submitted | available | document details (if available) | source link |
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various | user manual | Users Manual | 1.99 MiB |
2003 Nedap Retail Support -
Netherlands Parallelweg 2d, 7141 DC Groenlo The software / hardware described in this book / file is furnished under a license agreement and may be used only in accordance with the terms of the agreement. Documentation version 1.0 Copyright Notice All Rights Reserved. Any technical documentation that is made available by Nedap Retail Support is the copyrighted work of Nedap Retail Support and is owned by Nedap Retail Support. NO WARRANTY. The technical documentation is being delivered to you AS-IS and Nedap Retail Support makes no warranty as to its accuracy or use. Any use of the technical documentation or the information contained therein is at the risk of the user. Documentation may include technical or other inaccuracies or typographical errors. Nedap Retail Support the right to make changes without prior notice. No part of this publication may be copied without the express written permission of Nedap Retail Support, Parallelweg 2d, 7141 DC Groenlo, Netherlands Trademarks Nedap, the Nedap logo, Nedap EASi/Net and the Nedap EASi/Net are registered trademarks of Nedap N.V. Groenlo. Other product names mentioned in this manual may be trademarks or registered trademarks of their respective companies and are hereby acknowledged. Printed in the Netherlands O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 T e c h n i c a l S u p p o r t :
- E-mail:support-rs@nedap.nl
+31 (0) 544 47 15 19 h.hammer@nedap.nl
- H. Hammer
- H. Broekhuis
- Fax:
+31 (0) 544 47 15 02 h.broekhuis@nedap.nl
+31 (0) 544 46 58 14 V i s i t o r s a d d r e s s :
Nedap Retail Support Parallelweg 2d Groenlo Netherlands P o s t a l a d d r e s s :
Nedap Retail Support Postbus 102 7140 AC Groenlo Netherlands O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 3 T a b l e o f c o n t e n t s Technical Support:.................................................................................................................................... 3 BQ PCB ............................................................................................................................................. 5 EQ PCB ............................................................................................................................................. 7 EQ3E PCB......................................................................................................................................... 9 IQ PCB............................................................................................................................................. 11 IQ3E PCB ........................................................................................................................................ 13 Attenuation....................................................................................................................................... 15 IO Connector K23............................................................................................................................ 16 IO Connector K24............................................................................................................................ 16 System configurations ..................................................................................................................... 17 BQ System , 1 aisle, Deactivatorunit............................................................................................... 18 EQ System , 3 aisles ....................................................................................................................... 19 IQ System , 7 aisles, MD CC........................................................................................................... 21 Checklist modem settings iNCC...................................................................................................... 20 Connecting a PC to a XQ or EQ/IQ Unit ......................................................................................... 28 Connecting a XQ or EQ/IQ unit to a modem ................................................................................... 29 Connecting to an ISDN line using the DeTeWe TA33 terminal adapter ......................................... 30 O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 4 B Q P C B K205 K16 K19 D25 D26 K201 K202 K203 K204 K3 P3 D19 D16 D301 D300 D311 K300 K24 K11 K5 K23 O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 5 Jumper Attenuation Jumper Attenuation Jumper Attenuation Oscilloscope Tx Output Tx (connector 3) Jumper Attenuation The following points can be used:
K3 K5 K9 K11 Power Input K12 K13 K15 K16 RS232 Interface Connector K21 Connector FCI IO Connector K23 K24 IO Connector Indicator leds:
D11 Mux Connector 1 TX D12 Mux Connector 2 TX D16 Lamp On Connector 3 D19 Lamp Overload Connector 3 D25 Sweep Lock D26 Center Lock D201 Label Alarm RxTx D47 Customer Counting: Led on = active K201 Handheld terminal RxTx K202 Oscilloscope Rx K203 Jumper K204 Jumper K205 Handheld terminal NCC K300 Output Rx (connector 1) P1 P2 P3 P4 P5 PA Drive Adjustment Phase Adjustment Tx Mixer Bias Adjustment Slave Data communication Rx Master Data communication Rx D48 Customer Counting: Led on = active D202 Communication Error RxTx D220 Label Detection Alarm NCC on = detection D221 Communication Error NCC D300 Lamp Overload Connector 1 D301 Lamp On Connector 1 D311 Mux Connector 1 RX D202 Communication Error RxTx O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 6 E Q P C B K205 K16 P4 K21 K201 K202 K203 K204 K3 K19 P1 P2 D25 D26 P5 D18 D17 D19 D16 D11 P3 D303 D302 D301 D300 D312 D311 K6 K23 1 5 K10 K4 K5 K301 K300 O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 7 Jumper Attenuation Jumper Attenuation Jumper Attenuation Oscilloscope Tx Output Tx (connector 4) Output Tx (connector 3) Synchronization In Jumper Attenuation The following points can be used:
K3 K4 K5 K6 K9 K10 Master connector K11 Power Input K12 K13 K15 K16 RS232 Interface Connector K21 Connector FCI K23 IO Connector Indicator leds:
D11 Mux Connector 1 TX D12 Mux Connector 2 TX D16 Lamp On Connector 3 D17 Lamp On Connector 4 D18 Lamp Overload Connector 4 D19 Lamp Overload Connector 3 D25 Sweep Lock D26 Center Lock D201 Label Alarm RxTx K201 Handheld terminal RxTx K202 Oscilloscope Rx K203 Jumper K204 Jumper K205 Handheld terminal NCC K300 Output Rx (connector 1) K301 Output Rx (connector 2) P1 P2 P3 P4 P5 PA Drive Adjustment Phase Adjustment Tx Mixer Bias Adjustment Slave Data communication Rx Master Data communication Rx D202 Communication Error RxTx D220 Label Detection Alarm NCC on = detection D221 Communication Error NCC D300 Lamp Overload Connector 1 D301 Lamp On Connector 1 D302 Lamp Overload Connector 2 D303 Lamp On Connector 2 D311 Mux Connector 1 RX D312 Mux Connector 2 RX O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 8 E Q 3 E P C B P4 K K201 K202 K203 K204 K3 P1 P2 D18 D17 D19 D16 P3 D303 D302 D301 D300 D312 D11D11D11D11D11 D311 D12 D11 K6 K7 K11 K4 K5 K301 K300 1 K23 16 O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 9 Oscilloscope Tx Output Tx (connector 4) Output Tx (connector 3) Synchronization In Synchronization In Jumper Attenuation The following points can be used:
K3 K4 K5 K6 K7 K9 K11 Power Input K12 K13 K15 K21 Connector FCI Indicator leds:
D11 Mux Connector 1 TX D12 Mux Connector 2 TX D16 Lamp On Connector 3 D17 Lamp On Connector 4 D18 Lamp Overload Connector 4 D19 Lamp Overload Connector 3 D201 Label Alarm RxTx Jumper Attenuation Jumper Attenuation Jumper Attenuation IO Connector K24 K201 Handheld terminal RxTx K202 Oscilloscope Rx K203 Jumper K204 Jumper K300 Output Rx (connector 1) K301 Output Rx (connector 2) P1 P2 P3 PA Drive Adjustment Phase Adjustment Tx Mixer Bias Adjustment D202 Communication Error RxTx D300 Lamp Overload Connector 1 D301 Lamp On Connector 1 D302 Lamp Overload Connector 2 D303 Lamp On Connector 2 D311 Mux Connector 1 RX D312 Mux Connector 2 RX O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 0 K205 K K201 K202 K203 K204 K3 I Q P C B K16 D25 D26 P5 16 16 P4 P4 K6 K7 1 1 K24 K23 P1 P2 D18 D17 D19 D16 P3 D303 D302 D12 D11 D301 D300 D312 D311 K10 K11 K4 K5 K301 K300 O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 1 Jumper Jumper Attenuation Jumper Attenuation Jumper Attenuation Oscilloscope Tx Output Tx (connector 4) Output Tx (connector 3) Synchronization In Synchronization In Jumper Attenuation The following points can be used:
K3 K4 K5 K6 K7 K9 K10 Master connector K11 Power Input K12 K13 K15 K16 RS232 Interface Connector K19 K21 Connector FCI Indicator leds:
D11 Mux Connector 1 TX D12 Mux Connector 2 TX D16 Lamp On Connector 3 D17 Lamp On Connector 4 D18 Lamp Overload Connector 4 D19 Lamp Overload Connector 3 D25 Sweep Lock D26 Center Lock D30 Customer Counting: Led on = active D45 Customer Counting: Led on = active D47 Customer Counting: Led on = active D48 Customer Counting: Led on = active D50 Customer Counting: Led on = active IO Connector IO Connector K23 K24 K201 Handheld terminal RxTx K202 Oscilloscope Rx K203 Jumper K204 Jumper K205 Handheld terminal NCC K300 Output Rx (connector 1) K301 Output Rx (connector 2) P1 P2 P3 P4 P5 PA Drive Adjustment Phase Adjustment Tx Mixer Bias Adjustment Slave Data communication Rx Master Data communication Rx D51 Customer Counting: Led on = active D52 Customer Counting: Led on = active D53 Customer Counting: Led on = active D201 Label Alarm RxTx D202 Communication Error RxTx D220 Label Detection Alarm NCC on = detection D221 Communication Error NCC D300 Lamp Overload Connector 1 D301 Lamp On Connector 1 D302 Lamp Overload Connector 2 D303 Lamp On Connector 2 D311 Mux Connector 1 RX D312 Mux Connector 2 RX O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 2 I Q 3 E P C B K K201 K202 K203 K204 K3 P1 P2 D18 D17 D19 D16 P3 D303 D302 D12 D11 D301 D300 D312 D311 K11 K4 K5 K301 K300 P4 K6 K7 1 1 K24 K23 16 16 O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 3 Jumper Attenuation Jumper Attenuation Jumper Attenuation Jumper Oscilloscope Tx Output Tx (connector 4) Output Tx (connector 3) Synchronization In Synchronization In Jumper Attenuation The following points can be used:
K3 K4 K5 K6 K7 K9 K11 Power Input K12 K13 K15 K19 K21 Connector FCI Indicator leds:
D11 Mux Connector 1 TX D12 Mux Connector 2 TX D16 Lamp On Connector 3 D17 Lamp On Connector 4 D18 Lamp Overload Connector 4 D19 Lamp Overload Connector 3 D30 Customer Counting: Led on = active D45 Customer Counting: Led on = active D47 Customer Counting: Led on = active D48 Customer Counting: Led on = active D50 Customer Counting: Led on = active IO Connector IO Connector K23 K24 K201 Handheld terminal RxTx K202 Oscilloscope Rx K203 Jumper K204 Jumper K300 Output Rx (connector 1) K301 Output Rx (connector 2) P1 P2 P3 PA Drive Adjustment Phase Adjustment Tx Mixer Bias Adjustment D51 Customer Counting: Led on = active D52 Customer Counting: Led on = active D53 Customer Counting: Led on = active D201 Label Alarm RxTx D202 Communication Error RxTx D300 Lamp Overload Connector 1 D301 Lamp On Connector 1 D302 Lamp Overload Connector 2 D303 Lamp On Connector 2 D311 Mux Connector 1 RX D312 Mux Connector 2 RX O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 4 A t t e n u a t i o n D18 D17 D19 D16 P3 D303 D302 D11 D301 D300 D312 D311 K4 K5 K301 K300 Jumpers
= 0 dB
= 6 dB
= 12 dB
= 18 dB It is possible to attenuate the receiver input sensitivity with 6, 12 or 18dB. In this way the receiver is capable of accepting the high level of the coupled transmitter signal when the panels are too close to eachother. When the distance between the antennas is below 1.5 metre the attenuator should be used to avoid overloading of the receiving input. O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 5 I O C o n n e c t o r K 2 3 1 = DRF2b count in2 2 = DRF2b count in1 3 = DRF2b enable burst 4 = DRF2b sync 150 Hz 5 = Gnd general 6 = +33V 7 = Gnd Customer Counting 8 = sensor in 8 9 = sensor in 7 10 = sensor in 6 11 = sensor in 5 12 = sensor in 4 13 = sensor in 3 14 = sensor in 2 15 = sensor in 1 16 = +15V Customer Counting I O C o n n e c t o r K 2 4 1 = Ry1 C 2 = Ry1 NO 3 = Ry1 NC 4 = Ry2 C 5 = Ry2 NO 6 = Ry2 NC 7 = opto in 1 8 = opto in 2 9 = common opto inputs 10 = opto out 2 11 = opto out 1 12 = common opto outputs 13 = I2C Sda 14 = I2c Scl 15 = + 6Volt 16 = Gnd 1 1 K24 K23 16 16 1 1 K24 K23 16 16 O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 6 S y s t e m c o n f i g u r a t i o n s 1. Shown configurations are examples 2. Settings may differ from the store you are installing - programming 3. Shown firmware is version 1.406 X and 1.407 X, used for these examples, your version may be different!
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O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 8 E Q S y s t e m , 3 a i s l e s EQ - Unit K205 K16 K201 K202 K3 4 3 2 1 K6 K23 1 5 K10 K4 K5 K301 K300 A B C MM 7 Edit 2003-02-13 4 Test 11:53:54 1 Status MM 1.406/A C Reboot EQ 5E30 7 Edit 7 Sweep 9 Flash 4 Alarm 6 Modem 1 Network 3 InOut C Slaves 1 Network Address 5E30 C Detect slaves FFFF C Detect slaves Address 5E30 C Detect slaves FFFF 7 Sweep 9 Flash 4 Alarm 6 Modem 1 Network 3 InOut C Slaves C Slaves (check) 4B5C<0000 0000 0000 0000<0000 0000 0000 0000<0000 0000 0000 0000<0000 0000 0000 7 Sweep 9 Flash 4 Alarm 6 Modem 1 Network 3 InOut C Slaves 9 Flash 7 Save settings 4 Restore 7 Save settings Done
(Esc to continue) MS Transmitter 7 Edit 2003-02-13 4 Test 11:53:54 1 Status MS 1.406/A C Reboot EQ3 4B5C 7 Edit 7 RX 9 Flash 4 TX 6 InOut 4 TX 7 Mux 4 Alarm 1 Power 7 Mux Mux x 4< On 7 Led 1 Phase A B C D Conn 3 3 4 4 Group 1 1 1 1 7 Mux 4 Alarm 1 Power 4 Alarm Alarm neighbour A B C D 4B5C<4B5C 4B5C 0000 0000 0000 0000 0000 7 Mux 4 Alarm 1 Power 1 Power Phase A B C D Power 12< 12 12 12 Actual 12 12 12 12 Agc 1 7 Mux 4 Alarm 1 Power MS Receiver 7 Edit 2003-02-13 4 Test 11:53:54 1 Status MS 1.406/A C Reboot EQ3 4B5C 7 Edit 7 RX 9 Flash 4 TX 6 InOut 7 RX Edit 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 7 Mux Mux 4< On 7 Led 1 Phase A B C D Conn 1 2 2 2 Group 1 1 1 1 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 1 Sens GainA 54< GainB 54 GainC 54 GainD 54 Tresh 8 MaxPW 40 0 Default 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 4 Alarm Ext Rel 0< 0 0 0 AlrmEna 1 1 1 0 Buzzer Ena 1 Mode 0 Lvl 0 Time 0 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 7 RX 9 Flash 4 TX 6 InOut 7 RX 9 Flash 7 RX 9 Flash 4 TX 6 InOut 4 TX 6 InOut 9 Flash 7 Save settings 4 Restore 9 Flash 7 Save settings 4 Restore 7 Save settings 7 Save settings Done
(Esc to continue) Done
(Esc to continue) O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 1 9 I Q S y s t e m , 7 a i s l e s , C u s t o m e r C o u n t i n g , M e t a l D e t e c t i o n See last page for an extended view O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 0 C h e c k l i s t m o d e m s e t t i n g s i N C C PRE -INSTALLATION Is there an analog line present?
NO Install telephoneline YES CAUTION:
ISDN connections to the internet are NOT supported at this moment. Connecting to an ISDN-line is possible with a DeTeWe TA33 converter, but is NOT supported by Nedap Is the line available at the place of the installation?
YES Phone number of this line ___________________ Prefix for calling outside the store NO Is it possible to call interlocal?
YES / NO Is it possible to call international?
YES / NO When is the line ready?
Date ready __ - __ - _____ NO Will this be arranged by third party?
NO YES When is the line ready?
Is the line ready before the installation of the OS/T system?
NO YES Will this be arranged by Nedap?
YES Date ready __ - __ - _____ Problems?
extra visit Date visit __ - __ - _____ YES Prefix: ___ Next page O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 1 Is this line blocked for special phonenumbers?
YES NO Blocked for:
________________ ________________ ________________ Can this line be approached through a telephonecentral?
YES Can this line be used for data-transport?
NO YES Arrange connecting through the cental NO YES Arrange data-transport YES Is this a shared line?
NO YES At what time can there be called In or OUT Is there an ISP present at the customer?
YES Did you enquire a Store-ID?
YES NO NO YES Arrange an ISP Mail/Fax Nedap for a Store-ID by filling in the applicationform Store-ID: ___ YES Times to call:
example: 02 h 15m ____ h ____ m ____ h ____ m ____ h ____ m ISP stettings:
Provider:_________________ Phonenumber:____________ IP: ______________________ Password:________________ On-site installation O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 2 INSTALLATION ON SITE What brand and type is the modem?
Test the line with an analog telephone Modem:
Brand:__________ Type:___________ CAUTION:
Nedap recommends NOT to use a US Robotics modem Call with this telephone the ISP You will hear a sound like you are calling a fax NO Check your telephoneline YES Connect the modem of the iNCC to the laptop / pc Test the modem by calling the ISP OK FAIL Solve problem OK Save the configuration as AT&W AT&W setting:
Go to Control panel, modem, modemproperties, advanced Extra initialization commands:
AT&W Next page O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 3 Connect the PC with the iNCC Program the ISP settings and the Store-ID into the iNCC Disconnect the PC and connect the modem Next page XQ EQ / IQ F M F M GENDER CHANGER M F M F Direct modem cable Direct modem cable MODEM MODEM O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 4 Place the handterminal in the MM part of the unit Press "6"
7 Modem 4 Internet Store 19<
Press "7"
Modem 3<Auto 0 Connect 0 Logon 0 Baud 38400 Pin 0000 Bits 8 Par N Stop 1 Check if "Connect" = 0 0= Modem recognized Press " "
7 Modem 4 Internet Store 19<
Press "4"
Dial interval 1440<
Max connect 30 Syslog free 796 High 320 Low 64 Check and / or change these settings Your StoreID Next page O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 5 Press "ESC"
7 Edit 2002-09-06 4 Tests 10:18:04 1 Status MM 1.406/A C Reboot EQ 7862 Press "1"
7 Alarm 4 Bridging 6 Modem 1 Network 3 InOut C Timer Press "6"
Ival 1412 Con 118 Wait 0 DialNow 0 Attempt 0 Modem 0 Ppp 00.00 0 0 Press "C"
(Clearing the statusview) Press "E"
(pressing E will start dialing)
"DialNow" will get "1"
Con will get 4 minutes higher Next page O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 6 When the modem is switching from
"0" > "-1" > "0" it is starting to call out of the store Modem "2", starts calling and is getting
"3"
Take a look at the PPP status: When PPP is "3F" then data will be send to the database Connection OK When data is send, PPP status will be FF or BF Make a drawing of the systemconfiguration and mail / fax it to the Nedap in Groenlo Modem
-1 = No modem - Wrong cable / modem switched off / wrong modem 0 = Modem found - default value 1 = Modem connected - someone is connecting to the NCC 2 = Modem is trying to connect 3 = Connection present- NCC is connected to the other side Ppp = Point to Point Protocol
(when modem status is 3) 00 = No PPP - No modem connection / provider does not understand the options 01 = LCP ISP is ready - NCC can not handle the provider options 03 = LCP NCC is ready- Wrong name or Password 07 = PAP NCC is ready- Provider does not understand IPCP options 0F = IPCP ISP is ready- NCC does not understand IPCP options 1F = IPCP NCC is ready- TOP-server can not be found / wrong IP-number and/or provider does not support protocol 3F = TOP started- Default value 7F = TOP execute- Default value (very rare) FF = Hangup- Default value (very rare) O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 7 C o n n e c t i n g a P C t o a X Q o r E Q / I Q U n i t XQ EQ / IQ M F RS232 9P SUB-D Extension cable M F NULL MODEM M F GENDER CHANGER F M RS232 9P SUB-D Extension cable F M PC F M PC RS232 RS232 F = Female, M = Male O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 8 C o n n e c t i n g a X Q o r E Q / I Q u n i t t o a m o d e m XQ EQ / IQ F M F M GENDER CHANGER M F M F Direct modem cable Direct modem cable MODEM MODEM F = F e m a l e , M = M a l e O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 2 9 C o n n e c t i n g t o a n I S D N l i n e u s i n g t h e D e T e W e T A 3 3 t e r m i n a l a d a p t e r At the moment this manual is written, connecting a ISDN modem to a XQ or an EQ/IQ Unit is NOT supported. The connection shown below can be used in case of an ISDN telephone line. XQ EQ / IQ F M F M GENDER CHANGER M F Direct modem cable M F Direct modem cable ANALOG MODEM ANALOG MODEM TA33 TA33 DeTeWe TA33 Terminal Adapter Analog -> ISDN ISDN A/B A/B DeTeWe ISDN A/B A/B DeTeWe ISDN ISDN F = Female, M = Male O S / T C o u r s e 2 0 0 3 N E D A P R e t a i l S u p p o r t 2 0 0 3 3 0 K205 K201 K202 K3 K205 K201 K202 K3 IQ3 IQ4E 4 3 2 1 K6 1 1 K24 K23 16 16 K10 K4 K5 K301 K300 4 3 2 1 K6 1 1 K24 K23 16 16 K10 K4 K5 K301 K300 RX MDRX TX MDTX RX MDRX TX MDTX RX MDRX TX MDTX RX MDRX TX MDTX A B C D A B C 1 3 2 4 1 3 2 4 Buzzer for Metal Detection on relay 1 IQ3 MM 7 Edit 2003-02-13 4 Test 10:26:15 1 Status MM 1.407/A C Reboot IQ 52C5 7 Edit 7 Sweep 9 Flash 4 Alarm 6 Modem 1 Network 3 InOut C Slaves 1 Network Address 52C5 C Detect slaves FFFF C Detect slaves Address 52C5 C Detect slaves FFFF 7 Sweep 9 Flash 4 Alarm 6 Modem 1 Network 3 InOut C Slaves C Slaves (check) 6288<72C5 0000 0000 0000 0000 0000 0000 7 Sweep 9 Flash 4 Alarm 6 Modem 1 Network 3 InOut C Slaves 9 Flash 7 Save settings 4 Restore 7 Save settings Done
(Esc to continue) MS Transmitter 7 Edit 2003-02-13 4 Test 11:33:39 1 Status MS 1.406/B C Reboot IQ3 72C5 7 Edit 7 RX 9 Flash 4 TX 6 InOut 4 TX 7 Mux 4 Alarm 1 Power 7 Mux Mux x 4< On 7 Led 1 Phase A B C D Conn 3 3 4 4 Group 1 1 1 1 7 Mux 4 Alarm 1 Power 4 Alarm Alarm neighbour A B C D 72C5<72C5 72C5 6288 0000 0000 0000 0000 7 Mux 4 Alarm 1 Power 1 Power Phase A B C D Power 12< 12 12 12 Actual 12 12 12 12 Agc 1 7 Mux 4 Alarm 1 Power MS Receiver 7 Edit 2003-02-13 4 Test 11:33:39 1 Status MS 1.406/B C Reboot IQ3 72C5 7 Edit 7 RX 9 Flash 4 TX 6 InOut 7 RX 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 7 Mux Mux 4< On 7 Led 1 Phase A B C D Conn 1 2 2 1 Group 1 1 1 1 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 1 Sens GainA 54< GainB 54 GainC 54 GainD 20 Tresh 8 MaxPW 40 0 Default 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 4 Alarm Ext Rel 0< 0 0 0 AlrmEna 1 1 1 0 Buzzer Ena 1 Mode 0 Lvl 0 Time 0 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 7 RX 9 Flash 4 TX 6 InOut 7 RX 9 Flash 7 RX 9 Flash 4 TX 6 InOut 4 TX 6 InOut 9 Flash 7 Save settings 4 Restore 9 Flash 7 Save settings 4 Restore 7 Save settings 7 Save settings Done
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(Esc to continue) CC & MD 7 Edit 2003-02-13 4 Test 11:33:39 1 Status MS 1.406/B C Reboot IQ3 72C5 7 Edit 7 RX 9 Flash 4 TX 6 InOut 6 InOut Usage 4<
7 Free/Deact (0/1) 4 CuCo (*) 1 Metal (2/4) 4 CuCo 7 Counting 4 Direction 7 Counting Single/Double 2<
MinPuls 60 TO 15 WA 1:0 2:0 3:0 4:0 Lvl 25 Time 5 7 Counting 4 Direction 4 Direction 1:72C5<A 2:72C5 B 3:72C5 C 4:6288 D Window 2000 ms LvL 1 Time 5 7 Counting 4 Direction Usage 4<
7 Free/Deact (0/1) 4 CuCo (*) 1 Metal (2/4) 1 Metal (2/4) Action 1< 0 0 0 Mode 0 0 0 0 Pulse in 5 s Lvl 25 Time 5 Usage 4<
7 Free/Deact (0/1) 4 CuCo (*) 1 Metal (2/4) 7 RX 9 Flash 7 RX 9 Flash 4 TX 6 InOut 4 TX 6 InOut 9 Flash 7 Save settings 4 Restore 7 Save settings Done
(Esc to continue) CCTX CCRX Filter IQ4E MS Transmitter 7 Edit 2003-02-13 4 Test 11:33:39 1 Status MS 1.406/B C Reboot IQ4E 6288 7 Edit 7 RX 9 Flash 4 TX 6 InOut 4 TX 7 Mux 4 Alarm 1 Power 7 Mux Mux x 4< On 7 Led 1 Phase A B C D Conn 3 3 4 4 Group 1 1 1 1 7 Mux 4 Alarm 1 Power 4 Alarm Alarm neighbour A B C D 6288<6288 6288 0000 0000 0000 0000 0000 7 Mux 4 Alarm 1 Power 1 Power Phase A B C D Power 12< 12 12 6 Actual 12 12 12 0 Agc 1 7 Mux 4 Alarm 1 Power MS Receiver 7 Edit 2003-02-13 4 Test 11:33:39 1 Status MS 1.406/B C Reboot IQ4E 6288 7 Edit 7 RX 9 Flash 4 TX 6 InOut 7 RX 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 7 Mux Mux 4< On 7 Led 1 Phase A B C D Conn 1 2 2 1 Group 1 1 1 1 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 1 Sens GainA 54< GainB 54 GainC 54 GainD 54 Tresh 8 MaxPW 40 0 Default 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop 4 Alarm Ext Rel 0< 0 0 0 AlrmEna 1 1 1 1 Buzzer Ena 1 Mode 0 Lvl 0 Time 0 7 Mux 8 MutS 4 Alrm 5 Mcut 1 Sens 2 Sigl 3 Admo C Freq 0 Scop CC & MD 7 Edit 2003-02-13 4 Test 11:33:39 1 Status MS 1.406/B C Reboot IQ4E 6288 7 Edit 7 RX 9 Flash 4 TX 6 InOut 6 InOut Usage -1<
7 Free/Deact (0/1) 4 CuCo (*) 1 Metal (2/4) 4 CuCo 7 Counting 4 Direction 7 Counting Single/Double 2<
MinPuls 60 TO 15 WA 1:0 2:0 3:0 4:0 Lvl 1 Time 5 7 Counting 4 Direction 4 Direction 1:6288<A 2:6288 B 3:6288 C 4:0000 0 Window 2000 ms LvL 25 Time 5 7 Counting 4 Direction Usage -1<
7 Free/Deact (0/1) 4 CuCo (*) 1 Metal (2/4) 7 RX 9 Flash 4 TX 6 InOut 7 RX 9 Flash 7 RX 9 Flash 4 TX 6 InOut 4 TX 6 InOut 7 RX 9 Flash 7 RX 9 Flash 4 TX 6 InOut 4 TX 6 InOut 9 Flash 7 Save settings 4 Restore 9 Flash 7 Save settings 4 Restore 9 Flash 7 Save settings 4 Restore 7 Save settings 7 Save settings 7 Save settings Done
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(Esc to continue) NEDAP RETAIL SUPPORT Metal Detection Manual MD4 including 62,75 MHz This document is made for Adobe Acrobat Reader 5.0 or higher. You can download this version of the reader at www.adobe.com Caution!
T e c h n i c a l S u p p o r t :
support-rs@nedap.nl
+31 (0) 544-47 15 19 h.hammer@nedap.nl
- H. Hammer
- H. Broekhuis
+31 (0) 544-47 15 02 h.broekhuis@nedap.nl V i s i t o r s a d d r e s s :
Nedap Retail Support Parallelweg 2d Groenlo Netherlands P o s t a l a d d r e s s :
Nedap Retail Support Postbus 102 7140 AC Groenlo Netherlands 2 Manual MD4 V1.3 NEDAP Retail Support 2003 T a b l e o f c o n t e n t Technical Support:
Modification of the OS/T Metal Detection operating frequency from 66 kHz to 62.75 kHz. 1 General 2 Block diagram 2.1 Explanation of the diagram 3 Printed Circuit Board 4 Metal Detection PCB in XQ unit 5 Metal Detection PCB in EQ/IQ unit 6 Handheld terminal settings 2 4 5 6 7 8 9 9 10 Manual MD4 V1.3 NEDAP Retail Support 2003 3 M o d i f i c a t i o n o f t h e O S / T M e t a l D e t e c t i o n o p e r a t i n g f r e q u e n c y f r o m 6 6 k H z t o 6 2 . 7 5 k H z . In DSP3 systems the Metal Detection (MD) had an operating frequency of 48 kHz, independent of the 8.2 MHz sweep generation system. It could run as a stand-alone system. In the OS/T system, it is possible to set up a system including MD with internal electronics in the panels and a single coax connection between the panels. To realize that, the operating frequency of the OS/T MD had to be derived from the OS/T sweep frequency. The required modification also gave the opportunity to choose a higher operating frequency. That was desired because of an enhanced detectability of metal-lined bags with a very thin aluminum layer, like used in certain types of Cool Bags. The new operating frequency was chosen at 66 kHz, 8 kHz above the Acousto-Magnetic (AM) operating frequency of Sensormatic, in stead of 10 kHz below it, but still within a frequency band where the same level of fieldstrength (72 dBA/m) is allowed, and not on the frequencys of several positioning systems, time standards and submarine communications. Unfortunately this carefully chosen frequency appeared to be exactly the listen frequency of Security Tag or Xpondr frequency divider EAS systems. The transmitter frequency of Xpondr is 132 kHz, so the Nedap MD does not suffer from any interference of a Xpondr system. When installed in neighbor shops, an Xpondr system appeared to be completely deaf. Therefore we had to modify the operating frequency to a nominal 62.75 kHz in stead of 66 kHz. This small frequency shift has the least impact in the modification of several filter components. With the sweep-extend of the OS/T system on position 3, this frequency shifts down to 60.57 kHz. This range is sufficiently below 66 kHz to prevent interference problems with both digital and older analog Xpondr systems. The drawback unfortunately is that 62.75 kHz is closer to the AM frequency. A Nedap MD system can function on a distance of about 20 m away from an AM system. This minimum distance now should be at least 25 m. 4 Manual MD4 V1.3 NEDAP Retail Support 2003 1 General The OST combination NCC4 and external RX4/TX4 can be fitted with up to 8 antennas making it possible to guard up to 4 entrance separately. This MD4 pcb also makes it possible for the Metal Detection to connect and process up to 4 different entrances separately. Like the FCI (Flat Cable Interface) pcb this MD4 pcb is also connected to the feature connector on the OST RX4 or TX4. The MD4 pcb does not need tuning and holds no jumpers. In addition to the 4 Metal Detection in/outputs the pcb is fitted with 4 extra inputs. Floating contacts can be connected to these inputs, for instance to count tag decouplings or shop open/closed. Manual MD4 V1.3 NEDAP Retail Support 2003 5 2 Block diagram BST82
/start 600Hz 74HC4046 600Hz 74HC123 1-shot 74HC123 1-shot 74HC4040 Deler VCO 132Kc 74HC74 D - FF BST82 BC807 BC817 66Kc
+33V LM2672 78M15 78M05
+24V
+15V
+5V 74HC573 74HC4052 in buffer 2 x 4mux ext_clk(I/0) ext_io(I/0)
latch mute_3 74HC573 6 Manual MD4 V1.3 NEDAP Retail Support 2003 2 . 1 E x p l a n a t i o n o f t h e d i a g r a m On the OST feature connector a 600Hz repeated signal is available from which the flat cable interface produces the 66 kHz which is used on the metal detection PCBs. The /start pulse from the feature connector are infect two very narrow pulses about120uSec apart and repeated in a more or less 600 Hz rhythm. On every first pulse a 1 shot 74HC123) is triggered to produce a more or less 600 Hz block signal used a reference signal for a PLL (74HC4046). The VCO of the PLL block oscillates on 132 kHz which by means of a programmable divider divides this signal to around 600 Hz. This signal is then used on the Comp In. of the PLL and the 132 kHz is locked. Another 1 shot triggers a divider by 2 circuit to output the 66 kHz signal which is available on the 4 data cable outputs. An alarm from the MD RX is shaped and buffered (74hc573) and presented on one of the inputs of a 2 x 4mux (74hc4052). Dependent on the mute_3 signal, ext_clk and ext_i/o are used to address the latch (74hc573) or read the output of the mux. Manual MD4 V1.3 NEDAP Retail Support 2003 7 3 Printed Circuit Board connection to feature conn. OST extra conn. m r a a l c d V 4 2 d n g c k 6 6 d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g extra IN MD 8 Manual MD4 V1.3 NEDAP Retail Support 2003 4 Metal Detection PCB in XQ unit 4.1 Circuit board in unit XQ conn. bottom entry MD4-CC4 PCB The MD4 pcb is intended to be placed on top of the TX-PCB* inside the external unit shown above. A CC4 pcb can be placed inside the unit as well. OST-PCB board stacker feature conn.
* Connecting the MD4 PCB to a NR4 on a external NRT4 Unit will decrease EAS performance Manual MD4 V1.3 NEDAP Retail Support 2003 9 5 Metal Detection PCB in EQ/IQ unit K205 1 K21 K201 K202 K203 K204 K3 K16 7K 1K 41K 2L P1 P2 D25 D26 D18 D17 D19 D16 P3 D303 D302 D12 D11 D301 D300 D312 D311 K10 K11 K4 K5 K301 K300 5K 31K 4K 21K 3K 11K 2K P4 P5 16 16 K6 K7 1 1 K23 K24 The MD4 PCB will be mounted on the metal plate on top of the IQ unit. It will be connected with a flat-cable to connector K21 (FCI) of the IQ PCB. See the drawing for the right polarity. 6 Handheld terminal settings For the handheld-terminal settings see the manual of the handheld-terminal (version 1.300 or higher). 10 Manual MD4 V1.3 NEDAP Retail Support 2003 7 W i r i n g e x a m p l e s MD4 pcb Filter Entrance 1 3 Panel 3 x MD Rx TX RX Entrance 2 2 Panel 2 x MD RX TX Manual MD4 V1.3 NEDAP Retail Support 2003 11 12 MD4 pcb Filter Entrance 1 2 Panel 2 x MD Rx TX Entrance 3 2 Panel 2 x MD RX TX Manual MD4 V1.3 NEDAP Retail Support 2003 Entrance 2 2 Panel 2 x MD RX TX MD4 c d V 4 2 c k 6 6 d n g m r a l a d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g MD-TX EQ45 Panel 1 gnd alarm 66kc
+24V MD-RX EQ45 Panel 2 gnd alarm 66kc
+24V Manual MD4 V1.3 NEDAP Retail Support 2003 13 MD4 MD-TX EQ45 Panel 1 gnd alarm 66kc
+24V MD-RX EQ45 Panel 2 gnd alarm 66kc
+24V m r a l a c k 6 6 c d V 4 2 d n g d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g MD-TX EQ45 Panel 3 gnd alarm 66kc
+24V MD-RX EQ45 Panel 4 gnd alarm 66kc
+24V MD-TX EQ45 Panel 5 gnd alarm 66kc
+24V 14 Manual MD4 V1.3 NEDAP Retail Support 2003 The MD4 is designed to be used in combination with the OST external TX unit. Metal detection now can be used in the same entrance configuration as you connect your OST external RX/TX. As on the OST unit, 4 independent Metal Detection connectors are available with independent alarming. (alarming is per entrance not per aisle). As you see there is no change in how to loop the Metal Detection pcbs together. Only be sure to connect only one entrance per connector on the MD4 pcb. This MD4 is also fitted with 4 additional alarm-inputs which can be used for a variety of options. Only a floating contact is needed. One can use the contacts for instance as detection shop open/closed guard on watch alarm cause etc etc. MD4 c d V 4 2 c k 6 6 d n g m r a l a d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g d n g c d V 4 2 d n g push button door switch MD-TX EQ45 Panel 1 gnd alarm 66kc
+24V MD-RX EQ45 Panel 2 gnd alarm 66kc
+24V Manual MD4 V1.3 NEDAP Retail Support 2003 15
This product uses the FCC Data API but is not endorsed or certified by the FCC