is switched to ground.

An active +5V signal is switched to this line when the front panel



key

(trunked models) is active. This is programmable with both latching and momentary operation available.

(T2010, T2015 & T2020 models) or   key Fn

The spare external pin in the power connector is connected to an option by linking the appropriate option pin to the EXTERNAL pin on options connector S14 (refer to Section 5.9, Options Interface Specifications). The recommended linking method is to crimp a short length of 7/0.2mm PVC wire between the appropriate connections on a 16-way Micromatch plug (IPN 240-00026-24), which can then be plugged onto the options connector.

The front panel keys do not function when the T2010 or T2015 is programmed for chan-

nel selection control via the BCD lines. Access to the BCD lines is via S15 on the logic PCB. Refer to Section 5.9, Options Inter-

face Specifications details.

This Section describes how to convert a T2000-500 or T2000-600 radio to operate between 1 and 7W.

T2000-500 and T2000-600 1 to 7W radios are currently type approved only in Australia and Germany. The following topics are covered in this Section:

Title Section 8.3.1 8.3.2 8.3.3 8.3.4 Components Required Fitting Set-Up Specifications Page 8.3.2 8.3.2 8.3.4 8.3.4

To convert a T2000-500 and T2000-600 to low power, the following components are required:

Description IPN Quantity Low Power Common Parts T2000-500 Low Power Parts T2000-600 Low Power Parts 56 SRF16 resistor T2000-500/600 replacement transistor PCB radio type label appropriate type approval label 5p6 NP0 500V GRM42-2 chip capacitor 22p NP0 500V GRM42-2 chip capacitor 4p7 NP0 500V GRM42-2 chip capacitor 5p6 NP0 500V GRM42-2 chip capacitor 18p NP0 500V GRM42-2 chip capacitor 030-02560-20 220-01287-00

015-01560-06 015-02220-06 015-01470-06 015-01560-06 015-02180-06 2 1 1 1 2 3 1 1 2

1 Refer to Figure 8.3.1. Remove L315, L316, L317 and *R319 from the top side of the PA. Crush and remove the ferrite bead which forms part of L314, so that only the wire link remains. L 3 1 7

*C330 *C331 C 3 0 0

C 3 3 2 C346 L 3 1 5

R 3 1 9 L314

L 3 1 6

Q308 Replacement zero resistor

2 Refer to Figure 8.3.2. Remove the following components from the bottom side of the PA:

C323, *C324, C325, *C327, *C329 and Q306. C323

*C324

*C329

*C327 Q306 C325

3 Remove the output matching capacitors, *C330, C331 and *C332 from the top side of the PA (shown in Figure 8.3.1). Solder the replacement capacitors in the original positions, as follows:

T2000-500 T2000-600

*C330 C331

*C332 5p6 5p6 22p

4p7 5p6 Replacement Transistor Fitting Refer to Figure 8.3.3. Tin the underside of the replacement transistor PCB. Place the PCB as shown, and sweat-solder into position, soldering the centre strip first, followed by the other strips. 4 a SRF 16 Resistors Q305 5 0 3 0 d 7 3 2 C 9 3 2 C I E T U T T S B U S R O T S S N A R T I 0 0 6

0 0 5

0 0 0 2 T 0 0

7 8 2 1 0

0 2 2

b Solder the chip capacitors onto the replacement transistor PCB, in the positions shown. Refer to the table below for capacitor values and the distance d. T2000-500 T2000-600 Capacitor Value Distance (d)

* d is 13mm if Q305 is a BLW81 transistor 14.5mm*

22p 18p 11.5mm

The distance d shown in Figure 8.3.3 is measured from the edge of the transis-

tor top cap to the centre of the capacitors. c 5 Solder the 2 SRF16 resistors in the positions shown. Keep the leads as short as pos-

sible and ensure the resistors do not cause a short circuit. Replace the radio type label and type approval certificate number label on the heatsink fins with the new type label and corresponding type approval certificate number label.

1 Adjust RV324 to set the required output power level.

If the output power is set to 1W for RF control purposes, program the radio for high power and adjust RV324 for 1W. 2 Seal RV324 with permanent adhesive so that the power cannot be readjusted.

Frequency Range:

T2000-500 T2000-600 Supply Voltage Power Output Temperature Range Stability (power output set to >1W)

.. 400 to 470MHz

.. 450 to 520MHz

.. 0.8 to 16V DC

.. adjustable 1 to 7W

-30C to +60C transmitter stable into 5:1 VSWR

(all phase angles)

The T2000-05 remote speaker kit provides a 4 external speaker for T2010, T2015 and T2030 models.

The T2000-05 kit contains the following components:

Quantity Description 1 2 2 5m T2000 speaker complete with mounting bracket and thumb screws M4 self tapping screws U type captive nuts for self tapping screws speaker wire complete with receptacles and speaker socket

1 Choose a suitable mounting position for the speaker. With the speaker fitted to the mounting bracket, check that it does not interfere with the operation of any of the vehicle controls. 2 Fix the speaker mounting bracket securely in the chosen location with suitable fas-

teners. Two M4 self tapping screws and U type captive nuts have been supplied for this purpose.

Check before drilling that the drill will not damage any components or wiring behind the panel. a b c 3 If drilling directly into metal, drill two 3.5mm holes in the appropriate locations and secure the bracket with the supplied M4 self tapping screws. If mounting the bracket to any other material, such as plastic, drill two 4.5mm holes and attach the bracket with the M4 screws and captive nuts. Slide a captive nut over the edge of the panel to align with each hole, ensuring that the screw will pass through the larger hole to thread into the smaller hole. If neither of the above methods is appropriate, M4 screws, nuts and shakeproof washers are equally suitable. Attach the speaker to the mounting bracket with the thumbscrews.

4 Refer to Figure 8.4.1. Remove the existing internal speaker link and insert the three speaker wire recep-

tacles into the appropriate power connector holes, as shown. If the internal speaker is not required, cut the internal speaker ground link. Internal speaker link

(T2010, T1015 & T2030:

cut to disable) Not normally fitted

Ignition External Power supply:

External speaker:

13.8V Ground Ground Live

5 Plug the speaker into the socket provided on the speaker wire, neatly loop any excess wire and secure with a cable tie. Peel the protective plastic off the Tait label on the front of the speaker.

The T2000-06 desktop microphone has an internal omni-directional dynamic element, pre-amplifier and compressor loop. The microphone output is adjustable by a potenti-

ometer (R11) which is accessible through a hole in the bottom of the case. The desktop microphone has a switch provided for hookswitch monitoring, which can be locked if required.

The T2000-06 has grommets for both Series I and II radios fitted to the microphone cord. 1 2 Remove the Series I grommet from the microphone cord. Fit the desktop microphone lead to the T2000 control head microphone socket, then push the grommet in place.

Both the desktop microphone and the T2000 radio have an internal compressor and it is advisable that the T2000 compressor be disabled to avoid the possibility of hunting. This can be done either by disabling the T2000 compressor or by adjusting the output level at the desktop microphone.

1 2 Disable the internal T2000 compressor by solder shorting the pads labelled ALC disable on the logic PCB. Observe the waveform at TP606 with an oscilloscope, and whistle into the micro-

phone at close range. Adjust the output level of the microphone until the waveform is just below clip-

ping.

1 2 Leave the T2000 internal compressor enabled. Set the transmitter average deviation by whistling into the microphone at the required distance from the microphone.

3 Adjust the output level at the microphone to approximately 80% deviation

(4kHz for wide band or 2kHz for narrow band).

Under some conditions, the microphone may pick up excessive background noise. In this situation, the output can be reduced using either of the procedures described below:

1 2 Change the value of R12 from 10k to 47k (refer to the circuit diagram). This will result in a 10dB output reduction. Fit a 2K2 pot parallel with the microphone element. Adjust the output level to suit.

The T2000-07 DTMF microphone has an omni-directional dynamic element and internal DTMF tone generator. The DTMF tone level is adjustable by an internal potentiometer

(VR1) which is accessible when the rear case is removed. The DTMF microphone is intended for use with all T2000 Series II radios.

The T2000-07 has grommets for both Series I and II radios fitted to the microphone cord. 1 2 Remove the Series I grommet from the microphone cord. Fit the DTMF microphone lead to the T2000 control head microphone socket, then push the grommet in place.

1 2 3 The microphone LED is used to indicate key pressed. The LED is on for normal operation and is off when a DTMF key is pressed. The PTT switch changes the microphone input to the radio from DTMF tone to the dynamic microphone. This is to prevent the microphone signals distorting the DTMF tones. The operation of a DTMF key automatically operates the transmitter PTT and holds it on for a short time after the release of the DTMF key. This is to hold the transmitter on during interdigital pauses.

Remove the microphone back cover and set the DTMF tone level to approximately 80% deviation (4kHz for wide band or 2kHz for narrow band).

The DTMF tone output is also fed into the receive data line and can be used to provide a sidetone. 1 Refer to the diagram on the following page. Solder a resistor to S13 pin 9 (RX-BEEP) on the bottom side of the T2010 control PCB.

The value of the resistor adjusts the sidetone level and is between 100k and 470k, typically 220k. 2 Slide a length of silicone sleeving over the resistor, and connect a wire between the resistor and S11 pin 5 (RXD) on the pot PCB, as shown. Connect to S11 pin 5 S13 pin 9 E S U F 5 0 6 P T E L B A S D I C L A 6 0 6 P T 1 0 6 P T 2 0 6 P T 3 0 6 P T

The T2000-34 kit provides selective tone calling (Selcall) facilities for T2010 and T2015 model T2000 Series II radios. The Selcall kit consists of a small module and a 5MHz crystal that are fitted to the radios logic PCB. This option allows selective individual or group calls within a fleet of radios, on channels that have Selcall programmed. Selcall parameters and features are set up and enabled during programming. Both Sigtec and International group formats are supported by the T2000-34 PCB. Refer to Section 8.7.3, Programming for a list of user-selected features. The following topics are covered in this Section:

Section 8.7.1 8.7.2 8.7.3 Components Required Fitting Programming Title Page 8.7.2 8.7.2 8.7.3

The T2000-34 kit contains the following components:

Quantity Description 1 1 T2000-34 Selcall module 5MHz crystal with insulator

1 2 3 4 Refer to Figure 8.7.1 and Section 7.10, T2010 & T2015 HC05 Logic PCB. Remove the top cover of the radio by unscrewing the four cover screws, unscrew the logic PCB and fold-out. Unplug the connecting looms, if required. Place the Selcall module flat on the logic PCB, as shown in Figure 8.7.1, with the component side facing upwards. Solder the leads on the bottom side of the PCB and trim as necessary. Fit the supplied 5MHz crystal flat on the PCB in location #X502 as follows:

Peel the protective backing off the self-adhesive foam tape on the underside of the crystal. Insert the crystal leads into the holes provided and press the crystal down onto the PCB. Solder the leads on the underside of the PCB and trim as necessary. 5 Reconnect any looms that were unplugged in step 2. Refit the logic PCB to the radio and secure with the three retaining screws. Refit the top cover and secure with the four retaining screws.

S 2 S 1 3 R673 R639 R 5 2 3 C 6 2 4 C 6 5 1 R546 R651 C645 C 6 2 3 R638 R637 R631 R640 C 6 2 8 R645 C625 R 6 9 2 R 6 8 9 C 6 0 4 C 5 2 4 R690 R 6 3 5 R 6 3 0 Q 6 0 2 Q 6 0 1 R 6 4 2 R 6 3 6 R 6 0 7 R 6 8 1 R 6 7 9 C642 C643 R676 C644 R708 R675

C 7 0 4 R518 R519 C530 R682 R 6 4 8 C 6 5 0 R678 R 6 8 3 R671 R685 R672 C637 R677 C 6 4 6 C638 Q 6 0 5 R 6 6 8 R665 R667 R 6 7 0 R 6 8 0 R 6 6 9 I C 6 0 3 C 6 4 0 R574 C522

Q 5 0 8

R 7 1 3 C 6 4 1 R649 C546 R 6 0 6 R 6 7 4 C 6 3 3 R610

#C703 R691 C630 D 5 0 0 R513

#C700 C636 C 6 3 2 R652 C519 R662 C543 C627 Q 6 0 6 Q 6 0 7 R 6 6 6 R 6 5 3 R 6 5 0 R 6 5 4 Q 6 0 8 Q 6 0 4 R 6 6 3 R 6 8 6 I C 5 1 3

#R651

#C631 R 6 5 6 C542 C518 I C 6 1 4 R601 C 6 0 0 C647 C 6 3 9 S 8 S 1 4 R693 R699 R658 R664 R 5 3 8 C634 R659 R547 I C 5 0 6 R 5 2 9 R697 R539 R544 R540 R 5 4 1 P 1 C 6 0 1 R613 R603 R604 R605 R 6 1 4 C 6 0 9 C 6 0 8 C603 C 6 1 0 R622 C 6 0 5 R688 R687 C547 C606 R600 R612 R615 R 5 1 2 R 5 1 1 I C 6 0 4 T2000-34 R 5 8 0 R542 C502 R514 R515 R543 R 5 0 4 R586 R585 R503 Q 5 0 2 Q 5 0 3 C 6 4 8 R617 C 6 1 2 R 6 1 8 R 6 8 4 R616 S 1 5

R 7 1 4

R 7 1 4 A I

C 5 1 2 I

C 5 1 0 R707 R705 R706 C 7 0 5

C 7 0 1 R720 R725 R726

R 7 2 2 R721

#R723 Q 5 0 6 Q 5 0 8 Q 5 0 9 R 7 2 4 R595 R727 R 5 8 4 Q 5 1 0 R 6 9 6 R 5 8 2 R 5 3 4 R 5 8 1 R 5 3 3 I C 5 1 1 Q 5 0 4 R 5 1 6 C619 R629 R 5 2 6 R520 R 6 2 8 R 6 2 5 C 6 2 2 R661 R660 Q 6 0 3

R 7 1 1 C 6 3 5 R 6 5 5 R657

#C630 R501 R502 Q 5 0 1 R507 R701 R702 R703

#R712 R700 R704 I C 5 0 7 R 5 3 6 R 5 3 5 Q 5 0 5 R 5 3 2 R537

#R710 C 7 0 2 P2 R592 R593 I C 5 0 1 R698 R 5 1 0 C 5 0 1 A C 5 1 5 C 5 1 4

#X502

#X502 R 6 4 7 C528 C501 R641 R509 R646 C 5 4 5 C 6 2 6 C 6 2 9 I C 6 0 2

S P E C 1 0

S P E C 9

S P E C 8

S P E C 7

S P E C 6

S P E C 5

S P E C 4

S P E C 3

S P E C 2

S P E C 1 C509 R633 R 6 2 7 R 6 4 4 R643 C620 R632 C621 R634 R569 R 5 7 0 C 5 2 0 R572 R571 R 5 9 9 S K 5 0 5 C 5 0 0 C525 C526 C527 C 6 0 7 C 6 1 1 C 6 0 2 C544 I C 6 0 1 S 1 R624 R 6 2 1 R 6 0 2 R608 R611 C613 C614 C 6 1 8 C 6 1 7 R623 R 6 0 9 R 6 1 9 R 6 2 6 C 6 1 6 R620 C615 R 5 6 8 R695 I C 5 0 9 S 3 C529 R575 R579 Q 5 2 0 R578 C521 C 5 0 5 R524 R583 R525 R528 R527 R 5 3 1

#R595 C503

#R596

#RV508 R508 R506 R505 C517 R V 5 0 7 Q 5 0 7 R522 R521 I C 5 0 4 R694 C 5 4 1 R530 L 5 0 1 C 5 4 0 X501 C507 C506 C504

The radio must now be reprogrammed to set the various Selcall parameters listed in the following table. Refer to the manual supplied with the T2000-20 programming kit for details. Parameter Selection Tone Set Tone Frequencies Tone Period Lead-In Delay Lead-In Tone CCIR, EIA, EEA, ZVEI-1, ZVEI-2, ZVEI-3, DZVEI, PZVEI 16 tones corresponding to the International Standard for the selected tone set, plus no tone 20*, 33, 40, 50*, 60*, 70 & 100ms between 0 & 5100ms in 20ms steps any of the 16 valid tones, or no tone Decode Sequence individual or group decode Encode preset Group Decode Format Sigtec or International Auto Acknowledge Group Dialling enabled or disabled enabled or disabled

Parameter Selection Deferred Calling ANI Sequence enabled or disabled leading, trailing or random encoding Emergency Sequence enabled or disabled Alert Tone Blanking internal and external durations standard

* These tone periods are not defined by international standards. Wherever possible, use the international standard tone periods.

The T2000-36 Selcall PCB plugs into an options connector on the top side of the logic PCB, and provides selective tone calling (Selcall) facilities for T2010,T2015, T2020 or T2050 model T2000 Series II radios. This option allows selective individual or group calls within a fleet of radios, on chan-

nels that have Selcall programmed. Selcall parameters and features are set up and ena-

bled during programming. Both Sigtec and International group formats are supported by the T2000-36 PCB. The following topics are covered in this Section:

Section 8.8.1 8.8.2 8.8.3 Components Required Fitting PCB Information Title Page 8.8.2 8.8.2 8.8.4

The T2000-36 Selcall kit contains the following components:

Quantity Description 1 12mm T2000-36 PCB assembly PVC foam tape

1 Refer to Figure 8.8.1. Remove the top cover of the radio by unscrewing the four cover screws, unscrew the logic PCB and fold-out. Position the T2000-36 PCB as shown, and plug into the connector on the T2000 logic PCB:

Model PCB IPN Connector Circuit Reference T2010 & T2015 T2020 & T2050 220-01377-01 220-01344-02 P1

#T3K44 S 1 3 S 1 4 S 1 5 P2 S 8 P 1 P1 T2000-36 T2000-36 S 2 S 1 S 3 S K 5 0 5

2 3 4 Position the foam tape provided on top of XL2, on the T2000-36 Selcall PCB. Carefully fold the logic PCB back in position and secure using the three logic PCB retaining screws. Refit the top cover. Refer to the T2000 Programming Software Users Manual (IPN 439-22000-02, or later) for set-up information.

The T2000-40 DTMF kit provides DTMF dialling facilities for T2020 model T2000 Series II radios. It consists of a small module which is fitted to the control head PCB. Once installed, all parameters (such as tone durations and hold times) can be programmed as required.

1 2 3 Remove the four screws from the back of the control head and remove the back cover, taking care not to lose the captive nuts. Unplug the connecting loom from the control head PCB, if required. Refer to the diagram below. Place the DTMF module flat on the control head PCB in location S20 with the component side facing upwards. Solder in place, checking that each pin is correctly positioned over the appropriate pad. Reconnect the loom (if plugged in step 1), refit the loom cable into the cable restraint in the back cover, and screw the cover back into place. Ensure that the captive nuts are correctly located in the back cover before fitting. T2000-40

The radio must now be programmed with the various DTMF parameters. Refer to the manual supplied with the T2000-20 programming kit for details.

The T2000-A450X CTCSS and scrambler PCB plugs into an options connector on the top side of the T2000 Series II logic PCB, and can be configured in two ways:

Product Code Option T201X T2020 T203X T2040 T2050 T2000-A4500 CTCSS T2000-A4502 Scrambler x

x

x

The CTCSS option is used in trunked radios, and has 38 independent receive and trans-

mit tones, set by solder links on the T2000-A450X PCB. The scrambler option can be used in either trunked or conventional radios, and is ena-

bled/disabled by the auxiliary (

) key (trunked models). The scrambler uses a simple frequency inversion algorithm that prevents casual eavesdropping by other radio users. After descrambling, the recovered speech suffers from some degradation in clarity.

) key (conventional models) or function (

Fn

The T2000-A4500 CTCSS kit is only compatible with the following radio and PGM software versions:

Radio Radio Software PGM Software Version Version T2030 T2035 T2040 3.24 or later 3.28 or later later than 1.44 5.36 or later later than 2.57 The following topics are covered in this Section:

Title Section 8.10.1 8.10.2 8.10.3 8.10.4 Components Required Fitting T2000-A450X Link Options PCB Information Page 8.10.2 8.10.2 8.10.3 8.10.5

The T2000-A450X kits contain the following components:

Quantity Description 1 12mm T2000-A450X PCB assembly PVC foam tape

1 2 2 3 Refer to Figure 8.10.1. Remove the top cover of the radio by unscrewing the four cover screws, unscrew the logic PCB and fold out. Select the T2000-A450X link options, as described in Section 8.10.3, T2000-A450X Link Options. Position the T2000-A450X PCB as shown, and plug into the connector on the T2000 logic PCB:

Model PCB IPN Connector Circuit Reference T2010 & T2015 220-01377-01 or later P2 T2020, T203X, T2040 &

T2050 220-01344-02 or later

#T3K45 S 1 3 S 1 4 S 1 5 T2000-45 2 P P2 S 8 P 1 S 2 S 1 S 3 S K 5 0 5

Position the foam tape provided on top of #IC5, on the T2000-A450X PCB. Carefully fold the logic PCB back in position and secure using the three logic PCB retaining screws. Refit the top cover.

There are 2 groups of links on the underside of the T2000-A4500 PCB, the receive

(R) group and the transmit (T) group. Each group contains 6 bits that are pulled logic high or low, by either solder links or zero ohm resistors. The receive settings are set by links R-0 to R-5 and the transmit settings by links T-

0 to T-5. A short to the 5V line represents a 1, and a short to ground represents a 0. The following diagram shows the T2000-A450X PCB, with links indicated.

The following table gives the linking details for the 38 independent transmit and receive CTCSS frequencies. Tone Number R-5 T-5 R-4 T-4 R-3 T-3 R-2 T-2 R-1 T-1 R-0 T-0 CTCSS Frequency (Hz) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 67 71.9 74.4 77 79.7 82.5 85.4 88.5 91.5 94.8 97.4 100 103.5 107.2 110.9

Tone Number R-5 T-5 R-4 T-4 R-3 T-3 R-2 T-2 R-1 T-1 R-0 T-0 CTCSS Frequency (Hz) 16 17 18 19 20 21 22 23 24 25 26 27 28 29 3 0 31 32 33 34 35 36 37 3 8 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 0 0 0 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 114.8 118.8 123 127.3 131.8 136.5 141.3 146.2 151.4 156.7 162.2 167.9 173.8 179.9 186.2 192 .8 203.5 210.7 218.1 225. 7 233.6 241.8 250.3

The T2000-A4502 has the following R settings linked during manufacture. The T settings have no effect. R-5 1 R-4 1 R-3 1 R-2 1 R-1 1 R-0 1

The T2000-50 handsfree kit is designed for use with all T2000 Series II mobiles, and allows communication through the normal PTT microphone, or handsfree operation through a directional microphone. When handsfree operation is being used, the transmitter is activated either by the foot-

switch (Manually Operated Transmit) or automatically, by detecting the sound of a voice. The latter is known as the Voice Operated Transmit (VOX) mode. VOX operation is only intended for use in quiet modern vehicles.

 With trunked radios, a call needs to be established before VOX or footswitch becomes operative. Normal handsfree operation can be used on a conventional channel. The following topics are covered in this Section:

Section 8.11.1 8.11.2 8.11.3 8.11.4 8.11.5 8.11.6 8.11.7 8.11.8 Title Components Required Fitting Fitting The Complete Unit In The Vehicle T2000-50 Set-Up Signal Specifications Specifications Circuit Description PCB Information Page 8.11.2 8.11.2 8.11.3 8.11.5 8.11.7 8.11.8 8.11.8 8.11.10

The T2000-50 kit contains the following components:

Quantity Description 1 1 1 1 1 1 3 2 T2000-50 PCB assembly directional microphone (with optional sunvisor clip or tie clip) footswitch 9 way D-range assembly with 2 in-line connectors & microphone socket attached shroud (alternative shroud - not required for T2000 Series II radios) 2 way in-line connector M3x8 pan Pozi Taptite screws 4-40x pan Pozi Taptite screws (black)

1 Refer to Figure 8.11.1. Remove the top cover of the radio by unscrewing the four cover screws, unclip the D-range blanking plate in the rear of the T2000 radio, unscrew the logic PCB and fold-out. Position the T2000-50 PCB as shown, and connect the Micromatch connectors P13 and P14 to S13 and S14 on the T2000 logic PCB.

2 T2010 & T2015: Remove R513 (0 resistor) on the logic PCB.

3 After manufacture, the T2000-50 PCB links are left open and will need to be cus-

tomer selected. For details of optional links, refer to the Link Options Table in the circuit diagram. Non-trunked radios: standard links are 4B and 5A. 4 Set up the T2000-50, as described in Section 8.11.4, T2000-50 Set-Up. A +5V logic signal is provided to indicate VOX activity (S21 pin 7). VOX (violet wire) and ground (grey wire) are both available from the D-range assembly red in-line connector. A spare in-line connector is also included in the kit for interfacing to an appropri-

ate visual indicator e.g. an LED. 5 6 Carefully fold the logic and T2000-50 PCBs back in position, guiding the D-range connector through the hole provided in the T2000 chassis. Check that no electrolytic capacitors are touching the T2000 chassis (e.g. C21 or C51.) Secure using the three logic PCB retaining screws and the three M3x8 screws pro-

vided and refit the top cover. Plug the D-range assembly provided in the kit into the D-range connector (S21).

 Holes are provided in the T2000 chassis for the D-range plug locking screws. Use the two black 4-40x Taptite screws provided in the kit to form the threads.

The handsfree directional microphone plugs into the T2000 via the D-range assembly microphone socket. The positioning of the microphone is important for correct opera-

tion of the handsfree unit and some experimentation may be necessary to obtain the best performance from the VOX.

The microphone should be mounted in a position 20cm or less from the driver.

The microphone location should be free from vibration.

The microphone must face the driver.

The footswitch plugs into the D-range interface via the black 2 way in-line connector. It is recommended that the footswitch be screwed to the floor.

The 3m lengths of the footswitch and microphone can be effectively extended by fitting a standard 9 way D-range extender cable between the radio and the D-range assembly. These extension cables are not included as standard but are available from most computer outlets.

The radio may need reprogramming to accommodate the handsfree unit. The



key for trunked radios must be programmed for latching if VOX mode is to be used. Refer to the T2000 pro-

gramming manual. for the T2010, T2015 and T2020 or the   key Fn For T203X and T2040 radios, the handsfree option will also need to be selected under Specifications (refer to the Specifications section of the programming manual).

Although the VOX circuitry has been designed to operate in varying conditions, it may be necessary to change the minimum threshold for VOX operation. Monitor TP5 without the directional microphone connected and adjust RV67. Turning RV67 clockwise increases sensitivity, and anticlockwise decreases sensitivity.

For the majority of applications, it is recommended that the setting is left at the factory setting of 0.8V.

T2000-50 set-up should only be necessary after major repair.

AF signal generator

modulation analyser

high impedance voltmeter (e.g. VTVM)

oscilloscope

power supply (+13.8V)

RF power meter or load

30dB RF attenuator The following diagram shows a typical test set-up.

1 Set up the equipment as shown in Figure 8.11.2, and set the audio generator to 1kHz at a level of 0.8mV. Switch on the T2000 and check the increase in current with the T2000-50 fitted is less than 30mA.

2 3 4 Switch on the MOX (Manually Operated Transmit) PTT and check that the modu-

lation is at approximately 60% of full system deviation. Check that no audio path is evident through the normal microphone. Activate the PTT on the normal microphone and check that there is now an audio path through the microphone. With no audio, adjust RV67 for 0.8V at TP5. Remove the TCXO PCB to operate the /IN-LOCK signal and check that the DC level now goes to 6.5V 0.5V. Replace the TCXO. Increase the audio level by 10dB. With all PTTs off, activate the



mode). or  

Fn keys (radio is in VOX Sweep the audio generator slowly from 1kHz to 100Hz and back again and check that the transmitter keys between 700Hz 70Hz and 250Hz 25Hz. When going from receive to transmit the radio should key instantly at these cut-

offs. When going from transmit to receive check there is a delay of approximately 1.5 seconds. Check that VOX transmit is inhibited if the channel is busy (assuming LINK4B is fitted). 5 Switch on the MOX PTT and set the audio generator to 1kHz at a level of -50dBm

(3mV). Monitor TP9 and check that the level on the scope is 1.2Vp-p 0.2V. Increase the audio level by 10dB and check that the level on the scope is about the same. Decrease audio level by 20dB. After observing the charging action of the compres-

sor, the level on the scope should be 0.4Vp-p 0.1V. Trunking only: The audio at TP9 should be there on an assigned channel, a non-trunked channel or in test mode. When the radio is on a control channel or hunting for a control channel, the audio should be muted. 6 A final system check can be done with the directional microphone and footswitch.

The following table describes S21 pin-outs, and relevant interface signals on S13 and S14

(T2000 logic PCB). S21 is the 9 way D-type connector mounted on the heatsink at the rear of the radio. Pin No. S21-1 S21-2 S21-3 S21-4 S21-5 S21-6 S21-7 S21-8 S21-9 S13-6 S13-7 Description Level Input for directional mic. audio Requests handsfree transmit. Output signalling valid VOX opera-

tion. Signal GND MIC GND GND GND FT-SWTCH VOX GND GND TX-LINE-IN Electret microphone audio switched in during handsfree transmit. RX-GTD-AF Used to provide VOX trunking inhibit for received speech. 300mVp-p at 60% mod. 1kHz 110mVrms at 60% mod. 1kHz S13-11 OPTIONS-GND Provides the ground for the options S14-1 S14-2 S14-3 S14-5 S14-6

+13.8V

+5V BUSY circuitry. Powers the +8V regulator used to supply audio circuitry Used to supply power for the logic circuitry. Used to mute invalid audio when transmitter has been inhibited.

/PTT-TO-OPT Echoed to S14-6 for normal PTT request. Switches off S13-6.

/PTT-FRM-OPT Provides the signal for the radio to S14-7

/IN-LOCK transmit. Used to inhibit VOX Tx requests when the radio is out of lock. S14-11 CALL-SW Used by trunking software to mute invalid audio. 10.8V to 16V DC available current 200mA available current 150mA carrier detect 0V = busy 5V pull-up 0V = Tx 5V CMOS 0V = Tx synthesiser lock detect 0V =

lock (lock-up time <20ms) 5V CMOS 5V = mute The following diagram shows the pin designations of S21, viewed from the rear of the radio.

Current Operating Temperature Range Audio:

Input For 60% Deviation Microphone Microphone sensitivity Distortion

.. <30mA

-30 to +60C ambient

.. 1mVrms 0.1mV (1kHz, 600)

.. uni-directional electret

.. -67dB 3db (0dB = 1V/bar)

.. <5%

Delay From Audio To PTT Request

.. 20ms (typical)

Audio is fed into the preamplifier circuitry (Q1) from the electret microphone via pin 2 of the 9 way D-range (S21). The pre-amplified audio is then split and goes into the speech bandpass filter and the noise filter. The speech bandpass filter consists of a 4th order 250Hz high pass filter (IC1) and a gain stage (IC1) with a 3kHz rolloff. Audio then goes into the compressor circuitry (IC1). When PTT is requested by the logic circuitry, IC2 switches and the audio is driven into the TX-LINE-IN at a low impedance. After the high pass filter, audio is tapped off into the speech VOX filter (IC4), which provides a low pass cutoff of 700Hz. This, combined with the previous high pass filter, gives the speech VOX filter cutoffs of 250Hz and 700Hz. The second path of the audio after the preamplifier is to the noise filter (IC3). This con-

sists of a 2nd order high pass filter below 100Hz. After the gain adjusting stages (IC3 & IC4) each filter goes into a precision rectifier (IC3

& IC4), where their appropriate DC level is presented to a comparator (IC3 pins 12, 13 &

14). The negative input has a potentiometer (RV67) providing a DC offset, which is used to provide a minimum VOX threshold. This minimum threshold decreases with VOX activity to provide some hysteresis. The negative input is also held high via IC2, pre-

venting the comparator switching until the synthesiser lock detect line (IN/LOCK) is low. The positive input has a zener diode to prevent VOX activating when both inputs are in saturation. The switching circuitry after the comparator output has a slow decay provided by R69 and C31. IC5 will only allow a VOX PTT request if the AUX line has been taken high. Two NAND gates in IC5 allow a handsfree PTT request (VOX or MOX) to proceed unless the PTT-IN line has been taken low. A valid handsfree PTT request will mute the ordinary microphone and switch IC2, whereas a PTT-IN signal will be mirrored on the PTT line, without switching in the handsfree audio or muting the ordinary microphone. The CALL line is used by trunking software to mute the handsfree audio when the audio path has been invalidly switched in (i.e. on a control channel). Similarly, the BUSY line is used to mute the audio if TX inhibit on busy is used.

Optional circuitry is provided by IC7 to inhibit the VOX signal from the received audio, instead of BUSY. LINK4 is removed to disable the BUSY inhibit and the RX-AUDIO inhibit is enabled by changing LINK5A to LINK5B. Receiver gated audio is buffered by IC7 pins 12, 13 & 14 and split off to feed into the VOX noise path (IC3 pins 5, 6 & 7) and also to a precision rectifier formed around IC7, pins 1, 2 & 3. The rectified audio signal is compared by IC7 pins 5, 6 & 7, and operates the inhibit circuit, Q14.

 

 

The T2000-60 dual port UART Interface Module (UIM) allows computer control of a T2020 or T2040 Series II radio. With full remote control, either semi or fully automatic communication systems can be developed.

The UIM requires radio software Version 2.XX, and to program the UIM param-

eters, the programming software must be PGM2000 Release 7, or later. The T2020 and T2040 use Taits proprietary radio software protocol. For detailed information regarding this protocol, refer to the UART Applications Manual, or contact your local Tait dealer. The following topics are covered in this Section:

Title Section 8.12.1 8.12.2 8.12.3 8.12.4 8.12.5 8.12.6 Components Required Fitting T2000-60 Link Options T2000-60 Set-Up Signal Specifications PCB Information Page 8.12.2 8.12.3 8.12.4 8.12.5 8.12.7 8.12.9

The T2000-60 kit contains the following components:

Quantity Description 1 1 1 3 2 T2000-60 UART PCB assembly 15-way high density D-range plug shroud (alternative shroud - not required for T2000 Series II radios) M3x8 pan Pozi Taptite screws 4-40x pan Pozi Taptite screws (black)

T2000-60 Applications Manual IPN 408-20060-0X.

UIM Uart Interface Module CE Computer Equipment AE Auxiliary Equipment Refer to the Applications Manual for details on the interaction of CE to AE with the UIM.

1 Refer to Figure 8.12.1. Remove the top cover of the radio by unscrewing the four cover screws, remove the D-range blanking plate in the rear of the T2000 radio, unscrew the logic PCB and fold-out. Position the UIM PCB as shown, and connect the Micromatch connectors P13, P14, P16, P17 and P18 to S13, S14, S16, S17 and S18 on the T2000 logic PCB. 2 3

Set up the UIM, as described in Section 8.12.4. Carefully fold the logic and UIM PCBs back in position, guiding the D-range con-

nector through the hole provided in the T2000 chassis. Secure using the three logic PCB retaining screws and the three M3x8 screws pro-

vided and refit the top cover. Plug the D-range assembly provided in the kit into the D-range connector (S21).

 Holes are provided in the T2000 chassis for the D-range plug locking screws. Use the two black 4-40 Taptite screws provided in the kit to form the threads.

Provision has been made on the T2000-60 PCB for different application requirements. The PCB links are either solder shorted or fitted with 0 SMD resistors. The following table sets out the linking options on the T2000-60 UART PCB.

This table refers only to T2000-60 issue 01 (i.e. PCB IPN 220-01251-01), or later. For a description of how to identify PCBs, refer to PCB Identification, on page 7.2 Link LINK1 LINK3A LINK3B LINK4A LINK4B LINK5A LINK5B LINK6 LINK7 LINK8 LINK9 LINK10 CE controlling radio with AE fitted*

CE controlling radio with no AE fitted Option non-processed audio

(DET-AF-OUT connected to RX-AUDIO) processed audio (de-emphasised)

(RX-GTD-AF connected to RX-AUDIO2) processed audio (pre-emphasised)

(TX-AUDIO connected to TX-LINE-IN) non-processed audio

(TX-AUDIO connected to TX-SIG-IN) no handshaking required no handshaking required normal operation

(removal of this link disables the audio mute) normal operation

(this link provides a line termination resistor) normal operation

(removal of this link disables the audio mute) T2020

(SQULCH/HUSH to RX-GATE)

(SQULCH/HUSHconnected to HUSH) T2040

* The analogue signals provided by the UIM must be set up according to the requirements of the AE (bearing in mind the UIM maximum output levels).

AF signal generator

modulation analyser

high impedance voltmeter (e.g. VTVM)

IBM or compatible personal computer

lead to connect radio to CE and AE, if required (refer to Figure 8.12.2 & Figure 8.12.3)

oscilloscope

power supply (+13.8V)

RF signal generator

40dB RF attenuator The following diagram shows a typical test set-up.

IBM is the registered trademark of International Business Machines.

1 2 3 Set up the test equipment as shown. Ensure that pin 5 of S21 is loaded with the impedance normally presented by the AE (typically 600). Apply an RF signal at a level of -50dBm on an appropriate channel. Internal mod-

ulation at 1kHz should be enabled, with the deviation set to 1.5kHz for a narrow band radio and 3kHz for a wide band radio.

If CTCSS or Selcall is enabled, ensure that the signalling mutes are overridden

(for T2040 radios, refer to Section 5.8.5, Test Facilities Available). 4 Connect the scope probe to pin 5 of S21, and adjust RV1 to the level required by the AE.

1 2 3 4 Set up the test equipment as shown. Connect a 600 impedance AF signal generator to pin 15 of S21. If the internal impedance of the AE is not 600, either load the AF signal generator to get an internal impedance equivalent to the AE or alternatively, use the AE to provide the test signal (this is possible with most packet radio modems). Apply an audio test signal to TX-AUDIO and set the radio to transmit (for T2040 radios, refer to Section 5.8.5, Test Facilities Available). Connect the scope probe to pin 15 of S21 and adjust the AF signal generator to a frequency of 1kHz at a level of 700mVp-p. While the radio is transmitting, adjust RV2 to produce a deviation on the modula-

tion analyser as stipulated by the AE. If you are using the test signal from the AE instead of the AF signal generator, there will be some means of adjusting the signal level inside the AE.

The following table describes the electrical specification of all CCI interface signals. These signals are available at the 15 way high density D-type connector (S21) mounted on the heatsink at the rear of the radio. All signals necessary to provide CE and modem connection may be routed via these pins. Some signals may be selected by links on the UART interface module for different characteristics (refer to the circuit diagram and Section 8.12.4). S21 Pin No. Signal Description 1 2 3 4 5 6 7 8 9 CTSB DGND TXDB

+13.8V-SW RX-AUDIO RXDB RXDA TXDA DTRB 10 OPTIONS-GND Clear to send in B Handshaking input for port B. This signal complies with the electrical requirements of the RS-232 specification. Digital ground Ground reference for all digital signals. Transmit data out port B Data output from serial port B. This signal complies with the electrical requirements of the RS-232 specification.

+13.8V supply out Switched supply voltage. Can supply power to the AE when the radio is switched on. Maximum current = 300mA. Receive audio out This output is link selectable between one of the following sig-

nals:

1. DET-AF-OUT

(P13 pin 1) Receiver detected audio: unprocessed receiver audio. Output impedance = 600. Delivers 0 to 250mVrms (adjustable) into 600 at 1kHz (60% of full system deviation). Receiver gated audio: de-emphasised receiver audio, gated by mute element. Delivers 0 to 250mVrms (adjustable) into 600 at 1kHz (60% of full system deviation). 2. RX-GTD-AF

(P13 pin 7) Receive data in port B Data input to serial port B. This signal complies with the electri-

cal requirements of the RS-232 specification. Receive data in port A Data input to serial port A. This signal complies with the elec-

trical requirements of the RS-232 specification. Transmit data out port A Data output from serial port A. This signal complies with the electrical requirements of the RS-232 specification. Data terminal ready out B Handshaking output for port B. This signal complies with the electrical requirements of the RS-232 specification. Options ground Ground reference for all analogue signals.

S21 Pin No. Signal Description 11 12 13 14 15 CTSA Clear to send in A Handshaking input for port A. This signal complies with the electrical requirements of the RS-232 specification. SQULCH/HUSH Auxiliary output: receiver audio valid Signal indicates valid audio is being output from RX-AUDIO. This output is link selectable between the following signals:

1. RX-GATE

(P14 pin 4) Receiver Gate: received audio mute control line. Logic high = muted. 5V CMOS logic. External Device Mute: controls muting of an external device during radio activity. Logic high = muted. 5V CMOS logic output. 2. HUSH

(P14 pin 12)

/PTT-FRM-OPT DTRA TX-AUDIO Transmit request in Press To Talk: active low transmit request input. 5V CMOS logic input. Data terminal ready out A Handshaking output for port A. This signal complies with the electrical requirements of the RS-232 specification. Transmit audio in Audio input to the radio. This input is link selectible between one of the following signals:

1. TX-SIG-IN

(P13 pin 8) Transmit signal: transmit audio input, post processing. Input impedance = 600 or high imped-

ance. Requires 250mVrms at 1kHz to pro-

duce 0 to 80% of full system deviation

(adjustable). Transmit audio: transmit audio input, before pre-emphasis. Input impedance = 600 or high imped-

ance. Requires 110mVrms at 1kHz to pro-

duce 0 to 80% of full system deviation

(adjustable). 2. TX-LINE-IN

(P13 pin 6) The following diagram shows the pin designations of S21, viewed from the rear of the radio. 10 5 15 6 1 11 PCB

The T2000-A66 single port UART kit allows computer control of a T2030, T2035 or T2040 Series II radio. With full remote control, either semi or fully automatic communication systems can be developed. The following topics are covered in this Section:

Title Section 8.13.1 8.13.2 8.13.3 8.13.4 Components Required Fitting Signal Specifications PCB Information Page 8.13.2 8.13.2 8.13.3 8.13.4

The T2000-A66 kit contains the following components:

Quantity Description 1 1 1 2 2 2 1 2 T2000-A66 UART PCB assembly Data Interface Decoupling PCB assembly (refer to Section 7.17) M2.5x10mm pan Pozi Taptite screws M2.5 shakeproof washers M2.5 nuts locking screw kit (in plastic bag) 4-40x pan Pozi Taptite screws (black) 20mm foam tape

Refer to Figure 8.13.1. 1 2 Remove the top cover of the radio by unscrewing the four cover screws, unclip the D-range blanking plate in the rear of the T2000 radio, unscrew the logic PCB and fold out. T2000-A66 Mounting Position the T2000-A66 PCB on the top side of the logic PCB, as shown, matching P1 on the bottom side of the T2000-A66 PCB to the pads labelled P1 on the logic PCB. Use the two M2.5x10mm screws, nuts and shakeproof washers to secure in place.

The screws are fitted from the bottom of the logic PCB, and secured with the nuts and washers on the top side of the UART PCB. Torque the screws to 2.5in.lb. This ensures that the pressure connector, P1, makes contact with the corresponding pads on the logic PCB.

 Over-tightening the screws will cause the T2000-A66 PCB to bend, result-

ing in possible track damage. 3 T2000 Data Interface Decoupling PCB Mounting Fit the decoupling PCB to the T2000 chassis, guiding the PCB through the hole provided. Holes are provided in the T2000 chassis for the D-range locking screws. Use the two black 4-40 Taptite screws provided in the kit to form threads. Open the locking screw kit, discard the nuts, then secure the D-range using the two locking screws and spring washers.

2

4 5 Fold the T2000-A66 loom as shown, then plug into SKT2 on the decoupling PCB. Fold the logic PCB back in position, and secure using the three logic PCB retaining screws and refit the top cover.

The following table describes the signals used on the decoupling PCB 9 way D-range connector (SKT1). The unused pins may be used for other signals, if required. SKT1 Pin No. Signal Description 2 3 5 TXD RXD Transmit data: Serial data output from UART PCB. This signal complies with the electrical requirement s of the RS-232 specification. Receive data: Serial data input to UART PCB. This signal complies with the electrical requirements of the RS-232 specification. DGND Digital ground: Ground reference for all digital signals. The following diagram shows the pin designations of SKT1, viewed from the rear of the radio.

A B C D E F G H J K

9 8 7 6 5 4 3 2 1 0 3 2 15 6 16 P1 P1 P1 P1 P1 WRN RDN CEN INTRN RESET 4 5 1 7 8 9 10 11 12 13 14 P1 P1 P1 P1 P1 P1 P1 P1 P1 P1 P1 A2 A1 A0 D7 D6 D5 D4 D3 D2 D1 D0 17 P1 18 20 P1 P1

+5V DGND DGND

+5V 19 P1 CGND I/OPAD S1 6 7 8 A2 A1 A0 15 16 17 18 19 20 21 22 D7 D6 D5 D4 D3 D2 D1 D0 5 MPI

+5V 24 VCC C1 100N TXD 3 RXD 2 RESET INTRN CEN RDN WRN 11 13 14 1 23 IC1 SCC2691 GND 12 9 X1 10 X2 4 MPO X1 3.6864M C10 22P C11 22P

+5V 16

+V 2 6 5/10+

5/10-

IC2 MAX202 C2 100N 1 3 4 5 C1+

C1-

C2+

C2-

C12 100N C13 100N 10 11 12 9 T2IN T1IN R1OUT R2OUT 7 14 13 8 T2OUT T1OUT R1IN R2IN GND 15 C14 100N C15 100N R1 56 R3 56 SK2 4 WAY PADDLE CONNECTOR P1 24WAY SKT R2 56 R4 56 C16 1N0 C17 1N0 2 SK2 TXD 3 SK2 RXD 1 SK2 4 SK2 DGND DGND TAIT ELECTRONICS 4A 3A 2A 1A P1 RELAY OF PCB NEW CONNECTOR. RELAY OF CCT ADDED SK3. CHANGED PLACEMENT TOE CHANGED XTAL FOR SIDE MOUNT VER NEW FOR SINGLE PORT OPTION ON T2000 CCB REV/ISS AMENDMENTS RPS DJW/RPS PW PW PW DRAWN DJW PW PW PW CHKD D.O. APVD 17/12/96 21/10/96 05/03/96 28/08/95 27/06/95 DATE T2000 SERIES 2 SINGLE PORT U.A.R.T IPN:

ID:. 1 2.SC. FILE DATE:

17/12/96 FILE NAME:

134804A ISSUE:

4A DESIGNER:

RPS 220-01348-04 PROJECT:

T2000 NO.SHEETS:

2 9 8 7 6 5 4 3 2 1 0

The T2000-80 line interface kit enables connection of the T2000 receiver and transmitter audio circuitry to a two wire transmission line. The line interface PCB is mounted in the options position inside the T2000 Series II radio, and is application configurable using PCB links. The following topics are covered in this Section:

Title Section 8.14.1 8.14.2 8.14.3 8.14.4 8.14.5 8.14.6 8.14.7 8.14.8 8.14.9 Components Required Fitting Line Interface Options T2000-80 Set-Up Signal Specifications Applications Specifications Circuit Description PCB Information Page 8.14.2 8.14.2 8.14.4 8.14.7 8.14.9 8.14.10 8.14.16 8.14.18 8.14.21

The T2000-80 kit contains the following components:

Quantity Description 1 1 1 28 1 1 3 2 T2000-80 Line Interface PCB assembly 15-way high density D-range plug shroud (alternative shroud - not required for T2000 Series II radios) 0chip resistors 1 capacitor (*C64) 47 capacitor (*C60) M3x8 pan Pozi Taptite screws 4-40x pan Pozi Taptite screws (black)

1 Refer to Figure 8.14.1. Remove the top cover of the radio by unscrewing the four cover screws, unclip the D-range blanking plate in the rear of the T2000 radio, unscrew the logic PCB and fold-out. Position the T2000-80 PCB as shown, and connect the Micromatch connectors P13 and P14 to S13 and S14 on the T2000 logic PCB. T2000-80 PCB P13 S13 P14 S14 S15 P2 S2 T2010 & T2015 Logic PCB S21 1 D C B 0 D C B S24 CGND P1 S1 SK505 TP609

2 T2010 & T2015: Remove R513 (0 resistor) on the logic PCB.

3 4 5 6 Tx/Rx Out Function Connect a wire from S24 on the T2000-80 PCB to S609 on the logic PCB, as shown in Figure 8.14.1. External Channel Control (T2010 Only) Connect the 2 BCD lines a shown in Figure 8.14.1. Refer to Section 8.14.3, Line Interface Options, Section 8.14.6, Applications and the circuit diagram before selecting the T2000-80 PCB linking options. Set up the T2000-80, as described in Section 8.14.4, T2000-80 Set-Up. Carefully fold the logic and T2000-80 PCBs back in position, guiding the D-range connector through the hole provided in the T2000 chassis. Secure using the three logic PCB retaining screws and the three M3x8 screws pro-

vided, and refit the top cover. Plug the D-range assembly provided in the kit into the D-range connector (S21).

 Holes are provided in the T2000 chassis for the D-range plug locking screws. Use the two black 4-40 Taptite screws provided in the kit to form the threads.

Provision has been made on the T2000-80 PCB for many different application condi-

tions. Refer to the circuit diagram, PCB layout, the T2000 options connections table below, and the T2000-80 Signal Specifications table for details of options and links. The PCB links are either solder shorted or fitted with 0 SMD resistors.

To prevent the possibility of damage, check the Signal Specifications table before attempting to change the configuration. The following table sets out the standard T2000-80 linking options for T2010 and T2020 models. Link LINK1A LINK2B LINK27B LINK28B LINK3A LINK4A LINK5 LINK9 LINK12B LINK13 LINK16A LINK17A LINK18A LINK19A LINK20A LINK21A LINK22B LINK24A LINK26B Option Rx de-emphasis 6 pole line output filter 600 ohm output 0dB line output attenuation Line input and output linked Tx pre-emphasis Mic. mute on line input PTT Rx gate standard radio (T2010/T2020) Opto control standard Auxiliary control PTT in Key (0V) Busy (0V) Output (Tx5V/Rx0V) Synth in Lock (0V)

*C60 (47):This is provided to give a slight time delay to the Rx gate signal, if required.

*C64 (1): This is provided to give a slight time delay to the release of transmit, if required.

*C120 (4n7): Provision has been made on the PCB to fit an extra potted mylar capacitor for line matching, if required.

The following table describes the T2000-80 pad connections found on the bottom side of the T2000-80 PCB. Pad S22 S23 S24 S25 S35 Signal BCD1 BCD0 TX-REG Spare CGND Description Connect to S15 pins 9 (BCD0) and 10 (BCD1) on T2010 logic PCB for channel remote switching. Enabled in software. Output indicating whether the radio is transmitting or receiving. Used for modem control applications. Tx = +5V Rx = 0V Uncommitted line to S21 True ground used for RF decoupling capacitors. Must be connected to radio chassis if logic and T2000-80 PCBs are folded out during set-up and test.

The following table described the signals used for line interface on P13 and P14. Pin No. P13-1 P13-3 Signal Description DET-AF-OUT Output, buffered and low pass filtered, for flat response (60% devia-

tion, 0.25Vp-p, 1kHz). RX-LINE-OUT De-emphasised and high pass filtered output (60% deviation,

+13.8V-UNSW Unswitched +13.8V supply from the T2000. Powers audio PA and P13-6 TX-LINE-IN P13-8 TX-SIG-IN P13-11 OPT-GND P13-12 P14-1 P14-2 P14-3

+13.8V

+5.0V BUSY P14-4 RX-GATE P14-5 PTT-TO-OPT P14-7 IN-LOCK P14-8 MIC-MUTE P14-13 AUX 0.4Vp-p, 1kHz). High pass filter circuit depends on presence of sub-audible tone signalling. Used for de-emphasised response. Input to pre-emphasis stage, bypasses compressor. Used for the pre-emphasised response (60% deviation, 0.3Vp-p, 1kHz). Line input will override microphone signal if both are present. Low gain input to T2000 limiter stage. Bypasses pre-emphasis and high pass filtering, used for the flat response (60% deviation, 2.2Vp-p, 1kHz). Earth from the regulator section of the T2000 main PCB. Used to avoid earth loop noise. external opto key circuits. Switched +13.8V supply from T2000. Powers line interface PCB +8V regulator.

+5V from T2000 main PCB regulator. Powers hex invertor ICs and trunking switches. Output BUSY = 0V is used to inhibit line input derived key and line input mutes. On trunked versions is used for inhibit logic. Output port used to open the mute element in the T2000. Used to control line output mute. Note: Unmute = +5V for T2010 and T2020;

Unmute = 0V for T2030 and T2040. This also drives the line key and opto driver indirectly. Output mirrors PTT from microphone or signalling. PTT = 0V. On trunked versions is used for inhibit logic. microphone derived key. Synthesiser phase lock detector output. Used for modem control applications. Lock = 0V. Input port used to disable local microphone signal on line input derived PTT (not on microphone PTT). Mute = +5V. Auxiliary control output configurable in software. Used to enable/

disable crossband linking, 2 wire linking etc. (see trunked versions). Aux on = +5V. P14-6 PTT-FROM-OPT Input port to key transmitter. Used for line input derived key and P14-5 P14-10 PTT-TP-OPT EMERG P14-11 CALL-SW Trunking Models: Additional Functions For inhibiting modem output on PTT from microphone. Performs a new function. External call request = 0V input. Used for modem calls on a trunked system. Performs a new function. Traffic channel allocated = +5V output. Used for modem calls on trunked system. P14-13 FCN/BELL/AUX Performs a new function. Not clear to send = +5V output. Used for modem calls on trunked system.

AF signal generator

distortion analyser

frequency counter

Modulation analyser

High impedance voltmeter (e.g. VTVM)

Oscilloscope

Power meter

Power supply (+13.8V)

RF signal generator

40dB RF attenuator

600 step attenuator The following diagram shows the test set-up. RF Signal Generator RF RF RF Modulation Analyser AF Oscilloscope Audio Voltmeter Ext. AF 40dB Pad Distortion Meter Frequency Counter AF Signal Generator Power Meter

+13.8V Power Supply 600 Step Attenuator AF Signal Generator 600 Audio Voltmeter Frequency Counter 4 Speaker t u O

n I e n L i RF Pwr/Spkr T2000 Main Board OPT Option Board Control Board Opto Key Opto In S21-4 +13.8V Out S21-3 +8V Out S21-1 Opto In S21-2 Opto Out S20-10 Gnd S20-11 PTT In DC Control Mic. Socket Test Signal Dummy Mic. &

PTT Test Signal

(Speech) Test Mic. &

PTT 1K S21-12 Busy/Rx Gate Out 5V Logic

1 2 3 4 The adjustment section assumes that the T2000 radio has been correctly aligned for normal operation. Refer to Section 8.14.3, Line Interface Options and the cir-

cuit diagram for linking and application details. If the logic and T2000-80 PCBs are unscrewed and folded out for adjustment, a wire should be temporarily fitted from the radio chassis to the options chassis ground pad (S35), as shown in Figure 8.14.1. Signals for balanced transmissions are generally less than 0dBm, and are typically between -10dBm and -20dBm. Ensure that the

 LED is on (  LED Fn on trunking radios).

 Deviation settings are given first for wide band radios, followed by settings for narrow band radios in brackets [ ].

1 2 Ensure that the

 LED is on (  LED Fn on trunked radios). Monitor the line output (S21 pin 5). Apply an on channel signal from the RF signal generator at an output level of

-70dBm, modulated to 3kHz [1.5kHz] deviation, at 1kHz AF. Adjust the RV1 (line output control) for the required output level.

If the line output level is to be less than -15dBm, short LINK6 (600 output) and remove LINK5, to select 15dB of attenuation.

1 2 Monitor the line input (S21 pin 15). Ensure the indicator is off, and key the transmitter via the opto input (+8V). Adjust RV2 (line input sensitivity control) until 3kHz [1.5kHz] deviation at 1kHz is achieved.

For input signals of greater than -15dBm, set the line input attenuation for 15dB

(LINK11 open).

This circuit delays audio gate turn on after PTT, to prevent squelch noise bursts in repeater applications. 1 2 Enable the time delay circuit by solder shorting LINK23. Set the required time delay using RV3 (time delay control).

The following table describes the electrical specification of T2000-80 interface signals available at the 15 way high density D-type connector (S21), mounted on the heatsink at the rear of the radio. S21 Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Signal OPTO-IN OPTO-OUT

+8V-OUT

+13.8V-OUT LINE-OUT KEYING BCD0-OUT BCD1-OUT Spare GND PTT-IN BUSY/GATE IN-LOCK-OUT TX/RX-OUT LINE-IN

CGND Description Input for external opto coupled line current detector.

+8V logic. Output to drive external opto coupled line current switch. 1k ohm series resistor for LED.

+8V output to supply external opto coupled line current detector. Unswitched +13.8V output to provide an unisolated keying sup-

ply. Output audio path to transmission line or transformer. Bi-directional key line for use with simple two wire linking

(optionally linked to OPTO-IN internally). +8V logic. Inputs used for 4 channel remote switching with the T2010. +5V logic. Decoupled uncommitted line. Options ground. This is earth derived from the regulator section of the T2000 main PCB. Used to avoid earth loop noise. Keys transmitter and operates line control logic. Trunking PTT selectable. +5V logic, sense selectable by links. Busy or Rx gate output. Trunking busy link selectable. +5V logic, sense selectable by links. Synthesiser lock detector output. +5V logic, sense selectable by links. Tx regulator control output. Indicates whether the radio is in Tx or Rx. +5V logic, sense selectable by links. Input audio path to transmitter audio stages. Normally linked to LINE-OUT for a bi-directional line but is able to be separated for other applications using two transmission lines. Provided via S21 D-range and cable screen if required for RF sus-

ceptibility. The following diagram shows the pin designations of S21, viewed from the rear of the radio. 10 5 15 6 1 11 PCB

The frequency response of the line output low pass filter is selectable by LINK2, LINK27 and LINK28.

2 pole: -12dB/octave stopband attenuation, f > 4kHz.

6 pole: -36dB/octave stopband attenuation, f > 4kHz. The 2 pole LPF is for applications requiring minimal group delay and stopband attenua-

tion, e.g. standard configuration, crossband 2 wire + earth, modem connection. The 6 pole LPF is for applications requiring external network connection where stop-

band attenuation is mandatory above 4kHz, e.g. crossband via external network (bal-

anced line + opto key), remote controlled audio via external network (balanced line +

opto key).

This is the control of 2 radios operated together, crossband or repeater linked. 1 Check that LINE-OUT is linked to LINE-IN internally (LINK9 fitted). Line Out to Line Out Keying I/O to Keying I/O Fit LINK15 to link KEYING to OPTO-IN. This provides control in both directions. The unit generat-

ing the keying signal is already Tx inhibited. 2 Wire LINE-OUT (S21-5) on one T2000 to LINE-OUT (S21-5) on the other T2000. Wire KEYING (S21-6) on one T2000 to KEYING (S21-6) on the other T2000.

Power Suppply 13.8V 4 Speaker HD D-Range Pwr/Spr HD D-Range

Power Suppply 13.8V 4 Speaker Pwr/Spr T2000 No. 1 T2000 No. 2 3 The time delay circuit may be required to eliminate squelch noise bursts for cross-

band operation with repeaters. LINK23 enables this circuit, which is adjustable using RV3 (refer to Section 8.14.4, T2000-80 Set-Up).

The 2 wire circuit assumes that the 2 radios are effectively earthed together at either the power supply or the power connector.

 A high line level is desirable to avoid earth noise i.e. 0dBm (0.775Vrms).

Crossbanded radios i.e. UHF/VHF, can be achieved by using space isolated antennas to avoid de-sensing, as shown below. VHF Antenna Common Antenna UHF Antenna Duplexor

Power Suppply 13.8V 4 Speaker

Power Suppply 13.8V 4 Speaker RF Pwr/Spr RF Pwr/Spr T2000 No. 1 T2000 No. 2 Alternatively, in-band linked radios will require a duplexor to feed a common aerial.

The T4030, 4N38A and 4N25A are not intended for mains rated isolation.

Mains rated transformer: Arlec 45035 (suitable for PSTN lines) 600/600 only, 4kVrms rated.

HV rated transformer: Arlec 45065 (suitable for private lines) 600/600 or 600/150, 3.5kV rated.

Transformer T4084: 2kVrms.

Transformer T4030: no HV specification.

Mains rated opto-isolators: CNY17G CNW85 Refer to the M008-50 Service Manual for line keying connection diagrams.

Refer to Austel Technical Standard TS 001:1991 Safety Requirements For Customer Equipment for other configurations.

These circuits will require approval to the appropriate standards before use.

Mains isolation: 4kVrms/8mm CrCl required + 2.5mm CrCl from protective earth on surge arresters.

Private lines: 3.5kV.

Arlec 45035: PSTN/mains rated.

Arlec 45065: private line rated.

Spring Mylar Insulator Leads to be sleeved Tin ends of leads Tape outside of turns Section A-A Former and Windings Can Core Former

(Wound) Tag plate Primary Secondary A Sleeving Colours Brown Start 1 3 Red 250T Green 250T Green 250T Pri Bifilar 2 4 Pri 250T - 15 Red & Green Sec 250T - 15Red & Green Red 250T Finish Red Sleeving Colours Grey Start 8 6 Sec Bifilar 7 5 Finish Blue Secondary A 5 4 6 7 3 2 8 1 Primary Underside View Sleeving Colours:

Pin 1,3 Brown 2,4 Red 6,8 Grey 5,7 Blue

 Cores must be properly aligned when assembled. Core faces must be clean and free from grease and dirt. Ensure tag plate is firmly pressed against can before folding tabs. Core Former Number of Turns:

Primary Secondary Material Tape Sleeving

.. P26/16 - 1910

.. single

.. 250 bifilar

.. 250 bifilar

.. 15mm self flux

.. . thermosetting electrical grade inside diameter all colours, 0.5mm Inductance 1

(total series inductance, pin 1 to 5 - connect pins 2 & 3, 4 & 8 and 7 & 6)

.. 61.5H Inductance 2

(any winding, with all others open circuit)

.. 1.50.4H

5 1 600 Primary 1 to 5, 2 & 4 connected together 600 Secondary 10 to 6, 9 & 7 connected together 16.5 14.2 Pin 1 2 3 4 5 5 4 3 2 1 6 7 8 9 10 All Dimensions in mm. Scale: 2:1 (Approx.) Material: See Notes General limits: 0.2

10 9 8 7 6 Impedance Output Level Frequency Response Insertion Loss Return Loss (relative to 600):

At 1kHz At 300Hz

.. 600 /600 centre tapped, separated

.. 0dBm at 1kHz

.. +0.2dB, -0.5dB 300Hz to 3400Hz relative to 1kHz at 0dBm output

.. <0.75dB, 0dBm output at 1kHz

.. >15dB

.. >10dB Distortion (unbalanced currrent):

1kHz 0dBm out 0mA DC

.. <0.2%

1kHz 0dBm out 5mA DC

.. <0.7%

300Hz 0dBm out 0mA DC

.. <1.0%

300Hz 0dBm out 5mA DC

.. <6.0%

Level reduction due to 5mA DC at 300Hz .. <2dB Impedance Balance About Earth

.. >46dB over 50Hz to 3400Hz Insulation:

DC Primary to Secondary Primary & Secondary to core A.C.Primary to Secondary Primary & Secondary to core

.. 500V R>10M

.. 500V R>I0M

.. 2kVrms 60sec. . 2kVrms 60sec. Ferrite Core Primary Inductance

(1kHz 1 to 5, 2 & 4 connected together)

.. see 16 x 7 10 Pin Bobbin Harvard Inds. Ref. Cerf. 2611

.. 500mH 50mH typical

.. 700H 100H typical Leakage Inductance

(10kHz; 1 to 5, 2 & 4 connected together, 6, 7, 9, & 10 connected together) Primary DC Resistance:

1-2 4-5 Secondary DC Resistance:

10-9 7-6

.. 8.3 typical

.. 8.3 typical

.. 14.6 typical

.. 14.6 typical

Input Voltage

(from S13 & S14 on the T2000 logic PCB)

.. 10.8V to 16V DC Operating Temperature Range

-10C to +60C ambient DC Input Current

.. < 40mA total (+13.8V supply) Line Input Sensitivity (60% deviation) Line Output Level (60% deviation) Line Impedance Return Loss (300Hz to 3kHz). Line Output Filter Response (stopband):

2 pole 6 pole

a Receiver + Line Output

-20dBm to +6dBm (600)

-20dBm to +6dBm (600)

.. 600 or 150

> 20dB relative to 600 or 150

-12dB/octave, f > 4kHz

-36dB/octave, f > 4kHz Receiver Frequency Response (relative to 1kHz, 60% deviation):

Receiver Processed:

Bandwidth Response Receiver Unprocessed Test signal Signal-to-Noise Ratio:

Narrow Band Wide Band Mute Ratio

.. 300Hz to 3kHz (standard) 400Hz to 3kHz (CTCSS)

.. +1, -3dB relative to -6dB/octave

.. +1, -3dB (300Hz to 3kHz)

-70dBm RF, 60% deviation at 1kHz, 0dBm line output. . > 39dB

.. > 45dB

.. > 65dB Distortion (30kHz band width distortion meter):

Wide Band De-emphasised Narrow Band De-emphasised Wide Band Flat Narrow Band Flat

.. < 2%

.. < 3%

.. < 4%

.. < 6%

b Transmitter + Line Input Transmitter Frequency response:

Transmitter Processed:

(relative to 1kHz, 20% deviation, below limiting) Transmitter Unprocessed (relative to 1kHz, 60% deviation):

Bandwidth Response Bandwidth Response

.. 300Hz to 2.55kHz (narrow band) 300Hz to 3kHz (wide band)

.. +1, -3dB relative to +6dB/octave

.. 300Hz to 2.55kHz (narrow band) 300Hz to 3kHz (wide band)

.. +1, -3dB Test signal

.. 0dBm line input, 1kHz, 60% deviation Signal-to-Noise Ratio:

(demodulated, filtered 300Hz to 3kHz + de-emphasised 750srms) Narrow Band Wide Band Distortion

(demodulated, filtered 15kHz low pass)

.. > 39dB

.. > 45dB

.. < 2%

Refer to Figure 8.14.4, Figure 8.14.4 and the circuit diagram.

Flat or de-emphasised audio from the receiver is selected by links to DET-AF-OUT or RX- LINE-OUT. Receiver audio passes through a mute element to a buffer amplifier, and then to three stages of low pass filtering. Two responses are selectable by links: 2 pole or 6 pole roll-off beyond 4kHz. The filtered signal passes to a second mute element and level control before passing to the line output drive amplifier. Line output impedance and attenuation are selectable by links. Line output can be linked to line input for a shared line in, line out. Mute Element N=2 Line Out Level Mute Element Line Driver Attenuator N=4 Link2 B A RxAF De-Emph. T2000 Control PCB Via Option Connectors RxAF Flat TxAF Pre-Emph. Mute Element Buffer Amp Line Sensitivity Attenuator Line Out External Circuits Via HD D-Range Connector Line In Mute Element Gain Stage TxAF Flat T2000 Logic Power Suppliers Control Logic External Logic

The line input has terminations for two line impedances which are link selectable. The line input level can be attenuated, if required, before passing to the line sensitivity con-

trol. Protection diodes are fitted to prevent the following amplifier stage from being overdriven. The amplifier provides gain and buffers the signal, which is split into two paths for either pre-emphasis or flat response. The pre-emphasis path is via a mute element and options linking. This signal drives TX-LINE-IN, which will override the microphone signal. Normally, the microphone is muted on line derived PTT. The flat response path is amplified and then passes to a mute element which drives TX-SIG-IN. This input requires a high signal level, due to the high input impedance. The amplifier is disabled by links, when not used, to prevent the possibility of crosstalk and leakage to other circuitry.

For standard mobiles in normal operation, the audio mute elements, transmit inhibit and opto driver are all inhibited by the auxiliary control. The radio can be used nor-

mally with auxiliary off, and line controlled with auxiliary on. With auxiliary on, the line output mute elements and opto driver are controlled from the RX-GATE. A signal on the BUSY line inhibits the transmitter line key circuitry. Line derived key signals, such as OPTO-IN, KEYING and PTT-IN, can be used to key the radio, provided the auxiliary control is on and the radio is not busy. The KEYING line is used for back-to-back control of two radios, each with a line inter-

face PCB. This enables crossband linking to be achieved with a minimum of external cir-

cuitry. In this case, the KEYING line can be linked to the OPTO-IN line on each unit, with a wire between the two OPTO-IN lines providing bi-directional control. KEYING is controlled by the receive gate and is used to drive the opto input of another line inter-

face PCB. The opto input is intended to be connected to the output of an optocoupler circuit (BJT) used for loop and tail keying via transmission lines (refer to Section 8.14.6, Applica-

tions). The opto output is intended to be connected to the input of an optocoupler circuit (LED) used for loop and tail keying via transmission lines (refer to Section 8.14.6, Applica-

tions). The sense of this circuit can be changed by a link. An adjustable time delay circuit is available to prevent transmitter cycling when cross-

band connected radios are both operating on repeater channels. The circuit is adjustable to approximately 1.5 seconds, with the time delay control fully clockwise, and can be disabled completely by removing a link. PTT-IN can be used to key the transmitter. Links are available to enable either logic sense. For trunked versions using modems, a circuit is provided to set up a call automat-

ically. Control logic for telemetry and modems is provided so that the radio can be operated automatically. IN-LOCK-OUT, BUSY/GATE and TX/RX-OUT outputs can be set by links for either logic sense. Trunked modems operate in a different manner, and first have to set up a call to obtain a traffic channel allocation. Logic is available which requires several link changes, as some of the radio options con-

nections perform different functions:

Standard Trunked AUX on/off emergency call not clear to send external call request traffic channel allocated

+5V is provided from the main regulator via the options connector. +8V is provided by a TO-92 3 terminal regulator. This is also available on the T2000-80 PCB D-range connec-

tor, for powering an optocoupler transistor used for line key current detection. The

+13.8V input of the regulator is derived from the options connector. The +3.2V rail pro-

vides bias to the audio stages and is derived from the +8V regulator. The unswitched

+13.8V from the options connector powers the line drive amplifier, and is available on the T2000-80 D-range for use as an unisolated line key supply option.

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The T2000-A70 conventional data modem allows a T2010 or T2015 radio to be used in data applications, and also provides remote channel control via six BCD lines. The command protocol and some test procedures are provided for those wanting to write their own software. The protocol definition is based on the T2000 CCI protocol, with specific extensions to support binary transmission and reception.

This interface is only compatible with radio firmware version 2.22, or later. If you have a Series II HC05 logic PCB (PCB IPN 220-01377-0X), with v2.05 radio firmware, contact your nearest authorised Tait dealer. After upgrading from v2.05 radio software, it is necessary to change the link resistors on the top side of the logic PCB. Remove link resistor #R714 and fit

#R714A. The following topics are covered in this Section:

Title Section 8.15.1 8.15.2 8.15.3 8.15.4 8.15.5 8.15.6 8.15.7 Components Required Fitting T2000-A70 Link Options Signal Specifications Programming Circuit Description PCB Information Page 8.15.2 8.15.2 8.15.4 8.15.5 8.15.6 8.15.12 8.15.13

The T2000-A70 kit contains the following components:

Quantity Description 1 1 1 2 2 2 1 2 T2000-A70 data modem PCB assembly Data interface decoupling PCB assembly (refer to Section 7.17) connecting loom M2.5x10mm pan Pozi Taptite screws M2.5 shakeproof washer M2.5 nut female screw lock kit (in plastic bag)*

4-40x5/16 pan Pozi Taptite screws (black)

* Discard unused parts from the female screw lock kit.

Refer to Figure 8.15.2. 1 2 Remove the top cover of the radio by unscrewing the 4 bottom cover screws, unscrew the logic PCB and fold out. T2000-A70 Mounting Position the data modem PCB on the top side of the logic PCB, as shown, match-

ing P3 on the bottom side of the data modem PCB to connector S3 on the logic PCB. Use the 2 M2.5x10mm screws, nuts and shakeproof washers to secure in place, as shown.

The screws are fitted from the bottom of the logic PCB, and secured with the nuts and washers on the top side of the data modem PCB. Torque the screws to 2.5in.lb.

 Over-tightening the screws will cause damage to the data modem PCB, and compression of connector P3.

3 a

T2000 Data Interface Decoupling PCB Mounting Unclip the D-range blanking plate in the rear of the T2000 chassis. T2000 Series I Chassis Refer to Figure 8.15.3.

Holes are provided in the T2000 chassis for the D-range screw locks. Use the 2 black 4-40 Taptite screws provided in the kit to form threads. Fit the decoupling PCB to the T2000 chassis, guiding the PCB through the hole provided, as shown. Open the female screw lock kit, then secure the D-range using the 2 screw locks and spring washers.

b T2000 Series II Chassis Refer to Figure 8.15.4.

Fit the decoupling PCB to the T2000 chassis, from the inside rear of the radio, as shown. Secure the D-range in position using the screw locks, spring washers and nuts provided in the female screw lock kit. Fold the data modem loom as shown, then plug into SKT2 on the decoupling PCB. Fold the logic PCB back in position, secure using the 3 logic PCB retaining screws, and refit the top cover. 4 5

 Check that the loom is not pinched by the cover or screws during reassembly.

PCB links have been provided on the T2000-A70 data modem PCB for different opera-

tional requirements. To change settings, the PCB links are either solder shorted, or fitted with 0 SMD resistors. The following table sets out the link selection options on the T2000-A70 data modem PCB.

#R19

#R2010

#R2015 Fitted Not fitted

Fitted Not fitted Not fitted Fitted Option Baud Rate:

1200 2400 Radio Type:

T2010 T2015

The following tables describe the signals on the decoupling PCB 9 way D-range connec-

tor (SKT1) and 4 way connector (SKT2). The diagram shows the pin designations of SKT1, viewed from the rear of the radio.

Pins 1, 4, 6, 7, 8 and 9 on SKT1 are connected to I/O pads, so that additional sig-

nals can be interfaced to the radio through the external connector. SKT1 Pin No. Signal Description SKT2 Pin No. Signal Description 1 2 3 4 DGND Ground reference for all digital signals RXD Receive data TXD Transmit data DGND Ground reference for all digital signals 1 2 3 4 5 6 7 8 9 PAD1 Spare TXD Transmit data RXD Receive data PAD2 Spare DGND Ground reference for all

digital signals Spare Spare Spare Spare PAD3 RTS CTS PAD4

The following tables describe the signals on the data modem PCB connectors P3 and PDL-1. For P3 signal descriptions, refer to Section 5.9, Options Interface Specifica-

tions. P3 Pin No. 1 2 3 4 5 6 7 8 9 10 Signal BCD-0 BCD-1 BCD-2 BCD-3 BCD-4 BCD-5 TX-SIG-IN DET-AF-OUT

/BUSY N/C P3 Pin No. Signal 11 12 13 14 15 16 17 18 19 20

/PTT-TO-OPT

/RX-GATE

/IN-LOCK

/PTT-FRM-OPT

/SIG-SQUELCH MIC-MUTE DGND PWR-CTRL GND

+5V PDL-1 Pin No. Signal Description 1 2 3 4 DGND Ground reference for all digital signals TXD RXD Transmit data Receive data DGND Ground reference for all digital signals

For those wanting to write their own software, the command protocol and some test procedures are provided in this Section. The protocol definition is based on the T2000 CCI protocol, with specific extensions to support binary transmission and reception.

For modem control of channel change, the BCD Channel Selection field in the Edit - Options menu must be set to Enabled during radio programming.

CCI Computer Controlled Interface DTE Data Terminal Equipment (e.g. Computer,
 data head) RU Radio Unit RXD Received Data TXD Transmitted Data

The DTE is connected to the RU via a serial port on the data modem PCB. Commands are generated by the DTE, and responses or unsolicited messages returned by the RU. There is a prescribed format for all messages, which allows transmission errors to be detected. Control of the RU is accomplished by the DTE sending a command sequence (a packet) and receiving a response (a transaction). Unsolicited messages may origi-

nate from the RU. The RU will issue a prompt character to indicate to the DTE that it is ready to accept a new command. After issuing a command, the DTE must wait for another prompt before beginning the next transaction. The prompt character is (full stop, ASCII code =

$2E). Messages directed to the RU will always be responded to, either explicitly by means of a return message (Ready or Error), or implicitly, by just the prompt being issued. The RU will not originate a message: messages returned by the RU are for information purposes only, and no reply will be expected from the DTE. This protocol definition is based on the T2000 CCI protocol, with specific extensions to support binary data transmission and reception.

All message packets take the general form:

[IDENT][SIZE][PARAMETERS][CHECKSUM]<CR>

The following table explains each component of the message packet. Message Component Description

[IDENT]

[SIZE]

[PARAMETERS]

The message identifier. Identifiers are single ASCII characters (lower-case alphabetical) which categorise the message type. The number of characters which make up the [PARAMETERS] field. [SIZE]

is an 8-bit number expressed in ASCII-hex notation (two characters). An optional field, depending upon the command. Parameter values are generally character strings, unless explicitly stated otherwise. Parameter type is dependent upon the command - there is no explicit type definition.

[CHECKSUM]

An 8 bit checksum of fields [IDENT], [SIZE] and [PARAMETERS]. It is expressed in ASCII-hex notation (two characters). Calculating [CHECKSUM]:

[CHECKSUM] is calculated by applying the following algorithm:

1 Take the modulo-2 sum of all message bytes preceding [CHECKSUM]. 2 Retain bits 0 to 7, discarding any higher order bits resulting from the summation. 3 Form the twos complement of the remainder. 4 Convert the binary number into two ASCII-hex digits, MSD first.

<CR>

The packet terminator. It is the ASCII carriage return character ($0D).

General message format characteristics:

All fields in a message are encoded in ASCII, except for the [PARAMETERS] field of the transmit and receive commands, which is encoded in Binary.

Where numeric values are represented in ASCII-hex notation (two characters per byte), digits A to F are upper case.

The minimum length of a command packet is 5 characters (i.e. this is when [SIZE] =

00).

The maximum length of the [PARAMETERS] field is 111 characters. The maximum length of the command packet is therefore 116 characters ([SIZE] = 0x6F).

If the RU receives a command without error, and all parameters are valid, then the com-

mand will be executed and an acknowledge will be returned to the DTE. If an error arises, the DTE will be notified with an appropriate response. The following Table describes the commands available to the DTE to control operation of the RU. Message

[IDENT]

[PARAMETERS]

g q b n

[CHANNEL NUMBER]

This is a string of characters representing the new channel number. The range of allowed characters is 0 to 9 only, and the maximum number of dig-

its is 3. Valid channel numbers are 1 to [NUM CHANNELS]. None The data to broadcast is encoded as binary data. Note that this field may contain unprintable ASCII characters (such as CR/

LF) and protocol command characters (such as ). None Comments The value of [CHANNEL NUMBER] must be valid for the RU being control-

led. The range of allowed values depends upon the RUs programming, type and the link selections on the data modem PCB (refer to Section 8.15.3). The maximum allowable value is returned by the Query command. The Query data is returned to the DTE as a Query Response message (refer to Messages from the RU). The maximum length of data that may be sent with the Transmit command is 111 characters. Command Description Go To Channel This forces the RU to change to another

(conventional) chan-

nel. Query Transmit Null This requests the RU to respond with a block of data identifying the type of RU attached, and the version of modem firmware. This requests the RU to broadcast a block of data on the radio chan-

nel. This requests the RU to return an acknowl-

edgement to the DTE. The DTE can use this command to check that an RU is connected.

Messages may be sent to the DTE by the radio as part of a transaction (i.e. in response to a command issued by the DTE) or unsolicited. In the case of solicited commands, the prompt character will be issued after the RU response to terminate the transaction and signify that another may begin.

In the case of solicited commands, the prompt character, , will be issued after the RU response, to terminate the transaction and signify that another may begin. Unsolicited commands from the RU will not cause the issuing of the prompt character, as it is possible for an unsolicited command (e.g. Receive) to occur during a solicited command (e.g. Transmit). The following Table describes messages from the RU to the DTE. Comments Message

[IDENT]

[PARAMETERS]

i The data received is encoded as binary data. Note that this field may contain unprintable ASCII characters (such as CR/LF) and protocol command characters

(such as ). Command Description Receive Query Response Unsolicited. This presents data received by the RU to the DTE. The data received by the RU has been broadcast by another RU/DTE, using the Transmit command. Solicited The RUs response to a Query command. m

[RU TYPE]

[VERSION]

A single character, representing the model of the RU. 0 = unknown 3 = T2010 4 = T2015 Firmware version. A character string, in the format of X.XX, identifying the capabilities of the RU/modem.

[PVERSION] Protocol Version. A character string, in the format of X.XX, identifying the com-

mand protocol ver-

sion supported. The number of channels supported by the Go To Chan-

nel command. A 3 digit ASCII number. None

[NUM CHANNELS]

Ready

None This response indi-

cates that a transac-

tion has been completed, and the RU is ready for the next command. 1 The value of [PVER-

SION] = 1.01 is reserved for the first release of firmware implementing this command protocol. Subsequent enhance-

ments and major upgrades will incre-

ment this number accordingly. 2 Additional fields may be added to this message in future releases to pro-

vide more information about the RU environ-

ment. In particular, it may be necessary to pass the DTE some information on how the RU has been pro-

grammed, or what optional hardware is fit-

ted. After issuing a command, the DTE must wait for another prompt before beginning the next transac-

tion. Continued on next page

Command Description Message

[IDENT]

[PARAMETERS]

Error e

[ETYPE]

[ENUM]

Solicited response to a transaction error. This advises the DTE that the RU has detected an error condition and cannot proceed with the current transaction. Unsolicited response to a system error. In some cases, an exception condition in the RU may cause an Error message to be sent to the DTE independently of any control transac-

tions. A prompt or Ready will be issued after an Error occurs, to indicate the RU's availability to accept further commands. Error type. A single character represent-

ing the error cate-

gory. 0 = transaction error. This indicates some problem with com-

munications. All such errors result in the transaction being terminated, without the current command being executed. Error number. A character string rep-

resenting a decimal number in the range of 00 to 99, which can identify the specific error condition. For [ETYPE] = 0, 01 = unsupported command 02 = checksum error 03 = parameter error 10 = communica-

tion failure 20 = invalid channel number Comments Transition error numbers

([ETYPE] = 0):

1 0x01 = unsupported command error This may arise when the DTE expects a later version of RU than is attached, and attempts to use a command which is not recognised by the RU. 2 0x02 = checksum error indicates that the check-

sum calculated by the RU did not match the one received in the com-

mand packet. 3 0x03 = parameter error This encompasses val-

ues out of range, or missing fields. 4 0x10 = communication failure This encompasses all low level mechanisms, i.e. framing error, over-

run error, parity error etc. 5 0x20 = invalid channel number This may arise when the DTE issues a Go To Channel command with a [CHANNEL NUMBER] exceeding the maximum allowable number.

The following Table explains the commands that may be sent to test the software. Command Go To Channel Test Procedure 1. Send command g01206 2. Send command g0203D4 3. Send command g03004A2 4. Send command g0225D0 Transmit 1. Send command b04this82 2. Send command b17This is a test command.14 3. Send a b command while the PTT is pressed. 4. Send a command while the busy led is lit Send command n0032 Send command q002F Null Query Command Line Errors 1. Send command b03this83 2. Send command b04this83 3. Send command t04this70 Expected Result Radio changes channel to 2, then returns the command prompt. Radio changes channel to 3, then returns the command prompt. Radio changes channel to 4, then returns the command prompt. Radio sends error message e03020A6

(invalid channel) Radio transmits this data and i04this7B is received by the other radio. Radio transmits this data and i17This is a test command.0D is received by the other radio. Radio sends error message e03010A7

(communication error) Radio sends error message e03010A7

(communication error) Radio returns a prompt (). T2010: a valid message could be m0C31.011.01004D9 i.e.

[RU TYPE] = T2010,

[VERSION] = 1.01

[PVERSION] = 1.01

[NUM CHANNELS] = 04 T2015: a valid message could be m0C41.011.01024D6

[RU TYPE] = T2015,

[VERSION] = 1.01

[PVERSION] = 1.01

[NUM CHANNELS] = 24 Radio sends error message e03003A5

(parameter error). Radio sends error message e03002A6

(checksum error). Radio sends error message e03001A7

(unsupported command).

The T2000-A70 data modem PCB is based on a CML FX469LS 1200/2400 baud FFSK modem IC (IC1) and the baud rate is selectable by PCB links. Receive audio is recovered and fed into IC1 via a buffer amplifier, with filtering (IC5), to attenuate all but the FFSK tones. The signal is demodulated in IC1 and the data fed into the microprocessor, IC2. The data, complete with its length & checksum information, is fed to the DTE via IC4, which converts the 0V/5V TTL levels to RS232. On transmit, data is sent from the DTE to IC2, via IC4. It is processed and sent on to IC1, where it is modulated and the output goes to the TX-SIG-IN input of the radio, via a unity gain buffer, IC6. IC2 also monitors inputs from the radios logic PCB and controls various output lines. The microprocessor checks that the radio is in lock, and is not busy. It then mutes the microphone, activates the radio PTT and 30ms later, the PWR-CTRL signal goes low, releasing the transmit inhibit. Both buffer amplifiers are biased at half rail by IC1, pin11. If a channel change is required, the data is sent to IC7, which toggles the appropriate BCD lines to change the radio channel.

The T2000-A03 6m remote loom and T2000-A04 4m remote loom installation kits are for use with T2020, T2040 and T2050 radios in situations where the 3m remote loom or underdash mounting is unsuitable. The T2000-A16 6m shielded remote loom is suitable for use with EMC model radios, and for installations where electromagnetic radiation may cause problems with sensi-

tive equipment installed nearby or interference to the radios own antenna. Once installed, the loom should not be subjected to any pinching, crushing or chafing, nor should it interfere with the operation of the vehicle controls.

These instructions must be read in conjunction with Section 3.1 Servicing Pre-

cautions and Section 3.2 Disassembly Instructions. The following topics are covered in this Section:

Section 8.16.1 8.16.2 8.16.3 Title Components Required Fitting To Locally Mounted Radios Fitting To Remote Mounted Radios Page 8.13.2 8.13.2 8.13.6

The T2000 remote loom kits contain the following components:

Quantity Description 1 1 1 1 2 2 2 4 2 4 2 4 1 1 remote loom, complete with 8 way connectors remote mounting bracket remote back panel dummy front panel remoting connector cover (fitted to the remote back panel & dummy front panel) M4 pressed captive nut (for remote control head assembly) thumbscrew (for remote mounting bracket) ESD plug (to fit over remote back panel screw heads: T2000-A16 only) No 6x3/4 self-tapping screw (for remote mounting bracket) No 4x 3/8 pan Pozi Plastite screw (dummy front panel mounting) M3x6 pan Pozi Taptite screw (connector PCB mounting) M3x8 pan Pozi Taptite screw (EMC filter PCB mounting) EMC filter PCB (Series II radio chassis) connector PCB (Series I radio chassis)

1 Remove the top cover of the radio by unscrewing the 4 bottom cover screws. Remove the 3 logic PCB retaining screws and fold back the logic PCB. If necessary, remove the 3 option PCB mounting screws before lifting the logic PCB. Remove the microprocessor shield retaining screws and the screw securing the control head ground lead, then remove the microprocessor shield. Remove the bottom cover of the radio and unplug the loom running between the control head and the logic PCB (on EMC model radios, the loom runs between the control head and the EMC filter PCB). The control head can now be detached from the chassis. Remove the 4 adaptor plate retaining screws from the control head and remove the adaptor plate from the back of the control head. 2 Refer to Figure 8.16.1. Unclip the remote back panel remoting connector cover (3). Pass one end of the remote loom through the connector cover hole and plug onto the 8 way connector (6) on the top side of the control head PCB. T2000-A03 & T2000-A04 kits: Remove the ground lead from under one of the con-

trol head PCB screws, and discard the ground lead.

3 T2000-A16 kit: Remove the screw from the control head that secures the control head ground lead. Discard the ground lead, and use this screw to secure the remote loom drain wire solder tag to the control head PCB. Ensure that the tag does not make contact with any devices in the control head. Fit the 2 captive M4 nuts (4) into the slots on the remote back panel (2), and mount the remote back panel onto the control head front assembly (1). Secure in place using the 4 No. 4x5/8 Plastite screws previously used for the adap-

tor plate, and push the 4 ESD plugs (7) over the screw heads (T2000-A16 only). Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable.

4 T2000 Series I chassis Refer to Figure 8.16.2. Mount the adaptor plate (2) onto the chassis and secure the connector PCB to the 2 chassis pillars, using the 2 M3x6 Taptite screws provided. As the pillars are not threaded, care must be taken that the screws are not inserted at an angle. Pass the logic PCB loom through the slot in the adaptor plate and chassis (7) and plug the loom onto one of the 8 way connectors (8) on the connector PCB. Unclip the remoting connector cover (5) from the dummy front panel and pass the unconnected end of the remote loom through the hole in the dummy head front panel. Plug the 8 way remote loom connector onto the 8 way connector (6) on the connec-

tor PCB. T2000-A16 kit: Secure the remote loom drain wire solder tag under one of the con-

nector PCB screws. Mount the dummy front panel (1) onto the adaptor plate (2), using the No 4x3/8 Plastite screws (4) provided.

5 T2000 Series II Chassis Refer to Figures 8.16.3 and 8.16.4. Fit the EMC filter PCB (18) provided in the kit to the chassis, first passing the loom on the bottom side of the PCB through the chassis hole, as shown. Secure the EMC filter PCB in place, using the 4 M3x8 Taptite screws.

EMC model radios will already have an EMC filter PCB fitted. Check that the top side con-

nector (SKT-1) is 8 way. If not, discard the exist-

ing filter PCB and fit the new PCB provided.

Plug the EMC filter PCB loom onto the logic PCB. Unclip the remoting connector cover (5) from the dummy front panel (1), and pass the unconnected end of the remote loom through the holes in the dummy front panel and the adaptor plate (2). Plug the 8 way loom connector onto the 8 way connector (6) on the top side of the EMC filter PCB. T2000-A16 kit: Secure the remote loom drain wire solder tag under one of the EMC filter PCB screws.

Mount the dummy head front panel (1) onto the adaptor plate (2), using the 4 No 4x3/8 Plastite screws (4) provided. Mount the dummy front panel assembly onto the chassis.

6 7 Reposition the bottom cover of the radio and the microprocessor shield and replace the microprocessor shield retaining screws, tightening them to a torque of 12in.lb (1.4Nm). Refit the logic PCB, any options PCBs that were fitted and the top cover. Tighten the top cover to a torque of 15in.lb (1.8Nm). Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable. Mount the remote mounting bracket in the desired position (this must be on a flat surface), using the 2 No 6x3/4 self-tapping screws. Place the control head in the bracket, positioned for a good viewing angle, and secure in place with the 2 thumbscrews.

1 Refer to Figures 8.16.2, 8.16.3 & 8.16.4. Remove the radio dummy front panel (1) by removing the 4 dummy front panel screws (4).

In later T2000 radios, the radio dummy front panel is fitted with a remoting connector cover (3). This is unclipped to access the remote loom connector. When fitting a remote loom, it is therefore unnecessary to remove the dummy front panel. Unplug the old remote loom from the connector PCB (Series I chassis) or EMC fil-

ter PCB (Series II chassis). Series II chassis: Check that the top side connector (SKT-1) on the EMC filter PCB is 8 way. If not, discard the existing filter PCB and fit the new PCB provided in the kit (refer to Section 8.16.2, Fitting To Locally Mounted Radios, step (5)). If necessary, replace the old dummy front panel with the new dummy front panel, complete with remoting connector cover, provided in the kit. Pass the new remote loom through the connector cover hole in the dummy front panel, and plug the 8 way remote loom connector onto the 8 way connector (6) on the connector PCB or EMC filter PCB. T2000-A16: Fit the remote loom drain wire solder tag under one of the connector PCB or EMC filter PCB screws. Mount the dummy front panel onto the adaptor plate (2), and secure in place using the 4 dummy front panel screws. Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable. 2 Refer to Figure 8.16.1. Remove the control head remote back panel (2) by removing the 4 remote back panel screws (5), taking care not to loose the captive nuts (4). EMC model radios will also have ESD plugs (7) over the remote back panel screws.

In later T2000 radios, the control head remote back panel is fitted with a remot-

ing connector cover (3). This is unclipped to access the remote loom connector. When fitting a remote loom, it is therefore unnecessary to remove the remote back panel. Unplug the old remote loom from the 8 way connector on the control head PCB (6). If necessary, replace the old remote back panel with the new remote back panel, complete with remoting connector cover, provided in the kit. Pass the new remote loom through the connector cover hole in the remote back panel, and plug the 8 way connector on the new remote loom onto the 8 way con-

nector on the control head PCB. T2000-A16: Fit the remote loom drain wire solder tag under one of the control head PCB screws.

Ensure that the solder tag does not make contact with any devices in the control head.

Fit the 2 captive M4 nuts into the slots in the remote back panel and mount the remote back panel onto the control head front assembly (1). Secure in place using the 4 remote back panel screws, and push the 4 ESD plugs

(7) over the screw heads (T2000-A16 only). Refit the remoting connector cover, pushing the slot in the cover onto the remote loom cable.

This Section outlines the production software history for each T2000 Series II model, and explains how to identify which software version is used. The following topics are covered in this Section:

Section 9.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.5 9.2.6 Title Identifying The Software Version Number Software History T2010 & T2015 Radios T2020 Radios T2030 & T3035 Radios T2040 Radios T2050 Radios T2060 Radios Page 9.2 9.3 9.3 9.4 9.5 9.6 9.7 9.8

To read the radio software version of a T2000 Series II radio, hold in the PTT switch when turning on the radio. The version number will then be displayed briefly on the radios front panel, using either the LEDs, the 7 segment display panel or a combination of both. Where LEDs are used, they indicate Binary Coded Decimals (BCDs), with the most sig-

nificant bit to the left. The examples below show how each radio displays Version 3.02.

This is not necessarily a valid radio software version.

BUSY TX 1 2 3 4

The major version number is indicated as a BCD by the Busy and Tx LEDs. (3 in the example on the right.)

The two digit minor version number is indicated as BCD digits by the two lower rows of LEDs. (0 on the middle row and 2 on the lower row in the example.)

The major version number will be indicated as a binary coded decimal (BCD) by the Busy and Tx LEDs.

The minor version number is shown in the two digit display.

SVC WAIT GO TX BUSY C1 TX C2 C3 C4 Fn

The major version number is indicated as a binary coded decimal (BCD) by the top row LEDs.

The two digit minor version number is indicated as BCD digits by the two lower rows of LEDs.

The full version number is shown in the display.

The full version number is shown in the display. BUSY TX WAIT

The following tables outline the production software history for each T2000 Series II radio.

Previous revisions of the software cannot be used on Series II radios.

Radio Software Version Release Date PGM Software Compatibility Changes From Previous Version 2.20 6/12/96 PGM201X v1.22 Original

Radio Software Version Release Date PGM Software Compatibility Changes From Previous Version 5.10 13/12/96 PGM2020 v2.31 Original

Radio Software Version Release Date PGM Software Compatibility Changes From Previous Version 3.10 6/12/96 PGM203X v1.34 Original

Radio Software Version Release Date PGM Software Compatibility Changes From Previous Version 5.20 6/12/96 PGM2040 v2.45 Original

Radio Software Version Release Date

PGM Software Compatibility Changes From Previous Version Non-Trunked Trunked 1.05 13/3/96 PGM2020 v2.31 PGM2040 v2.45 Original

Radio Software Version Release Date PGM Software Compatibility Changes From Previous Version 1.04 28/11/96 PGM2060 v1.03 Original