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1 | Appendix C | Users Manual | 188.12 KiB |
C Technical Specifications Technical Specifications Technical Specifications Technical Specifications This appendix lists the technical specifications for the following WipLL units:
! WipLL Base Station equipment:
! Base Station Radio (BSR)
! Point-to-Point Radio (PPR)
! Base Station Distribution Unit (BSDU)
! Base Station Power Supply (BSPS)
! GPS antenna
! WipLL Customer premises equipment:
! Subscriber Premises Radio (SPR)
! Subscriber Data Adapter (SDA) SDA-1 SDA-4H SDA-4S models
! Indoor Data Radio (IDR) 02030311-06 Airspan Networks Ltd. C-1 Technical Specifications Hardware Installation Guide C.1. Base Station WipLL Equipment The following sub-sections list the specifications of the following WipLL Base Station equipment:
! Base Station Radio (BSR)
! Point-to-Point Radio (PPR)
! Base Station Distribution Unit (BSDU)
! Base Station Power Supply (BSPS) C-2 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications C.1.1. Base Station Radio (BSR) Table C-1: BSR and MAC Specifications Parameter Operating frequency range Spectrum spreading method Duplex method Comment ISM band Licensed band Unlicensed Unlicensed Licensed
*Other ranges available for trial Per ETSI EN301 253 Value 2.4 GHz 3.x GHz, MMDS, 2.8 5.8 GHz 900 MHz 700 MHz Frequency hopping Time Division Duplex
(TDD): 2.4 GHz, 2.8 GHz, 3.x GHz, MMDS, 900 MHz, 700 MHz, and 5.8 GHz Frequency Division Duplex
(FDD): 3.x GHz Transmit bit rates Channel spacing Up to 4 Mbps 1 MHz BER and distance dependent For 3.5 GHz the channel spacing can be 1 MHz or 1.75 MHz Output power from the BSR Up to 27 dBm (configurable) Depending on local 8-level CPFSK Modulation method PPMA / Adaptive TDMA Channel access method Protocol efficiency Up to 80%
Number of SPR/IDR per BSR Up to 126 regulations, maximum output power can be configured at the factory For large data packets 02030311-06 Airspan Networks Ltd. C-3 Technical Specifications Hardware Installation Guide Table C-2: BSR EMC and Radio Standards Compliance Parameter Radio Standards Compliance EMC Value ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 Parameter Emissions / Immunity Safety Environmental Parameter Filtering Rate Forwarding Rate Routing table length Table C-3: BSR Agency Certification Value EN 300 339 EN 300 386-2 ETS 300 328 EN / IEC 60950 ETS 300 019-2-x Table C-4: BSR Network Specifications Value 10,500 frames/sec 1,300 frames/sec 200 networks, including subnets Comment At 64 byte packets At 64 byte packets Table C-5: BSR Power Requirements Parameter Voltage Minimum:
Maximum:
Maximum Amperes:
Value 48 VDC nominal 30 VDC 55 VDC 500 mA Comment Voltage is received from the BSDU or SDA, depending on base station setup C-4 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications Table C-6: BSR Environmental Conditions Parameter Value Operating temperature of outdoor units (BSR and SPR) Storage temperature
-30C to +60C
-40C to +80C Comment Optional range of -40C to
+70C Parameter Ethernet Network Standards Compliance Serial Port Parameter Height Width Depth Weight Table C-7: BSR Network Interface Value Comment UTP EIA/TIA ANSI/IEEE 802.3 and ISO/IEC 8802-3 10Base-T compliant RS-232 Category 5 Table C-8: BSR Physical Dimensions Comment Excluding mounting kit Value 400 mm (15.74 inches) 317 mm (12.48 inches) 65.5 mm (2.58 inches) 4.7 kg 02030311-06 Airspan Networks Ltd. C-5 Technical Specifications Hardware Installation Guide C.1.2. Point-to-Point Radio (PPR) Parameter Table C-9: PPR Radio Specifications Value Operating frequency bands Duplex method Radio Technology Multiple Access Method Output power Antenna type (built-in) PPR SPR Sub-Channel Spacing Modulation Receiver Sensitivity (BER 1E-
6 at 2/4/8 FSK) Throughput Radio Standards Compliance EMC 2,400 to 2,500 MHz 3,400 to 3,800 MHz 5,725 to 5,875 MHz Time Division Duplex (TDD) for all bands Frequency Division Duplex (FDD) for 3.4 to 3.8 GHz FH-CDMA PPMA 27 dBm 18 dBi / 15 dBi 18 dBi / 15 dBi 1 MHz Multilevel (2, 4, or 8) CPFSK
-90/ -83/ -75 dBm Up to 4 Mbps per PPR-SPR link ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 C-6 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications C.1.3. Base Station Distribution Unit (BSDU) Parameter Filtering Rate Forwarding Rate Parameter Voltage Power consumption Table C-10: BSDU Network Specifications Value 105,000 Frames / sec 62,500 Frames / sec Table C-11: BSDU Power Requirements Value 48VDC nominal Maximum 300W (including the feeding of 6 BSRs) Table C-12: BSDU Environmental Conditions Parameter Operating Temperature Storage Temperature 0C to +50C
-40C to +80C Value Parameter Ethernet Network Standards Compliance Serial Port Table C-13: BSDU Network Interface Value Comment 100/10Base-T: UTP EIA/TIA ANSI/IEEE 802.3, ISO/IEC 8802-3 10/100 Base-T compliant RS-232 Category 5 Table C-14: BSDU Physical Dimensions Parameter Value Height Width Depth Weight 4.32 cm 48.26 cm 22.86 cm 2.9 kg 02030311-06 Airspan Networks Ltd. C-7 Technical Specifications Hardware Installation Guide C.1.4. Base Station Power Supply (BSPS) Table C-15: BSPS Rectifier Specifications Input Output Parameter Voltage Current (nominal) Frequency Power factor (nominal line/load) Voltage (default) Regulation (line & load) Adjustable range Current Ripple & noise Efficiency (nominal load) Overload current Over-voltage protection Over-temperature protection (measured on case, upper panel corner) Walk-in time Hold-up time Withstand voltage (1 min) General Working temperature Storage temperature Dimensions (mm) Weight EMC Safety Value 90VAC to 270VAC 3.2A @ 230V / 4.3A @ 115V 47Hz to 63Hz Greater or equal to 0.993 53.5VDC 0.4%
47 to 58 VDC 12A @ 54V 50mVp-p 85% @ 230V / 82% @ 115V
<12A 60 VDC 805C rectifier stops 725C rectifier recovers
< 0.5 sec 40 ms 4230VDC INPUT/OUTPUT 2120VDC INPUT/GND 1700VDC OUTPUT/GND
-10 to 45C
-50 to 80C 235 x 150 x 50 (L x W x H) 1100g Refer to system specifications According to: IEC950 C-8 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications Table C-16: BSPS DC Distribution Specifications Input Parameter Voltage Current (at full load) N =Number of rectifier modules Output General Frequency Power factor (at full load) Voltage (programmable) Default float and boost voltage Regulation (line, load, sharing) Current Psophometric noise Ripple & noise Efficiency (nominal load) Overload current Over-voltage protection Walk-in time Hold-up time Output current indication Active current sharing Withstand voltage (1 min) Working temperature Storage temperature Dimensions (19 X 3U) Weight RS232 Communication Value 90VAC to 270VAC N*3.2A @ 230V N*4.3A @ 115V 47 Hz to 63 Hz Greater or equal to 0.993 42 to 60VDC 0.5VDC 54 and 57VDC respectively 1%
N*12A (48A max.)
-52 dBm (over 600 &) 50mVp-p 85% @ 230V / 82% @ 115V
< N*12A 60VDC
< 1 sec 40 ms 10 LEDs bar-graph 10% accuracy at full load 2120VDC INPUT/GND
-10 45C
-50 80C Depth is 320mm W/O terminals, 360mm with terminals 13 kg (main unit + 3 rectifiers) 9600 bps, no-parity, 1 stop-bit 02030311-06 Airspan Networks Ltd. C-9 Technical Specifications Hardware Installation Guide Parameter Value EMC Safety Maximum current withstand Trip voltage level LVLD
(optional) According to:
EN300-386-2 SUB 7.2.3 EN55022 class B IEC1000-4-2 IEC1000-4-3 IEC1000-4-4 IEC1000-4-5 IEC1000-4-6 IEC1000-4-11 IEC1000-3-2 IEC1000-3-3 According to: IEC950 2x70A Disconnect default: 43 0.5 VDC, user programmable Re-connect: with AC recovery C-10 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications C.1.5. GPS antenna Table C-17: SPR Power Requirements Parameter Value 36 VDC 1.8W Comment Supplied by WipLLs BSDU Voltage Input Consumption Parameter Operating temperature Parameter Input Output Standards Compliance Interface standard Table C-18: Environmental Considerations Comment Comment Value
-30C to +75C Table C-19: GPS General Value DGPS (Differential GPS) 1 pulse per second MIL-STD 810E RS-422 Table C-20: GPS Dimensions Parameter Value Comment Diameter Height 115 mm 90 mm 02030311-06 Airspan Networks Ltd. C-11 Technical Specifications Hardware Installation Guide C.2. Customer Premises WipLL Equipment The following sub-sections list the specifications of the following WipLL CPE equipment:
! Subscriber Premises Radio (SPR)
! Subscriber Data Adapter (SDA)
! Indoor Data Radio (IDR) C.2.1. Subscriber Premises Radio (SPR) Table C-21: SPR and MAC Specifications Parameter Operating frequency Spectrum spreading method Duplexing Method Transmit Bit Rates Channel spacing Value 2.4 GHz 3.x GHz, MMDS, 2.8 5.8 GHz 900 MHz 700 MHz Frequency hopping Time Division Duplex (TDD):
2.4 GHz, 2.8 GHz, 3.x GHz, MMDS, 900 MHz, 700 MHz, and 5.8 GHz Frequency Division Duplex
(FDD): 3.x GHz Up to 4 Mbps 1 MHz 1 MHz or 1.75 MHz when operating in the 3.5 GHz band Output power from the radio Up to 27 dBm (configurable) Comment ISM band Licensed band Unlicensed Unlicensed Licensed Per ETSI EN 301 253 BER and distance dependent Depending on local regulations. Maximum power output can be set at the factory. C-12 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications Parameter Modulation method Channel access method Protocol efficiency Value 8-level CPFSK PPMA / Adaptive TDMA Up to 80%
Comment For large data packets 02030311-06 Airspan Networks Ltd. C-13 Technical Specifications Hardware Installation Guide Table C-22: SPR EMC and Radio Standards Compliance Parameter Radio Standards Compliance Value ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 Table C-23: SPR Agency Certification Value EN 300 339, EN 300 386-2, ETS 300 328 EN/IEC 60950 ETS 300 019-2-x Table C-24: SPR Network Specifications Value 10,500 frames / sec 1,300 frames / sec 16 Comment At 64 bytes At 64 bytes Table C-25: SPR Power Requirements Value 48VDC nominal 30VDC 55VDC Maximum Comment Power supplied by the SDA 500 mA EMC Parameter Emissions / Immunity Safety Environmental Parameter Filtering rate Forwarding rate Routing table length Parameter Voltage Minimum Maximum Consumption C-14 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications Parameter Operating temperature Storage temperature Parameter Ethernet Network Standards Compliance Serial Port Table C-26: Environmental Considerations Value
-30C to +60C
-40C to +80C Table C-27: Network Interface Value Comment UTP EIA / TIA ANSI/IEEE 802.3 and ISO/IEC 8802-3; 10BaseT compliant RS-232 Category 5 Height Width Depth Weight Height Width Depth Weight Table C-28: SPR Physical Dimensions (without High-Gain Antenna) Parameter Comment Excluding mounting kit Value 311 mm (12.24 inches) 244 mm (9.6 inches) 65.5 mm (2.57 inches) 2.5 kg Table C-29: SPR Physical Dimensions (with High-Gain Antenna) Parameter Value 400 mm (15.74 inches) 317 mm (12.48 inches) 65.5 mm (2.57 inches) 4.7 kg Comment Excluding mounting kit Note: The SPR cable and connector are the same as the BSR. 02030311-06 Airspan Networks Ltd. C-15 Technical Specifications Hardware Installation Guide C.2.2. Subscriber Data Adapter (SDA) C.2.2.1. SDA-1 Table C-30: SDA-1 Physical Dimensions Parameter Value Height Width Depth Weight 200 mm 150 mm 40 mm 47 kg Parameter Output Voltage Power supply Table C-31: SDA Power Requirements Value
-48VDC nominal 110-240 VAC, 50/60Hz, 0.3-0.7A Table C-32: SDA-1 Environmental Considerations Parameter Operating temperature 0C to +50C Value Parameter Data from SPR/BSR Ethernet Power Table C-33: SDA-1 Network Interfaces Value DB15 RJ45 socket for a PC interface AC power connector C-16 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications C.2.2.2. SDA-4H Table C-34: SDA-4-H Physical Dimensions Parameter Value Height Width Depth Weight 200mm 150mm 40mm 53 kg Parameter Output Voltage Power supply Table C-35: SDA-4H Power Requirements Value
-48VDC nominal 110-240 VAC, 50/60Hz, 0.3-0.7A Table C-36: SDA-4H Environmental Considerations Parameter Operating temperature 0C to +50C Value Parameter Data from SPR/BSR Ethernet Power Table C-37: SDA-4H Network Interfaces Value DB15 Three RJ45 socket for a PC interface; one RJ-45 for cross over connection AC power connector 02030311-06 Airspan Networks Ltd. C-17 Technical Specifications Hardware Installation Guide C.2.2.3. SDA-4S Models Table C-38: SDA-4S Physical Dimensions Parameter Value Height Width Depth Weight 200 mm (7.87 inches) 150 mm (5.9 inches) 40 mm (1.57 inches) 53 kg Parameter Output Voltage Power supply Table C-39: SDA-4S Power Requirements Value
-48VDC nominal 110-240 VAC, 50/60 Hz, 0.3-0.7A Table C-40: SDA-4S Environmental Considerations Parameter Operating temperature 0C to +50C Value Parameter Data from SPR/BSR Ethernet Power Table C-41: SDA-4S Network Interfaces Value 15-pin D-type Four 8-pin RJ-45 10/100BaseT sockets for PC interface. These ports support 10/100 Mbps (Auto Negotiation), and MDI/MDI-X automatic crossover AC power connector C-18 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications C.2.3. Indoor Data Radio (IDR) Table C-42: IDR Radio and MAC Specifications Parameter Operating frequency Spectrum spreading method Duplex Method Transmit Bit Rates Channel spacing Output power from the radio Value 2.4 GHz 3.45 GHz 3.5 GHz 900 MHz Frequency hopping Time Division Duplex (TDD) at 2.4 GHz and 900 MHz Frequency Division Duplex
(FDD) at 3.5 GHz and 3.45 GHz Up to 4 Mbps 1 MHz Up to 27 dBm, configurable at 2.4 GHz Channel access method Protocol efficiency PPMA Up to 80%
Comment
(Per ETSI ETS 300 328) ARIB-STD-T66 Depending on BER Depending on local regulations. Maximum power output can be set at the factory. At BER = 10-5, depending on the application 02030311-06 Airspan Networks Ltd. C-19 Technical Specifications Hardware Installation Guide Table C-43: IDR EMC and Radio Standards Compliance Parameter Radio Standards Compliance EMC Value ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 Parameter Emissions / Immunity Safety Environmental Table C-44: IDR Agency Certification Value FCC Class B ARIB-STD-T66 ETSI 300 386-2 EN/IEC 60950 ETS 300 019-2-x Table C-45: IDR Network Specifications Parameter Filtering rate Forwarding rate Value 10,500 frames/sec 1,300 frames/sec Comment At 64 bytes At 64 bytes Table C-46: IDR Power Requirements Value Parameter External Power Supply Voltage Operating Frequency Range Maximum Power consumption Minimum: 100 VAC Maximum: 240VAC 50 to 60 Hz Less than 15W C-20 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Technical Specifications Table C-47: IDR Environmental Considerations Parameter Operating temperature Operating Humidity Storage temperature Value 0-50C
+30C 93%
-40 70C Comment Maximum humidity Parameter Ethernet Network Standards Compliance Serial Port Parameter Weight Dimensions (H x W x D) Table C-48: IDR Network Interface Value Comment UTP EIA / TIA ANSI/IEEE 802.3 and ISO/IEC 8802-3 10Base-T compliant RJ-11 Category 5 Table C-49: IDR Physical Dimensions Value Comment 1,430 g 155 mm (6.1 inches) x 233 mm (9.17 inches) x 74.5 mm (2.93 inches) 120.5 mm (4.74 inches) x 61mm (2.4 inches) x 35 mm (1.37 inches) IDR with built-in antenna IDR with an external antenna Note: Dimensions exclude the external power adapter. Table C-8: IDR Pole Mounting Dimensions Parameter Value Minimum pole diameter Maximum pole diameter 35 mm (1.37 inches) 50 mm (1.97 inches) 02030311-06 Airspan Networks Ltd. C-21
1 | Appendix E | Users Manual | 73.77 KiB |
D FCC Declaration of FCC Declaration of FCC Declaration of FCC Declaration of Conformity for IDR Conformity for IDR Conformity for IDR Conformity for IDR We, Airspan Networks Inc., Company: Airspan Networks Inc Address: 777 Yamato Road Suite 105 Boca Raton, FL 33431 Country: USA Telephone number: +1 561 893-8670 Fax number: +1 561 893-8671 Type are the Responsible Party for this Declaration, certify and declare under our sole responsibility that the following equipment:
Brand Airspan Networks Inc IDR Ext 900MHz Indoor Radio complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Product description 02030311-06 Airspan Networks Ltd. D-1
1 | DoC | Users Manual | 7.51 KiB |
FCC Declaration of Conformity We, the undersigned, Company: Airspan Networks Inc Address: 777 Yamato Road Suite 105 Boca Raton, FL 33431 Country: USA Telephone number: +1 561 893-8670 Fax number: +1 561 893-8671 are the Responsible Party for this Declaration, certify and declare under our sole responsibility that the following equipment:
Brand Type Product description Airspan IDR Ext 900MHz Indoor Radio complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. .......................... on 23 / 12/ 2003...........................
(date)
(signature)
(name and function)
1 | Install Guide Part 1 | Users Manual | 939.16 KiB |
WipLL and AS3010 WipLL and AS3010 WipLL and AS3010 WipLL and AS3010 Systems Systems Systems Systems Wireless IP-Based Local Loop System Release 4.2B Hardware Installation Guide Connecting the World with Wireless Access Solutions The WipLL product bears the CE marking. This CE marking demonstrates WipLLs full compliance with applicable European Union (EU) directives:
The WipLL product bears the Underwriters Laboratories (UL) marking, demonstrating full compliance with ULs safety requirements:
WipLL products also bear the Federal Communications Commission (FCC) marking, demonstrating compliance with FCC Part 15 regulations. Pub. Rev.
01 02 03 04 05 Date Nov-00 Mar-01 Apr-01 Jul-01 Nov-01 Jun-02 Feb-03 May-03 Jul-03 Aug-03 Oct-03 Revision Record: WipLL Hardware Installation Guide Update Description First edition and printing. (Marconi) WipLL Release 1.4 (Marconi) WipLL Release 2.0 (Marconi) WipLL Release 2.2 (Marconi) WipLL Release 2.6 (Marconi) WipLL Release 3.0A (Marconi) WipLL Release 4.0. Author: InterDoc. Updates: Airspan template and content
(connector pinouts; cable crimping, and general) WipLL Release 4.2F. Author: InterDoc. Updates: graphics, deleted BSR with serial port. WipLL Release 4.2A. Author: InterDoc. Updates: Chapter 1 for Transparent Bridging; 5.8 GHz; 2.8 GHz. WipLL Release 4.2A. Author: InterDoc. Updates: formatting; graphics; BSDU LEDs WipLL & AS3010 Rel. 42B. Auth: InterDoc. Updates: RSSI Plug for SPR; IDR RSSI levels; SDA-4S/Vltag; safety guidelines; Append. D. Publication No. 02030311-05 Copyright by Airspan Networks LTD., 2003. All rights reserved worldwide. The information contained in this document is proprietary and is subject to all relevant copyright, patent and other laws protecting intellectual property, as well as any specific agreement protecting Airspan Networks LTD. rights in the aforesaid information. Neither this document nor the information contained herein may be published, reproduced or disclosed to third parties, in whole or in part, without the express, prior, written permission of Airspan Networks LTD. In addition, any use of this document or the information contained herein for any purposes other than those for which it was disclosed is strictly forbidden. Airspan Networks LTD. reserves the right, without prior notice or liability, to make changes in equipment design or specifications. Information supplied by Airspan Networks LTD. is believed to be accurate and reliable. However, no responsibility is assumed by Airspan Networks LTD. for the use thereof nor for the rights of third parties which may be effected in any way by the use thereof. Any representation(s) in this document concerning performance of Airspan Networks LTD. product(s) are for informational purposes only and are not warranties of future performance, either express or implied. Airspan Networks LTD. standard limited warranty, stated in its sales contract or order confirmation form, is the only warranty offered by Airspan Networks LTD. in relation thereto. This document may contain flaws, omissions or typesetting errors; no warranty is granted nor liability assumed in relation thereto unless specifically undertaken in Airspan Networks LTD. sales contract or order confirmation. Information contained herein is periodically updated and changes will be incorporated into subsequent editions. If you have encountered an error, please notify Airspan Networks LTD. All specifications are subject to change without prior notice. Main Operations:
Airspan Communications Ltd. Cambridge House Oxford Road Uxbridge Middlesex UB8 1UN United Kingdom Tel: (44)-895 467100 Web site: http//www.airspan.com Customer Service (TAC): Wipll.tech_support@airspan.com or (+972) 8 929 2266 This page is intentionally left blank. Hardware Installation Guide Contents Contents About this Manual................................................................................................ xiii Purpose....................................................................................................... xiii Targeted Audience...................................................................................... xiii Organization of this manual......................................................................... xiv Conventions .................................................................................................xv Technical support.........................................................................................xv 1. 2. Introduction .............................................................................................. 1-1 1.1. Main Features ..................................................................................... 1-2 1.2. Customer Benefits............................................................................... 1-3 1.3. System Architecture ............................................................................ 1-4 1.3.1. Base Station ......................................................................... 1-5 1.3.2. Subscriber Site ..................................................................... 1-8 1.3.3. Network Operations Center ................................................ 1-12 1.4. Applications....................................................................................... 1-13 1.4.1. Broadband Data Access..................................................... 1-13 1.4.2. High Speed Internet Access ............................................... 1-14 1.4.3. Voice over IP ...................................................................... 1-15 1.4.4. Traffic Engineering in Multi-Tenant Application .................. 1-16 1.4.5. Repeater Solution............................................................... 1-17 Safety Guidelines ..................................................................................... 2-1 2.1. General Safety Guidelines .................................................................. 2-2 2.2. Electrical Safety Guidelines................................................................. 2-2 2.2.1. Handling Electrostatic Devices ............................................. 2-3 2.2.2. Grounding............................................................................. 2-4 2.3. Lightening Protection........................................................................... 2-4 2.4. Installing Outdoor Units and Third-Party External Antennas............... 2-5 2.5. Radio Interference Prevention............................................................. 2-5 02030311-05 Airspan Networks Ltd. v Contents Hardware Installation Guide 3. 2.6. Cabling ................................................................................................ 2-6 2.6.1. General................................................................................. 2-6 2.6.2. Labeling ................................................................................ 2-7 2.6.2.1. Voltage Warning .................................................... 2-7 2.6.2.2. High Earth Leakage Current .................................. 2-8 2.6.2.3. Signal Cable Designation....................................... 2-9 Part List and Required Tools .................................................................. 3-1 3.1. Unpacking and Verifying Contents...................................................... 3-1 3.1.1. Base Station Equipment ....................................................... 3-1 3.1.1.1. BSR........................................................................ 3-2 3.1.1.2. BSDU (optional)..................................................... 3-3 3.1.1.3. BSPS (optional) ..................................................... 3-4 3.1.1.4. GPS (optional) ....................................................... 3-4 3.1.2. Customer Premises Equipment............................................ 3-5 3.1.2.1. SPR........................................................................ 3-5 3.1.2.2. RSSI LED Plug ...................................................... 3-6 3.1.2.3. SDA........................................................................ 3-6 3.1.2.4. IDR kit .................................................................... 3-9 3.2. Required Tools.................................................................................. 3-10 vi Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Contents Part I: Installing WipLL Base Station Equipment 4. 5. Installing the BSR..................................................................................... 4-1 4.1. Overview ............................................................................................. 4-2 4.2. Physical Dimensions and Basic Design .............................................. 4-3 4.3. Cable Installation Guidelines............................................................... 4-4 4.4. Connecting BSR for Serial Configuration............................................ 4-6 4.5. Connecting BSR to the Backhaul Network........................................ 4-11 4.5.1. Through the SDA................................................................ 4-11 4.5.2. Through the BSDU ............................................................. 4-16 4.6. Conecting a Third-Party External Antenna (Optional)....................... 4-20 4.7. Connecting BSR to Power................................................................. 4-22 4.8. Mounting the BSR ............................................................................. 4-23 4.8.1. Minimum Distance Between BSRs..................................... 4-24 4.8.2. Wall Mounting..................................................................... 4-25 4.8.3. Pole Mounting..................................................................... 4-28 Installing the BSDU.................................................................................. 5-1 5.1. Overview ............................................................................................. 5-2 5.2. Physical Dimensions and Basic Design .............................................. 5-3 5.3. Rack-Mounting .................................................................................... 5-5 5.4. Connecting to BSRs............................................................................ 5-7 5.5. Connecting to the GPS Antenna ......................................................... 5-7 5.6. Connecting to 100Base-T Networks.................................................... 5-8 5.7. Daisy-Chaining BSDUs ....................................................................... 5-9 5.8. Connecting Sync IN/OUT ports......................................................... 5-11 5.9. Connecting to BSPS for Power Management ................................... 5-13 5.10. Connecting to PC for Serial Management....................................... 5-16 5.11. Connecting to PC for Network IP Management .............................. 5-18 02030311-05 Airspan Networks Ltd. vii Contents Hardware Installation Guide 6. 7. 5.12. Connecting to Power....................................................................... 5-21 5.12.1. Grounding the BSDU........................................................ 5-22 5.12.2. Connecting to Power Supply (BSPS) ............................... 5-23 5.13. LED Indicators................................................................................. 5-25 5.13.1. BSRs LEDs...................................................................... 5-25 5.13.2. 100Base-T LEDs .............................................................. 5-26 5.13.3. Status LEDs...................................................................... 5-27 Installing the GPS..................................................................................... 6-1 6.1. Mounting the GPS............................................................................... 6-2 6.2. Connecting to the BSDU ..................................................................... 6-3 Installing the BSPS .................................................................................. 7-1 7.1. Overview ............................................................................................. 7-2 7.1.1. BSPS Components............................................................... 7-3 7.1.2. General Site Requirements .................................................. 7-6 7.1.3. BSPS Cabinet Cabling ......................................................... 7-7 7.2. BSPS Installation Summary ................................................................ 7-9 7.3. Installing BSPS Batteries .................................................................. 7-12 7.4. Rectifiers ........................................................................................... 7-15 7.4.1. Installing ............................................................................. 7-15 7.4.2. Calibrating .......................................................................... 7-16 7.5. Operating the System Controller....................................................... 7-18 7.6. Connecting BSPS Power to BSDUs.................................................. 7-20 7.7. Connecting BSPS Management Cables ........................................... 7-22 7.8. BSPS Cabinet Power Requirements................................................. 7-24 7.8.1. BSPS Cabinet Grounding................................................... 7-26 7.8.2. BSPS Equipment Supplementary Grounding..................... 7-27 7.9. BSPS Troubleshooting...................................................................... 7-27 viii Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Contents Part II: Installing WipLL Customer Premises Equipment 8. 9. Installing the SPR..................................................................................... 8-1 8.1. Overview ............................................................................................. 8-2 8.2. Physical Dimensions and Basic Design .............................................. 8-5 8.3. Cable Guidelines................................................................................. 8-6 8.4. Mounting the SPR ............................................................................... 8-7 8.4.1. Minimum Distance between SPRs ....................................... 8-8 8.4.2. Wall-Mounting....................................................................... 8-9 8.4.3. Pole-Mounting .................................................................... 8-12 8.5. Connecting an External Third-Party Antenna (Optional)................... 8-15 8.6. Connecting to the SDA...................................................................... 8-16 8.7. Connecting to a PC for Serial Configuration ..................................... 8-21 8.8. Connecting the RSS LED Adapter .................................................... 8-25 8.9. Connecting Power............................................................................. 8-29 Installing the SDA..................................................................................... 9-1 9.1. Overview ............................................................................................. 9-2 9.2. Physical Dimensions and Basic Design .............................................. 9-5 9.3. Mounting the SDA ............................................................................... 9-7 9.3.1. Desktop-Mounting ................................................................ 9-7 9.3.2. Wall-Mounting....................................................................... 9-8 9.4. Connecting to the SPR........................................................................ 9-9 9.5. Connecting to the Subscribers Ethernet Network............................... 9-9 9.5.1. Connecting to PCs.............................................................. 9-12 9.5.2. Connecting to a Hub........................................................... 9-14 9.5.3. Connecting to a VoIP Network ........................................... 9-17 9.6. Connecting AC Power....................................................................... 9-19 9.7. LED Display....................................................................................... 9-23 9.7.1. SDA-4H .............................................................................. 9-23 9.7.2. SDA-4S Models .................................................................. 9-25 02030311-05 Airspan Networks Ltd. ix Contents Hardware Installation Guide 10. A. B. Installing the IDR.................................................................................... 10-1 10.1. Overview ......................................................................................... 10-2 10.2. Physical Dimensions and Basic Design .......................................... 10-4 10.3. Mounting the IDR ............................................................................ 10-5 10.3.1. Desk Mounting.................................................................. 10-5 10.3.1.1. Vertical-Desk Mounting...................................... 10-6 10.3.1.2. Horizontal-Desk Mounting.................................. 10-7 10.3.2. Wall and Pole Mounting.................................................... 10-8 10.3.2.1. Assembling the Bracket and Hanger Plate ........ 10-8 10.3.2.2. Pole Mounting.................................................. 10-11 10.3.2.3. Wall Mounting .................................................. 10-13 10.4. Connecting a Third-Party External Antenna.................................. 10-14 10.5. Connecting to an Ethernet Network .............................................. 10-16 10.5.1. Ethernet LED Indicator ................................................... 10-18 10.6. Positioning IDR for Optimum RF Reception.................................. 10-18 10.7. Connecting to PC for Serial Configuration .................................... 10-20 10.8. Connecting Power......................................................................... 10-23 10.8.1. Power LEDs.................................................................... 10-26 Glossary....................................................................................................A-1 Cable Crimping.........................................................................................B-1 B.1. Crimping CAT-5e Cable for 15-Pin D-Type Connectors.....................B-2 B.1.1. Stripping the Cable...............................................................B-4 B.1.2. Crimping the Cable ..............................................................B-5 B.1.3. Inspecting the Crimped Connector.......................................B-6 B.1.4. Housing the Connector ........................................................B-8 B.2. Crimping N-type Connectors.............................................................B-10 B.2.1. Stripping the Cable.............................................................B-10 B.2.2. Assembling the Connector .................................................B-12 B.2.3. Crimping.............................................................................B-13 B.3. Crimping GPS Cable Connectors .....................................................B-15 x Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Contents Technical Specifications .........................................................................C-1 C.1. Base Station WipLL Equipment..........................................................C-2 C.1.1. Base Station Radio (BSR) ...................................................C-3 C.1.2. Point-to-Point Radio (PPR) ..................................................C-6 C.1.3. Base Station Distribution Unit (BSDU).................................C-7 C.1.4. Base Station Power Supply (BSPS) ....................................C-8 C.1.5. GPS antenna .....................................................................C-11 C.2. Customer Premises WipLL Equipment.............................................C-12 C.2.1. Subscriber Premises Radio (SPR).....................................C-12 C.2.2. Subscriber Data Adapter (SDA).........................................C-15 C.2.2.1. SDA-1..................................................................C-15 C.2.2.2. SDA-4H ...............................................................C-16 C.2.2.3. SDA-4S Models...................................................C-17 C.2.3. Indoor Data Radio (IDR) ....................................................C-18 Summary of Connector Pinouts .............................................................D-1 D.1. BSR/SPR-to-BSDU/SDA CAT 5 Connector Pinouts ..........................D-1 D.2. SPR and BSR Serial Connector Pinouts ............................................D-3 D.3. BSDU Connector Pinouts ...................................................................D-5 D.3.1. BSDU Daisy Chaining..........................................................D-5 D.3.2. BSDU Synchronization ........................................................D-5 D.3.3. BSDU Serial Management...................................................D-6 D.3.4. BSDU PC Network Management.........................................D-7 D.3.5. BSDU 100Base-T ................................................................D-8 D.4. GPS-to-BSDU Connector Pinouts ......................................................D-8 D.5. Connector Pinouts for BSPS Serial Management via BSDU..............D-9 D.6. IDR Connector Pinouts.......................................................................D-9 D.6.1. Serial Management Connection...........................................D-9 D.6.2. Ethernet LAN Connection ..................................................D-10 D.7. SDA Ethernet LAN Connector Pinouts .............................................D-11 C. D. 02030311-05 Airspan Networks Ltd. xi Contents Hardware Installation Guide This page is intentionally left blank. xii Airspan Networks Ltd. 02030311-05 About this Guide About this Guide About this Guide About this Guide This section discusses the purpose, targeted audience, references, organization, and technical support of the WipLL Hardware Installation Guide. Purpose This guide describes the procedures for installing Airspans WipLL devices. These devices include the Base Station Radio (BSR), Base Station Distribution Unit
(BSDU), Base Station Power Supply (BSPS), Global Positioning System antenna
(GPS), Subscriber Premises Radio (SPR), Subscriber Data Adapter (SDA), and Indoor Data Radio (IDR). Although this guide provides software configuration information for certain WipLL devices, it is not comprehensive. For detailed software configuration information, see the WipLL Commissioning Manual, WipConfig Users Guide, and WipManage Users Guide. Targeted Audience This guide is intended for the person who is responsible for installing the WipLL system, and who should be familiar with electronic circuitary and wiring. 02030311-05 Airspan Networks Ltd. xiii About this Guide Hardware Installation Guide Organization of this Guide This guide is organized into the following chapters and parts:
! Chapter 1, Introduction: provides a brief overview of the WipLL hardware devices.
! Chapter 2, Safety Guidelines: lists the safety guidelines for handling cables and electricity during the installation.
! Chapter 3, Part List and Required Tools: lists the equipment provided by Airspan, as well as the tools needed for installation.
! Part 1, Installing WipLL Base Station Equipment: includes the following chapters concerned with installing WipLL equipment at the base station:
! Chapter 4, Installing the BSR
! Chapter 5, Installing the BSDU
! Chapter 6, Installing the GPS
! Chapter 7, Installing the BSPS
! Part 2, Installing WipLL Customer Premises Equipment: includes the the installing WipLL equipment at following chapters concerned with subscribers premises:
! Chapter 8, Installing the SPR
! Chapter 8, Installing the SDA
! Chapter 9, Installing the IDR
! Appendix A, Glossary: glossary of terms used in this guide
! Appendix B, Cable Crimping: describes the crimping procedure for 15-Pin D-type, N-type, and GPS connectors. xiv Airspan Networks Ltd. 02030311-05 Hardware Installation Guide About this Guide
! Appendix C, Technical Specifications: lists the technical specifications of the WipLL units.
! Appendix D, Summary of Connector Pinouts: provides a sumary of the connector pinouts and color-wiring for CAT 5 cable connectors. Conventions This guide uses the following bulletin conventions:
Note: Provides useful information. Warning: Provides information that can prevent and avoid bodily or mechanical harm. Technical Support For service and support for your WipLL system, contact your regional Airspan representative, or Airspans Technical Assistance Center (TAC) at:
! Telephone hotline: (+972)-8-929 2266
! E-mail: Wipll.tech_support@Airspan.com 02030311-05 Airspan Networks Ltd. xv 1 Introduction Introduction Introduction Introduction Airspans AS WipLL system (hereafter referred to as WipLL) is a low-cost, high-
performance point-to-multipoint IP-based Broadband Fixed Wireless (BFW) Access solution. WipLL provides wireless local-loop (last-mile) connectivity designed to deliver high-speed data, Voice over IP (VoIP), and multimedia services to residential, SOHO (small office/home office), and SME (small medium enterprise). WipLL offers service providers an integrated access solution, providing quick-to-
market deployment and low-market entry cost for broadband services. WipLL provides connectivity speeds of up to 4 Mbps in the licensed 2.8 GHz, 3.x GHz, and Multichannel Multipoint Distribution Services (MMDS), and unlicensed 900 MHz, 2.4 GHz (ISM), and 5.8 GHz radio frequency bands. Each WipLL base station, at maximum configuration, supports up to 3,024 subscribers. WipLL enables interconnection with the Public Switched Telephone Network
(PSTN) by the use of an IP-to-PSTN gateway. WipLL provides VoIP by its interoperability with a wide range of third-party products such as residential gateways (RGW), access gateways, gatekeepers, and softswitches. WipLL utilizes air protocol technology for wireless packet switching using Frequency Hopping technology. In addition, WipLLs in-house Preemptive Polling Multiple Access (PPMA) air MAC protocol technology, which recognizes transmission type and assigns bandwidth, is highly efficient80% throughput (e.g., 80% of 4 Mbps = 3.2 Mbps net capacity)allowing multiple concurrent subscribers to utilize bandwidth. WipLL provides bandwidth management by supporting Committed Information Rate (CIR) and Maximum Information Rate (MIR), guaranteeing bandwidth levels to subscribers. In addition, WipLL supports VLANs/VPNs based on IEEE 802.1Q/p. WipLL supports IP routing and PPPoE bridging, as well as transparent bridging. 02030311-05 Airspan Networks Ltd. 1-1 Introduction Hardware Installation Guide WipLL provides embedded security features such as IP (packet) filters based on addresses, protocols, and applications. The WipLL system provides SNMP-based management, allowing remote and local management, configuration, and monitoring of WipLL equipment. 1.1. Main Features The WipLL system includes the following main features:
! Low initial investment, maximum return on investment (ROI)
! Packet-based air interface supporting high speed data, VoIP, and multimedia services
! Modular architecture with flexible deployment architectures
! 4 Mbps (3.2 Mbps net) per sectorup to 24 sectors per base station
! Compact, integrated design allowing easy and quick deployment
! Advanced Quality of Service (QoS)
! Simultaneous support of IP routing and PPPoE bridging
! Supports transparent bridging, allowing easy IP addressing schemes
! Bandwidth management: CIR and MIR
! Supports 802.1Q/p for VLANs/VPNs and end-to-end QoS
! Provides automatic connection to base stations of first-time powered-on and unconfigured subscriber devices
! Allows redirection of subscriber devices to different base station radios
! Supports configuration files, allowing the same configuration settings to be applied to multiple WipLL devices
! Supports local and remote SNMP-based management, providing an intuitive GUI for easy management 1-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction 1.2. Customer Benefits The WipLL system provides the following customer benefits and advantages over competitors:
! No IF or RF cables required for indoor unit-to-outdoor unit (IDU-to-ODU) connectivity, providing a more cost-effective and easier installation. Instead of IF/RF cables, WipLL implements standard CAT-5 Ethernet cables.
! Scalability and modular base station architecture allows customers to add equipment when needed, thereby allowing low initial cost entry and pay-as-you-
grow strategy. Unlike competitors, the WipLL base station is not a chassis-based design, providing flexibility and saving space at the base station.
! WipLLs open architecture allows interoperability with multi-vendor products such as residential gateways (RGW), access gateways, gatekeepers, and softswitches, thereby, operating seamlessly in multi-vendor environments.
! WipLLs proprietary PPMA air MAC protocol is highly efficient80%
throughputallowing multiple concurrent subscribers to utilize bandwidth without network degradation (from collisions and high BER).
! Long-distance radio coverage.
! WipLL is both an IP router and a PPPoE bridge.
! Supports transparent bridging for easy implementation of IP addressing schemes
! WipLLs IP routing provides efficiency and eliminates the need for additional hardware.
! Enhanced QoSbased on IP addresses, protocols, and applications.
! End-to-end QoSbased on DiffServ/TOS or 802.1p.
! Fast-and-easy installation and configuration using WipLL Auto Connect.
! Embedded security features such as IP (packet) filters based on addresses, protocols, and applications.
! Rich networking packages such as 802.1Q/p VLANs/VPNs. 02030311-05 Airspan Networks Ltd. 1-3 Introduction Hardware Installation Guide 1.3. System Architecture The WipLL system architecture is composed of the following three basic areas (see Figure 1-1):
! Base station site: consists of WipLL access units that interface between the providers backbone and the WipLL system.
! Subscriber site: consists of WipLL customer premises equipment (CPE) that interfaces between the base station and the subscribers network.
! Network operations center (NOC): consists of the WipLL SNMP-based management system that manages the entire WipLL system. Subscriber Site Subscriber Site Base Station Site Non IP Systems Subscriber Site Subscriber Site Subscriber Site Base Station Site Base Station Site Network Network Operating Centre Subscriber Site Base Station Site Subscriber Site Figure 1-1: WipLL System Architecture Non WiPLL Users 1-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction 1.3.1. Base Station The WipLL base station provides a radio link between the subscriber and the service providers backbone to provide high-speed data access, Internet access, and VoIP. The WipLL base station equipment consists of a radio transceiver that transmits and receives signals to and from the subscriber, and of various optional routers and switches that connect the WipLL transceiver to the service providers backbone, through a 100BaseT Ethernet connection. The WipLL base station is comprised of the following units (see Figure 1-3):
! Base Station Radio (BSR):
The BSR is a radio transceiver that provides the wireless link between the subscriber and the providers backbone. The standard BSR has 60-degree radio coverage, serving up to 126 subscribers in that sector. The BSR is installed outside the base station site, typically mounted on a pole.
! Point-to-Point Radio (PPR):
The PPR device is similar to the BSR, but implemented in a point-to-point radio configuration providing wireless communication with a single remote WipLL radio unit (i.e., Subscriber Premises Radio). Figure 1-2: PPR in a building-to-building application 02030311-05 Airspan Networks Ltd. 1-5 Introduction Hardware Installation Guide
! Subscriber Data Adapter (SDA):
The SDA is implemented at base stations comprised of a single BSR. The SDA provides the BSR with -48 VDC power supply and Ethernet connectivity to the providers backbone. The SDA is installed inside, connected to the BSR with a CAT-5 cable. For a description of the various SDA models, see Section 1.3.2,
Subscriber Site.
! Base Station Distribution Unit (BSDU):
The BSDU is implemented at base stations comprising multiple BSRs. The BSDU provides BSRs with 48 VDC power supply, connectivity to the providers backbone, and frequency hop synchronization. The BSDU is installed inside, connected to BSRs with CAT-5 cables. Each BSDU can support up to six BSRs, and up to four BSDUs can be daisy-
chained to support a maximum of 24 BSRs. Therefore, a base station at maximum configuration can serve up to 3,024 subscribers.
! Base Station Power Supply (BSPS):
The BSPS is an optional WipLL unit that provides AC-to-DC power conversion and power redundancy to BSDUs.
! Global Positioning System (GPS) antenna:
The GPS antenna is a rugged, self-contained GPS receiver and antenna that receives a universal GPS satellite clock signal. The GPS connects to the BSDU and synchronizes frequency hopping of multiple base stations to allow the WipLL network to operate with the same clock, and eliminating radio frequency ghosting effects. 1-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction Figure 1-3 shows the WipLL base station devices and their interconnections. BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSR BSRBSRBSRBSR BSRBSRBSRBSR BSRBSRBSRBSR BSSSSR BSRBSRBSRBSR BSRBSRBSRBSR BSRBSRBSRBSR BSRBSRBSRBSR BSSSSR BSRBSRBSRBSR BSR BSR BSRBSRBSRBSR BSRBSRBSRBSR GPSGPSGPSGPS GPSGPSGPSGPS 100100100100BBBBaseTaseTaseTaseT 100100100100BBBBaseTaseTaseTaseT
----48484848 VDCVDCVDCVDC
----48484848 VDCVDCVDCVDC BSPS BSPS BSPS BSPS BSPSBSPS BSPSBSPS BSDU BSDU BSDU BSDU BSDU BSDU BSDUBSDUBSDUBSDU BSDUBSDUBSDUBSDU Interface unit Interface unit Interface unit Interface unit Interface unit Interface unit Interface unit Interface unit
((((eeee....gggg. router, switch
((((eeee....gggg. router, switch router, switch)))) router, switch)))) router, switch router, switch router, switch router, switch Backbone Backbone Backbone Backbone Backbone Backbone Backbone Backbone
((((IP, ATM,FR, MPLS IP, ATM,FR, MPLS))))
((((IP, ATM,FR, MPLS IP, ATM,FR, MPLS)))) IP, ATM,FR, MPLS IP, ATM,FR, MPLS IP, ATM,FR, MPLS IP, ATM,FR, MPLS Figure 1-3: WipLL base station units (maximum configuration) 02030311-05 Airspan Networks Ltd. 1-7 Introduction Hardware Installation Guide 1.3.2. Subscriber Site The WipLL subscriber site is located at the service providers subscribers premises. The WipLL subscriber site equipment consists of a radio transceiver that receives and transmits signals from and to the base station. The WipLL radio transceiver provides the subscriber with high-speed data access, Internet access, and VoIP at up to 4 Mbps. The WipLL transceiver connects to the subscribers network or PC via WipLLs Ethernet hub (i.e., Subscriber Data Adapter). The WipLL system can group subscribers into VLANs, as well as assign MIR and CIR levels to each subscriber, guaranteeing bandwidth to subscribers. The WipLL system provides two different CPE installation configurations:
! Indoor unit (IDU) and outdoor unit (ODU): this setup is composed of WipLLs SDA and SPR devices, representing the IDU and ODU, respectively.
! Indoor unit (IDU) only: this setup is composed of the Indoor Data Radio (IDR) 1-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction WipLLs subscriber site equipment is comprised of the following:
! Subscriber Premises Radio (SPR):
The SPR is a radio transceiver that provides a wireless link between the base station and the subscribers network. The SPR is installed outside the subscribers premises, typically on a roof.
! Subscriber Data Adapter (SDA):
The SDA is a hub/switch that provides the SPR with -48 VDC power supply and Ethernet connectivity to the subscribers network/PC. The SDA is installed inside the subscribers premises and is connected to the SPR by a CAT-5 cable. The SDA models include the following:
! SDA-1: provides one 10BaseT connection to the subscribers computer and/or network.
! SDA-4H: provides a hub and four 10BaseT interfaces to the subscribers computers and/or networks. The hub interface is a crossed Ethernet cable that can connect to another hub or LAN switch. Alternatively, it may be connected to another PC via a crossed Ethernet cable.
! SDA-4S models: integrated LAN switches, providing four Auto Negotiation 10/100BaseT (Full or Half Duplex mode) ports for interfacing with the subscribers PCs/network) These models include the following:
SDA-4S (standard): Standard integrated LAN switch, providing four 10/100BaseT interfaces to the subscribers computers. This model is ideal for SOHO implementation. SDA-4S/VL: Provides VLANs between its ports and the SPR, ensuring privacy between users of different ports. For example, all users connected to Port 1 do not see users connected to Port 2. This model is ideal for multi-tenant implementation. 02030311-05 Airspan Networks Ltd. 1-9 Introduction Hardware Installation Guide SDA-4S/VLtag: This model is ideal for multi-tenant applications where traffic engineering and privacy is required. SDA-4S/VLtag assigns the traffic from each of its four ports with a different VLAN ID. The VLAN IDs are fixed (since SDA-4S/VLtag is not user configurable). SPR converts the four VLAN IDs tagged by SDA-4S/VLtag to four VLAN IDs configured via WipLLs NMS. The tag conversion is performed by SPR before sending the traffic to the air and the other way around when coming from the air. SDA-4S/1H3L: Provides a high priority port (left-most port) for VoIP traffic. SDA-4S/VL/1H3L: Combines the functionality of the SDA-4S/VL and SDA-4S/1H3L models (VLAN for each port and a high priority port for VoIP).
! Indoor Radio Adapter (IDR):
The IDR functions as a transceiver and a hub, eliminating the need for an SPR and SDA. The IDR is installed inside the subscribers premises, typically mounted on a wall, desktop, or pole. The IDR is connected to a third-party antenna, which is typically mounted outside to provide line-of-site with the base station.
! Residential Gateway (RGW)optional unit:
The RGW is a third-party unit that provides gateway support for VoIP. The RGW is typically connected to the SDA through a 10BaseT port. Typically, the RGW provides two POTS ports for telephony; a LAN port for the local PC/network; and a LAN port for connectivity to the SDA. 1-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction Figure 1-4 and Figure 1-5 display the WipLL customer premises equipment and their interconnections. Figure 1-4: Subscriber site with SPR and SDA units (optional RGW unit) Figure 1-5: Subscriber site with IDR and third-party external antenna (optional RGW) 02030311-05 Airspan Networks Ltd. 1-11 Introduction Hardware Installation Guide 1.3.3. Network Operations Center Airspans WipLL system provides state-of-the-art, use-friendly management tools for managing the WipLL system. These management tools provide fault, configuration, performance, and security management of the WipLL system. The WipLL system provides the following management tools:
! WipManage:
WipManage is the WipLL network (element) management system (NMS) providing fault, configuration, performance, and security management. WipManage is a Windows-based, stand-alone WipLL application that provides a user-friendly and intuitive Graphic User Interface (GUI). WipManage provides local and remote network management that is based on Simple Network Management Protocol
(SNMP). WipManage provides configuration, fault and alarms, security, and bandwidth management to all the WipLL unitsWipLL base station equipment and WipLL CPE.
! WipConfig:
WipConfig is an easy-to-use, Windows-based application that provides local initial configuration for WipLL devices during installation. This initial configuration includes, for example, assigning the units IP addresses and positioning the antenna (or transceiver) for optimal reception.
! WipConfig PDA:
WipConfigPDA is designed to run on personal digital assistants (PDA), and provides an alternative tool to WipConfig (described above) for providing initial configuration.
! WipAD:
WipAD is a Windows-based application that provides quick-and-easy automatic downloading of software versions to multiple WipLL devices. 1-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction 1.4. Applications The following subsections provide examples of typical WipLL applications. 1.4.1. Broadband Data Access Using a standard PSTN modem in circuit-switched networks, subscribers are limited to 56 Kbps of throughput, and in most cases, to 28.8 Kbps. From the operators perspective, once a subscriber has dialed up with a PSTN modem, a full channel is occupied for as long as the session lasts. WipLL subscribers are limited only by their own configuration, with a maximum of 4 Mbps70 times faster than the fastest PSTN modem. However, subscribers do not necessarily consume more bandwidth from the operator, since bandwidth is used only when a data packet is transmitted. These characteristics of WipLL make it suitable for providing data access to subscribers while maintaining best usage of bandwidth and capacity. 02030311-05 Airspan Networks Ltd. 1-13 Introduction Hardware Installation Guide 1.4.2. High Speed Internet Access One of the advantages of WipLL is the fact that subscribers are "always on" Internet. This means that there is no dialing process and no need for the hassle involved with dialup access. Subscribers need only to open their Web browser or e-mail to be instantly connected. WipLL can also distinguish between applications and subscribers, thus, enabling the operator to provide different class of service to subscribers. For example, it can provide different services to Web browsing and e-mail by prioritizing Web browsing for ensuring best "Internet experience". Figure 1-6 shows a typical WipLL application for high-speed Internet access. Figure 1-6: Typical WipLL Application for High-Speed Internet Access 1-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction 1.4.3. Voice over IP The WipLL system enables customers the flexibility of migration from a data-only network to an integrated Voice-over-IP and data network. The WipLL voice solution provides interoperability with any IP-to-PSTN network gateway. The use of the IP-
to-PSTN gateway allows operators seamless PSTN connectivity such as SS7
(signaling network), G3-303, and V5.2 over E1, allowing deployment in multi-
national markets. Figure 1-7 shows a typical WipLL application for VoIP. Figure 1-7: Typical WipLL Application for VoIP 02030311-05 Airspan Networks Ltd. 1-15 Introduction Hardware Installation Guide 1.4.4. Traffic Engineering in Multi-Tenant Application Airspans WipLL system provides high-speed wireless broadband (e.g., Internet) access for multiple-tenant units (MTU). WipLL provides a dedicated high-speed connection to the building, and then distributes that bandwidth among the tenants, providing them with a private, secure connection. The WipLL system provides traffic engineering in MTU applications in networks that connect to MPLS, ATM, or Frame Relay backbones. The WipLL hardware responsible for providing MTU solutions is the SDA-4S/VLtag Ethernet switch. SDA-4S/VLtag assigns a different VLAN ID (fixed) to traffic from each of its four ports. WipLLs SPR converts these four VLAN IDs, tagged by SDA-4S/VLtag, to four VLAN IDs configured by WipLLs NMS (WipManage). SPR performs this tag conversion before sending traffic to the air, and when receiving traffic from the air. This VLAN conversion is applicable only when SPR is used as a transparent bridge. Figure 1-8 shows an example of how MTU works in an ATM environment. 1-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction Figure 1-8: Multi-tenant solution (i.e., multiple VLANs) in an ATM environment 02030311-05 Airspan Networks Ltd. 1-17 Introduction Hardware Installation Guide 1.4.5. Repeater Solution WipLL units can be used to provide repeater functionality. This is implemented in where the BSR needs to be extended to remote subscriber sites that are blocked by obstacles (such as trees, hills, and other typical line-of-sight obstructions) or that the BSR-SPR (or BSR-IDR) transmission is out-of-range. Back-to-back Ethernet connectivity of a BSR with an SPR/IDR provides the repeater capability, as demonstrated in Figure 1-9. Figure 1-9: WipLL Repeater Solution 1-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Introduction In Figure 1-9, BSR A is part of a WipLL base station that is connected to the service providers backbone. BSR A serves multiple SPRs, marked as SPR Ai. Two SPRs SPR B1 and SPR B2cannot communicate directly with the base station. Therefore, an SPR acts as a repeater by connecting back-to-back with BSR B (SPR B1 and B2 are served by BSR B). Notes:
- Careful planning is required to cope with issues such as interferences and delay that are introduced by the repeater solution. For example, if the system is used as a frequency hopping system, GPS may be required at each base station.
- Space and frequency isolation between the repeater SPR and BSR B is required.
- Bandwidth management should be calculated to support the repeater bandwidth.
- IP addressing and routing tables should be configured to support the repeater solution. 02030311-05 Airspan Networks Ltd. 1-19 2 Safety Guidelines Safety Guidelines Safety Guidelines Safety Guidelines This chapter outlines general safety guidelines when installing the WipLL system. This chapter includes the following sections:
! General Safety Guidelines
! Electrical Safety Guidelines
! Handling Electrostatic Devices
! Grounding
! Lightening Protection
! Installing Outdoor Units and Third-Party External Antennas
! Radio Interference Prevention
! Cabling
! General
! Labeling 02030311-05 Airspan Networks Ltd. 2-1 Safety Guidelines Hardware Installation Guide 2.1. General Safety Guidelines The following lists general safety guidelines when working with the WipLL equipment:
! The user and the installer should be aware that changes and modifications not expressly approved by Airspan Networks could void the users authority to operate the equipment.
! Never install equipment that is damaged.
! Only qualified personnel should be allowed to install, replace, and service the WipLL equipment. 2.2. Electrical Safety Guidelines The following lists electrical safety guidelines when working with the WipLL equipment:
! Disconnect all power when installing
! Never install the equipment during stormy weather and lightening 2-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Safety Guidelines 2.2.1. Handling Electrostatic Devices Electrostatic devices are those devices that may be damaged by the inadvertent discharge of static electricity from a charged body. The risk of damage, due to electrostatic discharge (ESD) to a device, may cause the device to fail suddenly, or it may induce a partial defect within the device, which will cause subsequent premature failure. Static electricity can result from operators walking on floors, moving around on chairs, from the movement of operators clothing or even casual brushing against racks, benches or walls. Airspan recommends the following guidelines to be adopted to minimize the risk of component failure due to electrostatic discharge to the device:
! WipLL devices are provided typically in see-through anti-static bags. Wherever possible, checking and inspection of a unit should occur without removing it from the bag.
! All operators shall wear the approved conductive overall.
! Where operators come into direct contact with any piece of electronic hardware, operators must wear an ESD-preventive wrist strap. All straps and cords should be tested using a Wrist Strap Tester prior to use. The wrist strap cords shall have a 2 Meg Ohm resistor fitted at either end. Wrist straps should be worn in direct contact with bare skin and not over clothing. Warning: Under no circumstances is it permissible for units to be handled by unprotected operators. 02030311-05 Airspan Networks Ltd. 2-3 Safety Guidelines Hardware Installation Guide Site Base Station 2.2.2. Grounding Only certain WipLL devices require additional grounding. WipLL devices that do not require additional grounding have grounding at the main supply outlet. The following table lists the WipLL devices grounding requirements. Grounding Through the mains (via BSDU) Additional grounding required (grounding lug at rear end of chassis) Additional grounding required (grounding lug at rear end of chassis) Through the mains (via SDA) Through the mains WipLL device BSR BSDU SPR IDR BSPS CPE 2.3. Lightening Protection WipLL devices comply to the Surge Immunity standard: EN 61000-4-5. WipLL devices are protected from lightening surges as the outdoor devices (BSRs and SPRs) are encased in a plastic chassis. Therefore, if lightening strikes the device, an electrical circuit cannot be completed, and hence, no electrical surge can occur. In addition, WipLL outdoor and indoor (SDA) devices provide high speed data line protection against direct and induced transient over-voltages surges on the cables. This capability is provided by the fact that all WipLL device are designed with TVS
(transient voltage suppressor) components that maintain potential differences. However, for geographical areas that have above normal lightening activity, Airspan can supply a surge protector composed of a 15-pin D-type adapter with a grounding wire. 2-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Safety Guidelines 2.4. Installing Outdoor Units and Third-Party External Antennas Warning: It is the responsibility of the person installing the WipLL system to ensure that when using the outdoor antenna kits in the United States (or where FCC rules apply), that only those antennas certified with the product are used. The use of any antenna other than those certified with the product is expressly forbidden in accordance with FCC rules CFR47 part 15.204. The installer should configure the output power level of antennas according to country regulations and per antenna type. Warning: Outdoor WipLL units and antennas should be installed ONLY by experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities. Failure to do so may void Airspans WipLL product warranty and may expose the end user or the service provider to legal and financial liabilities. Airspan and its resellers or distributors are not liable for injury, damage or violation of regulations associated with the installation of outdoor units or antennas. 2.5. Radio Interference Prevention The digital portion of the transceiver has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment on and off, the user is encouraged to try correct the interference by performing one or more of the following measures:
! Reorientate or relocate the receiving antenna
! Increase separation between the equipment and receiver 02030311-05 Airspan Networks Ltd. 2-5 Safety Guidelines Hardware Installation Guide
! Connect the equipment to an outlet on a circuit different from that to which the receiver is connected
! Consult the dealer or an experienced radio/TV technician for help Warning: The WipLL transceivers emit microwave radiation; a minimum distance of 200 mm must be maintained from the front of the device, and a minimum separation of 1 meter must exists between adjacently installed WipLL transceivers. 2.6. Cabling This section defines the cabling procedures to be adopted during WipLL equipment installations at both base station and subscriber premises. 2.6.1. General A summary of issues to be considered during cabling of WipLL base station and customer premises equipment is as follows:
! Cable routes are to be defined in the site-specific documentation.
! Data and DC power cables running parallel to AC power cables shall be separated by a minimum distance of 200 mm. However, it is permissible to allow these cables to cross each other at right angles.
! Observe recommended minimum bend radii when installing copper cables. Wherever a cable changes direction, ensure that it does so in a smooth curve with a radius of at least 50 mm to prevent damage.
! Plastic ties and wraps are to be used to secure cables to trays and guides. Ensure all trimmed ends are disposed of safely and at regular intervals.
! Data cables of less than 20 pair shall be mixed in bundles not exceeding 50 mm in diameter.
! Ensure cables are not trapped in cabinet doors, by slide-in equipment or support metalwork. 2-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Safety Guidelines
! Excessive stress on cable terminations caused by taught cables should be avoided. Connector strain relief, if not built into the connector used, shall be provided by means of a strategically located cable tie.
! A maintenance loop or a generous amount of cable slack shall be provided to allow for equipment removal without disturbance to adjacent cables.
! Cables run in guides or on trays shall be kept as flat as possible and secured at regular intervals using cable ties. Note: Prior to the commencement of any installation, commissioning work at
live sites it is the responsibility of the Airspan engineer to advise the customers representative before any activity commences. If in doubt assume equipment is live. Warning: Disturbance of cables on an In-Service exchange can cause loss of service. Extreme care must be taken when installing cables at any customer or subscriber premises. 2.6.2. Labeling The following labels are required to be fitted to WipLL equipment:
! Voltage Warning
! High Earth Leakage Current
! Signal Cable Designation 2.6.2.1. Voltage Warning
! Where mains power is fed from separate phases, then appropriate warning labels must be fitted to warn of the increased danger.
! The AC equipment used in the BSPS cabinet must carry a relevant voltage warning label specific to the country in which it is being installed. The label will be fitted to the cabinet doors displaying an electrical hazard symbol, the local operating voltage and the letters AC. 02030311-05 Airspan Networks Ltd. 2-7 Safety Guidelines Hardware Installation Guide
! A power feed identification label (e.g. PWR A) shall be applied in the following locations:
! On the rear of the main power rack adjacent to the terminal block
! Attached to BSPS AC mains power plug or lead
! Attached to the customer mains power socket or distribution rail
! On the BSPS power circuit connection at the fuse board Warning: Voltages over 30 Volts AC and 50 Volts DC are categorized as hazardous. Hazard warning labels should be fitted where required. Certain countries require equipment warning and instruction labels to appear in the local local requirements regarding labels are given consideration. installing WipLL equipment ensure language. When that 2.6.2.2. High Earth Leakage Current If equipment earth leakage current exceeds 3.5 mA, a warning label as shown in Figure 2-1 will be fitted to the rear of the main power rack alongside the AC inlet terminal block. WARNING HIGH LEAKAGE CURRENT Earth connection essential Before connecting supply Figure 2-1: Warning label if earth leakage current exceeds 3.5 mA 2-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Safety Guidelines 2.6.2.3. Signal Cable Designation A wrap around identification label, similar to that shown in Figure 2-2, is to be fitted to both ends of WipLL data cables. Care should be taken to ensure that the cable identification information is clearly visible. The labels are to be supplied with the installers folder. Identify the cable as detailed in the CROL supplied by Contract Engineering. Fit the label 100 mm from the cable end. Wrap the label ensuring good adhesion to cable and itself. From BDSU 1/1 To SPR 1 To SPR 1 From BDSU 1/1 BSDU End SPR End Figure 2-2: Typical signal cable identification label 02030311-05 Airspan Networks Ltd. 2-9
1 | Install Guide Part 3 | Users Manual | 2.96 MiB |
Installing the BSPS Hardware Installation Guide Symptom between any two modules). Battery backup time is too low Possible Cause Rectifier(s) are not properly adjusted. Battery is too small for the application. Charging voltage is too low Weak battery Remedy Re-adjust the voltage of the problematic rectifier(s). Increase battery capacity Raise the system output voltage using the VOLT ADJ. Replace the battery and check ambient temperature according to manufacturers instructions 7-28 Airspan Networks Ltd. 02030311-05 Part II Part II Part II Part II Installing WipLL Customer Installing WipLL Customer Installing WipLL Customer Installing WipLL Customer Premises Equipment Premises Equipment Premises Equipment Premises Equipment Part II describes the procedures for installing the WipLL equipment located at the subscribers premises. Part II includes the following chapters:
! Chapter 8, Installing the SPR
! Chapter 9, Installing the SDA
! Chapter 10, Installing the IDR This page is intentionally left blank. 8 Installing the SPR Installing the SPR Installing the SPR Installing the SPR This chapter describes the installation of the WipLL Subscriber Premises Radio
(SPR) at the subscribers premises. This chapter includes the following chapters:
! Overview
! Physical Dimensions and Basic Design
! Cable Guidelines
! Mounting the SPR
! Minimum Distance between SPRs
! Wall Mounting
! Pole Mounting
! Connecting an External Third-Party Antenna (Optional)
! Connecting to the SDA
! Connecting to a PC for Serial Configuration
! Connecting the RSS LED Adapter
! Connecting Power 02030311-05 Airspan Networks Ltd. 8-1 Installing the SPR Hardware Installation Guide 8.1. Overview The SPR receives and transmits data from and to the base station. The SPR connects to the subscribers network through the SDA. The SDA is an Ethernet hub/LAN switch (depending on SDA model) that provides the SPR with DC power, lightening protection, and Ethernet (10Base-T and/or 100Base-T )connectivity to the subscribers PCs/network (up to four PCs depending on SDA model). The SPR connects to the SDA by a CAT-5 cable. The SPR is typically mounted on the subscribers roof or external wall; the SDA is installed inside the subscribers premises. The SPR is available in the following models:
! SPR with Standard Gain: includes a built-in antenna 15-dBi antenna gain, covering an area of 23 degrees
! SPR with High-Gain Antenna: includes a built-in antenna with an 18-dBi antenna gain, covering 15 degrees.
! SPR with External Antenna: includes an N-type connector port for attaching a third-party external antenna. Figure 8-1 displays a typical setup of the SPR and SDA at the subscribers premises. Note: The SDA can also be installed at a base station that has only one BSR. This SDA replaces the need for the BSDU, and provides power and connectivity to the single BSR. 8-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR RF link Subscriber Premises Radio (SPR) located on the roof CAT-5e PC Subscriber Data Adapter (SDA) located inside Figure 8-1: Typical SPR and SDA location and connections at subscribers premises Warning: As the system emits microwave radiation, a minimum distance of 200 mm must be maintained from the front of the SPR. To avoid electrical or fire hazard, connect the SPR to the power supply only after mounting the SPR and connecting data cables between the SPA and SDA units. Note: Usually, the SPR is initialized (i.e., configured with an IP address) at Airspans factory. However, if the SPR has not been configured, see Section 8.7, Connecting to a PC for Serial Configuration, before mounting the SPR. 02030311-05 Airspan Networks Ltd. 8-3 Installing the SPR Hardware Installation Guide Note: The digital portion of the transceiver has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment on and off, the user is encouraged to try correct the interference by performing one or more of the following measures:
- Reorientate or relocate the receiving antenna
- Increase separation between the equipment and receiver
- Connect the equipment to an outlet on a circuit different from that to which the receiver is connected
- Consult the dealer or an experienced radio/TV technician for help 8-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.2. Physical Dimensions and Basic Design The SPR is encased in a chassis and provides access to the SPRs communication port at the front panel. The SPRs bottom panel provides holes for mounting the SPR to, for example, a pole or wall (see Figure 8-3). 15-pin D-type port Figure 8-2: SPR (with built-in antennal) The SPRs physical dimensions are described in Table 8-1 Table 8-1: SPR physical dimensions Parameter SPR model Height Width Depth Weight Standard Gain Antenna 311 mm (12.24 inches) 224 mm (8.82 inches) 65.5 mm (2.58 inches) 2.5 kg High Gain Antenna 400 mm (15.74 inches) 317 mm (12.48 inches) 65.5 mm (2.58 inches) 4.7 kg Notes:
1) The SPRs physical dimensions exclude the mounting kit. 2) An SPR model with an N-type receptacle for attaching a third-party external antenna is also available (see Section 8.5, Connecting a Third-Party External Antenna (Optional). 02030311-05 Airspan Networks Ltd. 8-5 Installing the SPR Hardware Installation Guide 8.3. Cable Guidelines The following lists cable installation guidelines at the subscribers premises:
! To prevent tripping, a wiring duct is to be provided at the subscribers premises to house data cables. Wiring channel type, location, and methods of securing are to be discussed with the subscriber.
! Cables not housed in wiring channel must be dressed in a manner to avoid a trip hazard. Avoid trailing wires across passageways.
! External data cables are to be protected in metal conduit that is to be secured to the building structure in accordance with manufacturers recommendations.
! Outside wiring channels must not be located as to cause a trip hazard (e.g. roof walkways)
! Observe recommended minimum bend radii when installing copper cables. Wherever a cable changes direction, ensure that it does so in a smooth curve with a radius of at least 50 mm in order to prevent damage.
! A maintenance loop is to be left in the cable just before the cable reaches the SPR to prevent strain on the connector.
! Data cables threaded into holes drilled in walls are to be covered by a waterproof sheath to prevent water penetration.
! Silicone sealant should be used to plug any holes on both internal and external wall surfaces once cables are in place.
! All data cables should be labeled with both the source and destination at each end. Un-used cable ends must also be identified with labels to assist with future upgrades. Warning: Cables with exposed ends (i.e., not yet crimped) should be covered with protective polythene bags during external cable installation processes. Note: A minimum separation of 200 mm should exist between power and data cables. 8-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.4. Mounting the SPR The SPR can be mounted on a wall or pole. The SPR is mounted using the mounting holes located on the SPRs bottom panel (see Figure 8-3), and the mounting bracket
(provided). The mounting brackets for wall- and pole-mounting are different from one another. Mounting holes Figure 8-3: SPR bottom panel providing holes for mounting 02030311-05 Airspan Networks Ltd. 8-7 Installing the SPR Hardware Installation Guide 8.4.1. Minimum Distance between SPRs A minimum of 3-meter separation is required between mounted SPRs and existing customer radio equipment when not transmitting on the same sector (see Figure 8-4). 3.0 metres Figure 8-4: SPR separation when not transmitting on the same sector A 1-meter separation is required between SPRs when on the same sector and transmitting to the same BSR without requiring shielding (see Figure 8-5). Figure 8-5: SPR separation when transmitting on the same sector to the same BSR 1.0 metre 8-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.4.2. Wall-Mounting SPR wall mounting is performed in two chronological stages:
! Attaching the mounting bracket to the SPRs mounting holes.
! Attaching the mounting bracket (attached to the SPR) to the wall. To mount the SPR on a wall:
1. Attach the mounting bracket to the SPR using two stainless steel bolts, as shown in Figure 8-6. BSR 15-pin D-type connector BSR Fixing Bolts BSR Mounting Bracket Jubilee clip slots Figure 8-6: Attaching the mounting bracket to the SPR 2. Attach the mounting bracket to the wall using four screws. The fixing dimensions for the mounting bracket is illustrated in Figure 8-7. 02030311-05 Airspan Networks Ltd. 8-9 Installing the SPR Hardware Installation Guide 8mm 58mm 99mm
. Figure 8-7: SPR mounting bracket dimensions for the four fixing holes Note: Airspan does not provide screws for attaching the mounting bracket to the wall. The screw size depends on the structure of the building to which the bracket is to be attached. When selecting screw sizes, consideration must be given to the weight of the SPR and load that may be induced in windy conditions. 8-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 3. Adjust the horizontal positioning of the SPR, and then fasten tight the two stainless-steel bolts. Rotation is restricted to the horizontal plane only. The permissible rotation is shown in Figure 8-8. Figure 8-8: Horizontal rotation of the SPR Note: A thread-locking compound is to be used to prevent the bolts working loose. 02030311-05 Airspan Networks Ltd. 8-11 Installing the SPR Hardware Installation Guide 8.4.3. Pole-Mounting The SPR can be mounted on a pole (see Figure 8-9). Pole mounting allows the SPR to be adjusted in the horizontal as well as the vertical plane. The pole-mounting bracket assembly is designed to support the SPR on a round pole of 45 mm in diameter. Figure 8-9: Mounted SPR 8-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR To mount the SPR on a pole:
1. Attach the mounting bracket to the SPR using two stainless steel bolts. Locking Holes BSR mounting Bracket Pivot Hole Clamping Bracket
U Bolt Figure 8-10: SPR mounting bracket assembly 2. Attach the clamping bracket to the mounting bracket using two M8 stainless bolts. 3. Attach the Clamping bracket to the pole by placing the U-bolt around the pole, and then inserting the U-bolt through the Clamping bracket and securing it by screwing the two bolts on the U-bolt. 02030311-05 Airspan Networks Ltd. 8-13 Installing the SPR Hardware Installation Guide 4. Adjust the vertical position of the SPR. Lock the SPR at the desired position by inserting the locking bolt in the desired position. Once the correct angle has been set both bolts must be tightened to lock the SPR bracket in place. 5. Adjust the horizontal position of the SPR by rotating the SPR about the pole, and then tighten the U-bolt. SPR positioning is obtained in two planes by adjustment of the mounting bracket assembly a shown in Figure 8-11. Rotation about the mounting bracket Rotation about the mounting pole Figure 8-11: SPR GPS orientation in vertical (top figure) and horizontal plane (lower figure) Note: A thread-locking compound is to be used to prevent the bolts working loose. A loop should be left in the cable for maintenance purposes and to prevent the cable weight being taken directly on the connector. 8-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.5. Connecting a Third-Party External Antenna
(Optional) The SPR model with an N-type connector can be connected to an external antenna. The addition of an external antenna allows greater RF sector coverage than the standard SPR internal antenna models (i.e., 60).
! Connector: N-type male Figure 8-12: Example of an N-type connector
! Cable: RF coaxial Warnings:
1) Before connecting the external antenna, ensure that the SPR is NOT connected to the power source. 2) Before powering on the SPR, ensure that some type of equiment such as an antenna or an RF attenuator is connected to the N-type receptacle. This eliminates the risk of burning the SPR device. 3) It is the responsibility of the person installing the WipLL system to ensure that when using the outdoor antenna kits in the United States (or where FCC rules apply), that only those antennas certified with the product are used. The use of any antenna other than those certified with the product is expressly forbidden in accordance with FCC rules CFR47 part 15.204. The installer should configure the output power level of antennas according to country regulations and per antenna type 02030311-05 Airspan Networks Ltd. 8-15 Installing the SPR Hardware Installation Guide To connect the SPR to an external antenna:
! Attach an N-type male connector of the third-party antenna to the N-type receptacle located on the SPRs front panel. Figure 8-13: SPR model with N-type connector for attaching an external antenna Note: Airspan supplies unterminated cables for N-type connectors. Refer to Appendix B, Cable Crimping" for N-type cable crimping. 8-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.6. Connecting to the SDA The SPR connects to the subscribers PCs/network through the SDA. To connect the SPR to the SDA, you need to connect the SPRs 15-Pin D-type port to the SDAs 15-pin D-type port by a CAT-5e cable. The SPR-to-SDA cable connection configurations is as follows:
! Connectors:
! SPR: 15-pin D-type male (only 8 pins are used)
! SDA: 15-pin D-type male (only 8 pins are used) Note: Airspan supplies unterminated CAT-5e cables. Refer to the cable crimping procedures for 15-Pin D-type connectors detailed in Appendix B,
Cable Crimping".
! Cable: straight-through 10Base-T Ethernet UTP 4 Pair CAT-5e outdoor type
(24 AWG)
! Connector pinouts:
Table 8-2: SPR-to-SDA CAT 5 cable connector pinouts 15-pin D-type male SPR Function Pin Wire color Wire pair Pin SDA Function 1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Tx+
Tx-
Rx+
Rx-
Sync.+
Sync.-
Blue / white Blue Orange / white Orange Green / white Green Brown / white Brown 1 2 3 4 1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Rx+
Rx-
Tx+
Tx-
Sync.+
Sync.-
02030311-05 Airspan Networks Ltd. 8-17 Installing the SPR Hardware Installation Guide Notes:
- Pins 9 through 15 of the 15-pin D-type connector are not used.
- The wire color-coding described in the table is WipLLs standard for wire color-coding. However, if you implement your companys wire color-coding scheme, ensure that the wires are paired and twisted according to the pin functions listed in Table 8-2 (e.g., Rx+ with Rx-). WipLL uses the following wire color-coding standards for CAT 5 cables with 15-pin D-type to 15-pin D-type connectors on either ends (8 wires used):
Figure 8-14: WipLL wire color-coding for 15-pin D-type connectors 8-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR Notes:
1) The wires are twisted together in pairs, for example, blue/white with blue, and orange/white with orange. This prevents electrical interference between the transmitter pins. For example, pin 3 (Tx+; orange / white) is paired and twisted with pin 4 (Tx-; orange). 2) The SDA connector pinouts are the same for all SDA models (SDA-1, SDA-
4H, SDA-4S, SDA-4S/VL, SDA-4S/Vltag, SDA-4S/1H3L, and SDA-
4S/VL/1H3L). Warning: To avoid electrical shock, before connecting the SPR to the SDA, ensure that the SDA is not connected to the power supply. To connect the SPR to the SDA:
1. Attach the 15-pin D-type connector, at one end of the cable, to the SPRs 15-pin D-type port labeled DATA POWER SYNC, as displayed in Figure 8-15. 2. Attach the 15-pin D-type connector, at the other end of the cable, to the SDAs 15-pin D-type port, as displayed in Figure 8-15. 02030311-05 Airspan Networks Ltd. 8-19 Installing the SPR Hardware Installation Guide Figure 8-15: SPR-to-SDA cable connections Note: The maximum cable length permissible between the SPR and SDA is 100 meters. 8-20 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.7. Connecting to a PC for Serial Configuration To configure an SPR, you need to connect a PC running the WipLL network management system (WipConfig) to the SPR. The SPRs 15-pin D-type port provides serial interface to a PC for SPR initial configuration. This port uses 9 of its 15 pins for serial interface; the remaining pins are used for interfacing with the SDA with which the SPR remains connected. To connect the SPR to the management station (i.e., PC) and the SDA, a Y-cable (splitter) is used. Note: SPR configuration is performed while the SDA is connected to the SPR. The SPR-to-PC and SDA cable connections for SPR serial configuration are as follows:
! Connectors:
! SPR: 15-pin D-type male (only 9-pins used)
! PC: 9-pin D-type (RS-232)
! SDA: 15-pin D-type male
! Cable: straight-through Y-cable SPR 15-pin D-type male PC 9-pin D-type female 15-pin D-type male SDA Figure 8-16: Y-cable for serial connection 02030311-05 Airspan Networks Ltd. 8-21 Installing the SPR Hardware Installation Guide
! Connector pinouts:
Table 8-3: Y-cable SPR-to-SDA connector pinouts SPR Pin SDA Function Function Pin 15-pin D-type male 1 2 3 4 5 6 7 8 0 VDC
+48 VDC Ethernet Tx+
Ethernet Tx-
Ethernet Rx+
Ethernet Rx-
Hop Sync+
Hop Sync-
1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Rx+
Rx-
Tx+
Tx-
Sync.+
Sync.-
15-pin D-type male Table 8-4: Y-cable SPR-to-PC connector pinouts SPR PC 15-pin D-type male Pin Function Pin Function 9-pin D-type female 12 14 GND RS232 Rx 15 RS232 Tx 5 3 2 GND Rx Tx 8-22 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR The Y-cable connector pin assignments are displayed shematically in Figure 8-17. Figure 8-17: Y-cable connector pin assignment To connect the SPR to a PC for serial configuration:
1. Connect the 15-pin D-type male connector (P1), at the one end of the Y-cable, to the SPR, as displayed in Figure 8-18. 2. Connect the 15-pin D-type male connector (J1), at the other end of the Y-cable, to the SDA, as displayed in Figure 8-18. 3. Connect the 9-pin D-type (RS232) connector (J2), at the other end of the Y-
cable, to the PC, as displayed in Figure 8-18. 02030311-05 Airspan Networks Ltd. 8-23 Installing the SPR Hardware Installation Guide Figure 8-18: SPR cable connections for serial configuration Note: For performing SPR initial configuration using WipLLs management applications, refer to Airspans WipConfig Users Guide or WipConfig PDA Users Guide. 8-24 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.8. Connecting the RSS LED Adapter The WipLL RSS LED adapter indicates the received signal strength (RSS) between the SPR and the BSR. This allows you to accurately position the SPR during installation for optimal radio frequency signal reception. The RSS LED adapter is connected between the SPR and SDA CAT 5 cable connection. The RSS LED adapter provides two 15-pin D-type ports: one for the SPR side; and the other for the SDA side. The RSS LED adapter can be connected in one of the following manners:
! The RSS LED adapter 15-pin D-type port connects directly to the SPRs 15-pin D-type port; while the other RSS LED adapters 15-pin D-type port connects to the SDA via the CAT 5 cable.
-Or-
! Both 15-pin D-type ports of the RSS LED adapter connect to the SPR and SDA via a CAT 5 cable on either side. The following describes the connectors, cable, and connector pinouts:
! Connectors:
! SPR: 15-pin D-type male (only 9-pins used)
! RSS LED adapter:
SPR side: 15-pin D-type female SDA side: 15-pin D-type male
! SDA: 15-pin D-type male
! Cables: two straight-through cables for SPR-to-RSS LED adapter, and for SDA-
to-RSS LED adapter. 02030311-05 Airspan Networks Ltd. 8-25 Installing the SPR Hardware Installation Guide To connect the RSSI LED adapter:
1. Connect the 15-pin D-type male connector, at one end of the straight-through cable, to the SPR, as displayed in Figure 8-19. 2. Connect the 15-pin D-type female connector, at the other end of the straight-
through cable, to the RSS LED adapter, as displayed in Figure 8-19. 3. Connect the 15-pin D-type male connector, at one end of the straight-through cable that originates from the SDA, to the RSS LED adapter, as displayed in Figure 8-19. 8-26 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR Figure 8-19: Connecting the RSS LED adapter 02030311-05 Airspan Networks Ltd. 8-27 Installing the SPR Hardware Installation Guide Note: You can connect the RSS LED adapters 15-pin male port directly to the SPRs 15-pin port, instead of using a cable. Table 8-5 describes the LEDs on the RSS LED adapter. Table 8-5: LED description of the RSS LED adapter LED Power Color Function Red Power RSS LEDs
(LEDs 0 to 7) Green Received Signal Strength level Status Description On Off The SPR receives power from the SDA No power is supplied to the SPR by the SDA Blinking Data transmission is occurring on the Ethernet LAN LED 1 blinking LED 1 is on LEDs 1 and 2 are on LEDs 1, 2, and 3 are on LEDs 1, 2, 3, and 4 are on LEDs 1, 2, 3, 4, and 5 are on LEDs1, 2, 3, 4, 5, and 6 are on LEDs 1, 2, 3, 4, 5, 6 and 7 are on All LEDs are on RSS -94 dBm
-93 dBm RSS -90 dBm
-89 dBm RSS -86 dBm
-85 dBm RSS -82 dBm
-81 dBm RSS -78 dBm
-77 dBm RSS -74 dBm
-73 dBm RSS -70 dBm
-69 dBm RSS -66 dBm RSS -65 dBm 8-28 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SPR 8.9. Connecting Power The SPR receives, through its 15-pin D-type port, its power supply from the SDA. In turn, the SDA connects to an external power adapter from where it receives power. The SDA provides 48 VDC nominal power to the SPR (minimum of 30 VDC: maximum of 55 VDC). Warning: If you are using an external antenna, ensure that you connect the antenna before connecting the SPR to the power source. Note: For a description of the procedure for connecting power to the SDA, see Chapter 9, Installing the SDA. 02030311-05 Airspan Networks Ltd. 8-29 9 Installing the SDA Installing the SDA Installing the SDA Installing the SDA This chapter describes the installation of the WipLL Subscriber Data Adapter
(SDA) at the subscribers premises. This chapter includes the following chapters:
! Overview
! Physical Dimensions and Basic Design
! Mounting the SDA
! Desktop-Mounting
! Wall-Mounting
! Connecting to the SPR
! Connecting to the Subscribers Ethernet Network
! Connecting to PCs
! Connecting to a Hub
! Connecting to a VoIP Network
! Connecting AC Power
! LED Display
! SDA-4H
! SDA-4S Models 02030311-05 Airspan Networks Ltd. 9-1 Installing the SDA Hardware Installation Guide 9.1. Overview The SDA is an Ethernet hub/LAN switch that provides the SPR with DC power, lightening protection, and Ethernet connectivity to the subscribers PCs/network. The SDA connects to the SPR by a CAT-5 cable. The SDA provides 10/100BaseT connectivity (depending on the SDA model) to the subscribers PCs or network (up to four PCs depending on the SDA model). The SDA is located inside the subscribers premises, typically mounted on a wall or simply placed on a desktop. The SDA is available in six models:
! SDA-1: This is a hub that provides one 10BaseT interface (RJ-45 port) with the subscribers PC and/or network (via a hub or LAN switch).
! SDA-4H: This is a hub and provides four 10BaseT ports for interfacing with the subscribers PCs/network. In addition, one of the 10BaseT ports provides crossover configuration for crossover-cable connection for interfacing with, for example, other hubs.
! SDA-4S models: Integrated LAN switches, providing four 10/100BaseT interfaces with the subscribers PCs/network. The ports of the SDA-4S models support Auto Negotiation, allowing automatic configuration for the highest possible speed link: 10BaseT or 100BaseT, and Full Duplex or Half Duplex mode. In other words, the speed of the connected device (PC) determines the speed at which packets are transmitted through the specific port. For example, if the device (i.e, PC) to which the port is connected is running at 100 Mbps, the port connection will transmit packets at 100 Mbps. If the device (i.e, PC) to which the port is connected is running at 10 Mbps, the port connection will transmit packets at 10 Mbps. In addition, the SDA-4S ports support MDI/MDI-
X automatic crossover, allowing connection to straight-through or crossover CAT-5 cables
! SDA-4S (standard): Standard integrated LAN switch, providing four 10/100BaseT interfaces to the subscribers computers. 9-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA
! SDA-4S/VL: Provides VLANs between its ports and the SPR, ensuring privacy between users of different ports (i.e., multi-tenant VLAN security). For example, all users connected to Port 1 do not see users connected to Port 2.
! SDA-4S/VLtag: This model is ideal for multi-tenant applications where traffic engineering and privacy is required. SDA-4S/VLtag assigns the traffic from each of its four ports with a different VLAN ID. The VLAN IDs are fixed (since SDA-4S/VLtag is not user configurable). SPR converts the four VLAN IDs tagged by SDA-4S/VLtag to four VLAN IDs configured via WipLLs NMS. The tag conversion is performed by SPR before sending the traffic to the air and the other way around when coming from the air.
! SDA-4S/1H3L: Provides a high priority port (left-most port) for VoIP traffic.
! SDA-4S/VL/1H3L: Combines the functionality of the SDA-4S/VL and SDA-4S/1H3L models (VLAN for each port and a high priority port for VoIP). Figure 9-1 displays a typical setup of the SPR and SDA at the subscribers premises. Note: The SDA can also be installed at a base station that has only one BSR. This SDA replaces the need for the BSDU, and provides power and connectivity to the single BSR. 02030311-05 Airspan Networks Ltd. 9-3 Installing the SDA Hardware Installation Guide RF link Subscriber Premises Radio (SPR) located on the roof CAT-5e PC Subscriber Data Adapter (SDA) located inside Figure 9-1: Typical SPR and SDA location and connections at subscribers premises 9-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA 9.2. Physical Dimensions and Basic Design The SDA is encased in a chassis. The chassis front panel provides access to the SDAs communication ports. The left-side of the chassis provides a power connector port for connection to an external power adapter. The SDAs bottom panel provides holes for mounting the SDA on a wall Figure 9-2 displays the SDA-4S models and the SDA-4H. 15-pin D-type port 10/100BaseT ports Power connector port Figure 9-2: SDA-4S models and SDA-4H (front, side, and top panels) 02030311-05 Airspan Networks Ltd. 9-5 Installing the SDA Hardware Installation Guide Figure 9-3 displays the SDA-1 model. 15-Pin D-type port RJ-45 port
(10BaseT) Power connector port Figure 9-3: SDA-1 (front, side, and top panels) The SDAs physical dimensions are described in Table 9-1 Table 9-1: SDA physical dimensions Parameter Value Height Width Depth Weight 200 mm (7.87 inches) 150 mm (5.9 inches) 40 mm (1.57 inches) 0.53 kg 9-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA 9.3. Mounting the SDA The SDA can be wall or desk mounted. 9.3.1. Desktop-Mounting For desk mounting (horizontal mounting), the chassis bottom panel provides four rubber feet on each corner. Warning: For desk mounting, do not place the SDA on a carpeted surface where airflow is restricted and a fire hazard may result. Rubber feet Mounting brackets Figure 9-4: SDA - rear panel 02030311-05 Airspan Networks Ltd. 9-7 Installing the SDA Hardware Installation Guide 9.3.2. Wall-Mounting For SDA wall mounting, two mounting hooks are molded into the chassis bottom panel (see Figure 9-4). The dimensions of the SDAs wall-mounting hooks, located on the chassis bottom panel, are displayed in Figure 9-5. 5 mm 9 59 100 Figure 9-5: SDA mounting footprint details the type of wall at Notes:
1) Airspan does not supply screws for wall mounting as the size and type of screws depends on the subscribers premises 2) For reasons of safety both fixing points must be utilized when mounting the unit. 3) The SDA is supplied with a 1-metre AC power lead assembly. Therefore, the unit must be located within reachable distance of the customers mains power outlet. 4) The cable must be dressed tidily and not be taught or pose a trip hazard when connected. 5) The maximum cable run between an SDA and an SPR is 100 meters. Airspan Networks Ltd. 02030311-05 9-8 Hardware Installation Guide Installing the SDA 9.4. Connecting to the SPR The SDAs 15-pin D-type port connects to the SPRs 15-pin D-type port by a CAT-
5 cable. Note: For a detailed description on connecting the SDA to the SPR, see Chapter 8, Installing the SPR. 9.5. Connecting to the Subscribers Ethernet Network The SDA provides RJ-45 port(s) for Ethernet connectivity to the subscribers PCs/network. The number of Ethernet ports and the speed of the Ethernet connection depend on the SDA model. Table 9-2 describes the number of ports and transmission speeds supported by the various SDA models. Table 9-2: Number of ports and transmission speed of SDA models SDA Model SDA-1 SDA-4H SDA-4S models
(SDA-4S; SDA-4S/VL; SDA-4S/Vltag; SDA-
4S/1H3L; SDA-4S/VL/1H3L) RJ-45 Ports 1 4 4 Speed (Mbps) 10 10 10/100 02030311-05 Airspan Networks Ltd. 9-9 Installing the SDA Hardware Installation Guide The following list describes the location of the Ethernet ports for the various SDA models:
! SDA-1: one RJ-45 port (see Figure 9-6) RJ-45 port Figure 9-6: SDA-1 with one Ethernet port
! SDA-4H: four RJ-45 ports (see Figure 9-7). Note: The left-most port (J5) is a crossover port. R-J45 connector (J5)
- cross over R-J45 connector (J4) R-J45 connector (J3) R-J45 connector (J2) D-type connector (J1) Figure 9-7: SDA-4H with four Ethernet ports 9-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA
! SDA-4S models (SDA-4S, SDA-4S/VL, SDA-4S/Vltag, SDA-4S/1H3L, and SDA-4S/VL/1H3L): four 10/100BaseT RJ-45 ports. These ports support 10/100 Mbps autonegotiation, and MDI/MDI-X automatic crossover. This allows you to connect straight-through or crossover CAT-5 cables to these ports. Figure 9-8: SDA-4S RJ-45 Ethernet Ports 10/100BaseT RJ-45 ports 02030311-05 Airspan Networks Ltd. 9-11 Installing the SDA Hardware Installation Guide 9.5.1. Connecting to PCs The SDA connects to the subscribers PC(s) through the SDAs Ethernet port
(RJ-45). Note: To avoid electrical or fire hazard, ensure that the data connections to the SDA is made prior to connecting the power supply. The SDA-to-subscriber PC cable configurations are as follows:
! Connector: 8-pin RJ-45
! Cable: straight-through Ethernet cable
! Connector Pinouts:
RJ-45:
SDA-1, SDA-4H (J2, J3, J4), SDA-4S Pin Function RJ-45 crossover cables:
SDA-4H (J5) Pin Function 1 2 3 4 5 6 7 8
+RX
-RX
+TX NC NC
-TX NC NC 1 2 3 4 5 6 7 8
+Tx
-Tx
+Rx NC NC
-Rx NC NC To connect the SDA to the subscribers PC(s):
1. Connect the 8-pin RJ-45 male connector, at the one end of the Ethernet cable, to the SDAs RJ-45 Ethernet port (see Figure 9-9). 2. Connect the 8-pin RJ-45 male connector, at the other end of the Ethernet cable, to the subscribers PC (or device). (See Figure 9-9.) 9-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA Figure 9-9: SDA-to-PC Cable Connections Note: The SDA-4S RJ-45 ports support MDI/MDI-X automatic crossover. This means that straight-through or crossover CAT-5 cables can be connected to these ports. 02030311-05 Airspan Networks Ltd. 9-13 Installing the SDA Hardware Installation Guide 9.5.2. Connecting to a Hub The SDA-4S models and SDA-4H can be connected to another hub (for example, for daisy chaining). The ports of the SDA-4S models support MDI/MDI-X automatic crossover, allowing connection of straight-through or crossover cables. However, for the SDA-4H model, only the left-most RJ-45 port (J5) is a crossover port (see Figure 9-7). The SDA-4S and SDA-4H cable configurations for connectivity to a hub, are as follows:
! Connector: 8-Pin RJ-45
! Cable:
! SDA-4H: crossover-cable
! SDA-4S models: straight-through or crossover cables (due to MDI/MDI-X ports)
! Connector pinouts: SDA-4H:
SDA-4H RJ-45 (J5) Pin 1 2 3 4 5 6 7 8 Function
+TX
-TX
+RX NC NC
-RX NC NC To connect SDA-4S or SDA-4H to a hub:
1. Connect the RJ-45 male, at one end of the cable, to the SDA-4Hs left-most RJ-
45 port (J5), or any SDA-4Ss RJ-45 port. 2. Connect the RJ-45 male, at the other end of the cable, to the hub. 9-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA Figure 9-10: SDA-4H crossover cable connections to hub 02030311-05 Airspan Networks Ltd. 9-15 Installing the SDA Hardware Installation Guide Figure 9-11: SDA-4S crossover/straight-through cable connections to hub Note: The SDA-4S RJ-45 ports support MDI/MDI-X automatic crossover. Therefore, crossover CAT-5 cables can be connected to any of the ports. 9-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA 9.5.3. Connecting to a VoIP Network The SDA-4S/1H3L and SDA-4S/VL/1H3L models left-most RJ-45 Ethernet port assigns high priority to VoIP trafic. This port is used to connect to the subscribers VoIP network. This port assigns high priority to VoIP traffic, as opposed to the other RJ-45 ports, which assigns lower priority. The cable connections for connecting the SDA-4S/1H3L and SDA-4S/VL/1H3L models to the subscribers VoIP network, are as follows:
! Connector: 8-pin RJ-45 male
! Cable: straight-through or crossover
! Connector pinouts:
RJ-45 (left-most port) Function Pin 1 2 3 4 5 6 7 8
+RX
-RX
+TX NC NC
-TX NC NC To connect to the VoIP network:
1. Connect the RJ-45 male connector, at the one end of the Ethernet cable, to the left-most RJ-45 port on the front panel of the SDA-4S/1H3L and SDA-
4S/VL/1H3L chassis (see Figure 9-12). 2. Connect the RJ-45 male connector, at the other end of the cable, to the VoIP network, for example, to a Residential Gateway (see Figure 9-12). 02030311-05 Airspan Networks Ltd. 9-17 Installing the SDA Hardware Installation Guide Figure 9-12: Connecting VoIP RJ-45 Port (for SDA-4S/1H3L and SDA-4S/VL/1H3L) 9-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA 9.6. Connecting AC Power The SDA receives AC power by connecting to a standard 110240 VAC wall outlet. In turn, the SDA provides 48 VDC nominal power to the SPR (minimum of 30 VDC: maximum of 55 VDC). Table 9-3 lists the SDA power supply specifications. Table 9-3: SDA Power Supply Specifications Power parameter Voltages Frequency Amps Units 110-240 VAC 50/60 Hz 0.3-0.7A The following lists the cable connection between the SDA and the power outlet:.
! Connector: AC IEC 320 type (female) Figure 9-13: Power Chord
! Cable: 3-core 0.7mm type (maximum length is 1.5 m) For all SDA models, the power port is located on the left-panel of the chassis, as displayed in Figure 9-14 for SDA-1, and in Figure 9-15 for SDA-4H and SDA-4S models. 02030311-05 Airspan Networks Ltd. 9-19 Installing the SDA Hardware Installation Guide Power port Power port Figure 9-14: Location of SDA-1 power port Figure 9-15: Location of SDA-4S models and SDA-4H power port 9-20 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA Warning: Ensure that plugs fitted to mains power leads for subscriber premises equipment are compatible with AC mains sockets. Do not replace plugs on power leads to suit local requirements without first verifying grounding practice for the country and equipment in question. Careful consideration must be given to issues including local wiring requirements, cable color-coding, safety grounding, and circuit protection requirements. Prior to connecting to the power outlet, the following pre-connection inspection should be performed on power sockets:
! Power socket shall be visually inspected to ensure that no other equipment is connected to the power outlet.
! No damage to the power outlet.
! No water or dampness on or around the power outlet.
! The power outlet shall be checked using a proprietary plug tester such as a
Martindale Ze type. Checks are required to verify the earth loop impedance value and the presence of phase, neutral, and earth connections. Note: To avoid electrical or fire hazard, ensure that the data connections to the SDA is made prior to connecting the SDA to the power supply. To connect the SDA to AC power supply:
1. Plug the power plug female, at the end of the AC power chord, into the power plug male located omn the left of the SDA chassis (see Figure 9-16). 2. Plug the power plug male, at the other end of the AC power chord, into the wall power outlet (110-240 VAC). (See Figure 9-16.) 3. Verify that the power is received by the SDA by checking that the POWER LED light (green) is on. 02030311-05 Airspan Networks Ltd. 9-21 Installing the SDA Hardware Installation Guide Figure 9-16: SDA power cable connections 9-22 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA 9.7. LED Display The SDA-4H and SDA-4S models provide LED indicators that indicate network connection, traffic status, and power. These LEDs are located on the top panel of the chassis. 9.7.1. SDA-4H Figure 9-17 displays the location of the SDA-4H LED indicators. Ethernet LEDs (2, 3, and 4)
(straight-through) CROSS (5) LED UPLINK (1) LED POWER LED Figure 9-17: SDA-4H LED indicators 02030311-05 Airspan Networks Ltd. 9-23 Installing the SDA Hardware Installation Guide Table 9-4 describes the SDA-4H LED indicators. LED Table 9-4: Description of the SDA-4H LED Indicators Color Status Meaning 1 (UPLINK) Yellow 2, 3, and 4 Yellow 5 (CROSS) Yellow On Physical link between SDA-4H and SPR Blinking Traffic flow between SDA-4H and SPR No link between SDA-4H and SPR Off Physical link between SDA-4H and Ethernet network On Blinking Traffic flow between SDA-4H and Ethernet network Off On No link between SDA-4H and Ethernet network Physical link between SDA-4H and crossover Ethernet port connection Blinking Traffic flow between SDA-4H and crossover Ethernet Off On Off POWER Green port network No link between SDA-4H and crossover Ethernet port connection Power received by the SDA-4H. No power received by SDA-4H 9-24 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the SDA 9.7.2. SDA-4S Models Table 9-5 describes the SDA-4S models LED indicators. Table 9-5: Description of the SDA-4S models LED indicators LED 1 Color Status Orange Meaning Physical link (10BaseT) between SDA-4S and SPR On Blinking Traffic flow between SDA-4S and SPR Off On No link between SDA-4S and SPR 100BaseT physical link between SDA-4H and Ethernet network 100BaseT traffic flow between SDA-4H and Ethernet network No traffic flow between SDA-4S and Ethernet network 10BaseT physical link between SDA-4H and Ethernet network 10BaseT traffic flow between SDA-4H and Ethernet network No traffic flow between SDA-4S and Ethernet network Power received by the SDA-4S model. No power received by SDA-4S model. 2, 3, 4, and 5 Green Blinking Orange Off On Blinking Off On Off POWER Green 02030311-05 Airspan Networks Ltd. 9-25 10 Installing the IDR Installing the IDR Installing the IDR Installing the IDR This chapter describes the installation of the WipLL Indoor Data Radio (IDR), which is installed at the base station. This chapter includes the following sections:
! Overview
! Physical Dimensions and Basic Design
! Mounting the IDR
! Desk Mounting
! Wall and Pole Mounting
! Connecting a Third-Party External Antenna
! Connecting to an Ethernet Network
! Positioning IDR for Optimum RF Reception
! Connecting to PC for Serial Configuration
! Connecting Power
! Power LEDs 02030311-05 Airspan Networks Ltd. 10-1 Installing the IDR Hardware Installation Guide 10.1. Overview The IDR device is an optional WipLL device that combines the functionality of the SPR and SDA devices. The IDR has a built-in antenna that provides an interface for transmission with the base station. In addition, the IDR provides an interface for 10Base-T Ethernet with the subscribers network. However, unlike the SDA, a separate power supply unit (power adapter) powers the IDR. The IDR is available in two models:
! IDR with an internal antenna
! IDR with a TNC connector for connecting to a third-party external antenna RF link RF link to BSR to BSR Optional external Optional external Optional external Optional external Optional external Optional external Optional external Optional external antenna antenna antenna antenna antenna antenna antenna antenna RF cable RF cable IDR IDR PC PC Figure 10-1: Typical IDR setup at subscribers premises (showing optional antenna) 10-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR Warning: To avoid electrical or fire hazard, ensure that all connections to the IDR are performed prior to connecting the power supply. Note: The digital portion of the transceiver has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment on and off, the user is encouraged to try correct the interference by performing one or more of the following measures:
- Reorientate or relocate the receiving antenna
- Increase separation between the equipment and receiver
- Connect the equipment to an outlet on a circuit different from that to which the receiver is connected
- Consult the dealer or an experienced radio/TV technician for help 02030311-05 Airspan Networks Ltd. 10-3 Installing the IDR Hardware Installation Guide 10.2. Physical Dimensions and Basic Design The IDR is encased in a chassis providing access to the IDRs communication port at the front panel. Chassis cover bolt LEDs RJ-45 10Base-T port TNC-type connector for 3rd party external antenna RJ-11 serial port Molex 6-pin power port Figure 10-2: IDR front panel with cover removed exposing ports The IDRs physical dimensions are described in Table 10-1. Table 10-1: IDR physical dimensions Parameter Value Weight Dimensions (H x W x D) IDR with built-in antenna IDR with an external antenna 1,43 kg 155 mm (6.1 inches) x 233 mm (9.17 inches) x 74.5 mm (2.93 inches) 120.5 mm (4.74 inches) x 61mm (2.4 inches) x 35 mm (1.37 inches) Comment Note: Dimensions exclude the external power adapter. 10-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR 10.3. Mounting the IDR The IDR may be mounted in the following ways:
! Desk
! Pole
! Wall Note: Before mounting or attaching any brackets to the IDR, ensure that all cables are securely attached and that the unit functions correctly in the proposed location. 10.3.1. Desk Mounting The IDR may be mounted on a desk in one of the following ways:
! Vertically
! Horizontally 02030311-05 Airspan Networks Ltd. 10-5 Installing the IDR Hardware Installation Guide 10.3.1.1. Vertical-Desk Mounting A base plate is provided to mount the unit vertically on the desk, i.e., in standing position. The base plate is designed to fit in one position only. To desk mount the IDR in a vertical position:
! Insert the IDR into the base and press firmly until the tabs click into place. See Figure 10-3. Desk-
mounting plate Figure 10-3: IDR vertical desk mounting 10-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR 10.3.1.2. Horizontal-Desk Mounting To position the IDR horizontally on the desk, four rubber pads, supplied with the unit, must be fitted to avoid damage to mounting surfaces. mTo desk mount the IDR in a horizontal position:
! Secure the rubber pads to the posts provided on the rear of the IDR using four self-tapping screws. See Figure 10-4. Rubber foot Screw Figure 10-4: IDR horizontal desk mounting using supplied rubber pads and tapping screws 02030311-05 Airspan Networks Ltd. 10-7 Installing the IDR Hardware Installation Guide 10.3.2. Wall and Pole Mounting The IDR may be mounted to a wall or to a 5-cm diameter pole. Wall and pole mounting both use the same mounting brackets and wall hanger plate. 10.3.2.1. Assembling the Bracket and Hanger Plate The wall hanger plate secures the IDR to a wall or pole. The wall bracket and hanger plate allows positioning the IDR in the correct orientation. Holes are provided in the wall hanger plate for both pole and wall mounting options To assemble the bracket and hanger plate:
1. Insert a 4 mm hex nut into the slot on the tilt arm component 2. Holding the nut in place, attach the tilt arm to the mounting bracket using a 4 mm socket head bolt. Hand tighten the bolt only. See Figure 10-5. 3. Affix the complete mounting assembly to the rear of the IDR using the 4-off self-tapping screws supplied with the kit. Mounting Bracket Screw Tilt Arm Nut Figure 10-5: Mounting bracket assembly 10-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR 4. Attach the wall bracket assembly to wall hanger using an M4 socket-head bolt and nut as shown in Figure 10-6. The bolt is only to be hand tightened at this stage. Wall Hanger M-4 nut Screw Mounting bracket assembly Figure 10-6: Wall hanger fixing method Figure 10-7: Wall hanger & mounting bracket assembly 02030311-05 Airspan Networks Ltd. 10-9 Installing the IDR Hardware Installation Guide 5. Once assembled, the IDR mounting bracket assembly may be secured to the rear of the IDR using the 4-off self-tapping screws supplied in the unit fixing kit. See Figure 10-8. Self -
tapping Screws Figure 10-8: Mounting bracket assembly secured to IDR 10-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR 10.3.2.2. Pole Mounting Prior to mounting the IDR to a pole the wall mounting bracket assembly must be fitted as described in the previous section. To pole mount the IDR:
1. Offer up the IDR assembly to the pole as shown in Figure 10-9. 2. Insert 2-off M10 bolts through the holes in the wall hanger. 3. Slide the clamp-holder into position and secure using washers, spring-washers and nuts as illustrated in Figure 10-10. Finger-tighten the fasteners. 4. Slide the IDR to the required location on the pole and fully tighten the fasteners. Clamp holder Washer Spring Washer Bolt Hex Nut Figure 10-9: IDR pole mounting components 02030311-05 Airspan Networks Ltd. 10-11 Installing the IDR Hardware Installation Guide Figure 10-10: IDR secured to a pole To set the correct IDR inclination:
1. Loosen the 2-off M4 socket head screws on the mounting bracket tilt-arm 2. Position the IDR at the desired angle. 3. Re-tighten the 2 off socket screws on the tilt arm. 10-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR 10.3.2.3. Wall Mounting Warning: Prior to drilling holes in a wall ensure that there are no hidden services such as electricity cables or water pipes. A stop must be used on the power drill to ensure that bored holes do not exceed 35 mm. To mount the IDR on a wall:
1. Loosen the 2-off M4 socket head screws on the mounting bracket tilt-arm and remove the wall hanger. 2. Offer up the wall hanger to the wall and scribe through the mounting hole locations. 3. Drill holes to suit the type of wall fixing. 4. If required insert anchor plugs suited to the wall material. 5. Affix the wall hanger using 4-off screws suited to the anchor plugs and wall material. 6. Re-attach the IDR mounting bracket to the wall hanger. Finger tighten the screws. 7. Position the IDR at the desired inclination. 8. Re-tighten the screws to lock the IDR in position. 02030311-05 Airspan Networks Ltd. 10-13 Installing the IDR Hardware Installation Guide 10.4. Connecting a Third-Party External Antenna The IDR provides a TNC-type connector for connecting a third-party antenna to the IDR. This antenna can be placed on the subscribers windowsill to provide better RF signal reception with the BSR. Note: Airspan supplies unterminated cables for N-type connectors. Therefore, refer to the cable crimping procedures for N-type connectors detailed in Appendix B, Cable Crimping".
! Connector: TNC-type male Warning: Before connecting the external antenna, ensure that the IDR is NOT connected to the power source. 10-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR Figure 10-11: Connecting a third-party antenna Warning: It is the responsibility of the person installing the WipLL system to ensure that when using the outdoor antenna kits in the United States (or where FCC rules apply), that only those antennas certified with the product are used. The use of any antenna other than those certified with the product is expressly forbidden in accordance with FCC rules CFR47 part 15.204. The installer should configure the output power level of antennas according to country regulations and per antenna type. 02030311-05 Airspan Networks Ltd. 10-15 Installing the IDR Hardware Installation Guide 10.5. Connecting to an Ethernet Network The IDR provides one Ethernet interface for the subscribers Ethernet network. This port is located on the front panel, and labeled Ethernet.
! Connector: 8-Pin RJ-45
! Cable: CAT-5
! Connector pinouts:
Pin Function 1 2 3 4 5 6 7 8 Rx+
Rx-
Tx+
Not Connected Not Connected Tx-
Not connected Not connected To connect IDR to the subscribers Ethernet network:
1. Attach the 8-pin RJ-45 connector, at one end of the cable, to the IDRs Ethernet port, labeled Ethernet (see Figure 10-12). 2. Attach the 8-pin RJ-45 connector, at the other end of the cable, to the PCs LAN port (see Figure 10-12). 10-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR Figure 10-12: Connecting IDR to a client PC 02030311-05 Airspan Networks Ltd. 10-17 Installing the IDR Hardware Installation Guide 10.5.1. Ethernet LED Indicator The IDR provides one LED that indicates an Ethernet connection. This LED is labeled Ethernet and is located on the IDRs top panel. Table 10-2: Description of Ethernet LEDs Indicates Color Orange LED Ethernet Physical link between IDR and Ethernet network No physical link between IDR and Ethernet network Status On Off Blinking Data is flowing through the Ethernet port 10.6. Positioning IDR for Optimum RF Reception Once mounted to a wall, pole, or desk the IDR unit may be positioned to ensure the best RF signal communication with the BSR. The RF signal strength is indicated by three LEDs on the IDR chassis. The following table describes the RF signaling strength indicator LEDs. Table 10-3: Description of RF signal strength LEDs LED Color Function Status Description Green RSSI level RSSI LEDs:
LO, MED, and HI Previous Releases RSSI -60 dBm
-65 dBm RSSI
-61 dBm
-70 dBm RSSI
-66 dBm RSSI -77 dBm
-76 dBm RSSI
-71 dBm Release 4.2B RSSI -60 dBm
-70 dBm RSSI <
-60 dBm
-80 dBm RSSI <
-70 dBm
-90 dBm RSSI <
-80 dBm RSSI < -90 dBm All LEDs On Two LEDs On One LED On One LED Blinking All LEDs Off 10-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR Figure 10-13: IDR LED indicators To position the IDR for optimum RF signal:
! Position the IDR until all three RF signaling strength indicator LEDs are lit. Refer to Section 10.3.2, Wall and Pole Mounting page 10-8 for details on adjusting IDR wall and pole mounting position. For desk-top mounting, the IDR can be simply relocated to obtain the strongest signal. 02030311-05 Airspan Networks Ltd. 10-19 Installing the IDR Hardware Installation Guide 10.7. Connecting to PC for Serial Configuration To perform IDR initial configuration, you need to connect the IDRs RJ-11 port to the serial port of a PC running the WipLL network management application (i.e., WipConfig). The IDRs RJ-11 port labeled Serial, located on the front panel, connects to the serial port of a PC via a cable with an RJ-11 connector on the one end, and a 9-Pin D-type connector on the other (i.e., a direct serial cable connection-DCC).
! Connectors:
! 6-Pin RJ-11 male to 9-pin D-type female adapter
! 9-Pin D-type male to 9-Pin D-type female adapter
! Cable:
! Straight-through cable with 6-Pin RJ-11 male on one end and 9-Pin D-type female on the other (connects between IDR and crossover cable)
! Crossover cable with 9-Pin D-type male on one end and 9-Pin D-type female on the other (connects straight-through cable to PC) 10-20 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR
! Connector pinouts:
Straight-through cable Crossover cable 6-Pin RJ-11 Pin 1 2 3 4 5 6 Function Rx Not connected NC NC GND Tx 9-Pin D-type female Pin 9-Pin D-type male Pin 9-Pin D-type male Pin 2
5 3
4
1 3
3
5 2
To connect the IDR to the WipLL management station (PC):
1. Connect the 6-Pin RJ-11 connector to the IDRs RJ-11 port (labeled Serial) located on the IDRs front panel (see Figure 10-14). 2. Connect the 9-Pin D-type female connector, at the other end of the straight-
through cable, to the 9-Pin D-type male connector of the cross-over cable (see Figure 10-14). 3. Connect the 9-Pin D-type male connector, at the other end of the cross-over cable, to the PCs serial port (see Figure 10-14). 02030311-05 Airspan Networks Ltd. 10-21 Installing the IDR Hardware Installation Guide Figure 10-14: IDR-to-PC Serial Cable Connections 10-22 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR 10.8. Connecting Power The IDR is powered by an external power supply (Triple Output External Adapter). The IDR connects to the power adapter via the IDRs power port located on the IDRs front panel. The following table lists the external power supply specifications:
Table 10-4: IDR power supply requirements Power parameter Voltages Frequency Maximum power consumption Units 110-240 VAC 50 to 60Hz Less than 15W Warning: If you are using an external antenna, ensure that you connect the antenna before connecting the BSR to the power source. Warning: Ensure that plugs fitted to mains power leads for subscriber premises equipment are compatible with AC mains sockets. Do not replace plugs on power leads to suit local requirements without first verifying earthing practice for the country and equipment in question. Careful consideration must be given to issues including local wiring requirements, cable color-coding, and safety earthing and circuit protection requirements. Warning: To avoid electrical or fire hazard, ensure that the data connections to the IDR are made prior to connecting the power supply.The AC mains must be capable of supplying at least 230 VAC Prior to connecting to the power outlet, the following pre-connection inspection should be performed on power sockets:
! Power socket shall be visually inspected to ensure that no other equipment is connected to the power outlet. 02030311-05 Airspan Networks Ltd. 10-23 Installing the IDR Hardware Installation Guide
! There is no physical sign of damage to the power outlet.
! There should not be any visible sign of water or dampness on or around the power outlet.
! The plug and socket assemblies are to be firmly secured.
! The power outlet shall be checked using a proprietary plug tester such as a
Martindale Ze type. Checks are required to verify the earth loop impedance value and the presence of phase, neutral and earth connections.
! Connector: 6-Pin power connector
! Cable: 3-core 0.7mm type
! Connector pinouts:
Pin Function 1 2 3 4 5 6
+6.5V
+5V 3.3V GND Not connected Not connected To connect the power:
1. Plug the AC power adapters 6-pin Molex connector into the IDRs power port labeled Power (see Figure 10-15). 2. Plug the AC power plug female, at the one end of the AC power cable, into the AC power adapters socket (see Figure 10-15). 3. Plug the AC power plug male, at the other end of the AC power cable, into the electrical outlet (see Figure 10-15). 10-24 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the IDR Figure 10-15: Connecting power to the IDR 02030311-05 Airspan Networks Ltd. 10-25 Installing the IDR Hardware Installation Guide 10.8.1. Power LEDs The IDA provides a power LED indicator, labeled Power, which indicates whether a power supply exists. The Power LED is located on the front panel of the IDR chassis. Table 10-5: Description of Power LEDs LED Power Color Red Status On Off Meaning The SDA receives power supply No power received 10-26 Airspan Networks Ltd. 02030311-05 A Glossary Glossary Glossary Glossary AC BNC BSDU BSPS BSR CEP DC DCC GPS HSP HSPP IDR IP LED mA MCB Mbps Nm NMS NOC PSTN RJ Alternating Current Bayonet Neill Concelman (Connector type) Base Station Distribution Unit Base Station Power System Base Station Radio Common Earth Point Direct Current Direct Serial Cable Connection Global Positioning Satellite Hop Synchronisation Process Hop Synchronisation Process Pulse Indoor Data Radio Internet Protocol Light Emitting Diode Milliamperes Miniature Circuit Breaker Mega Bits Per Second Newton-metres Network Management System Network Operations Centre Public Switched Telephone Network Registered Jack (modular connector) 02030311-05 Airspan Networks Ltd. A-1 Glossary Hardware Installation Guide SDA SME SOHO SPR UPS UPVC WAN WipLL Subscriber Data Adaptor Small and Medium Enterprises Small Office/Home Office Subscriber Premises Radio Un-interrupted Power Supply Unplasticized Poly-Vinyl Chloride Wide Area Network Wireless internet protocol -Local Loop A-2 Airspan Networks Ltd. 02030311-05 Cable Crimping Cable Crimping Cable Crimping Cable Crimping B This chapter describes the procedure for crimping cables for 15-Pin D-type and N-
type connectors that are used in BSR/SPR-to-BSDU/SDA and BSR-to-GPS connections, respectively. The opposite ends of these cables are un-terminated, thereby providing length flexibility for connecting these WipLL units. Crimping procedures are described for the following cable-connector terminations:
! CAT-5e/15-Pin D-type cable/connector for SPR-to-SDA terminations connections
! Multipair Overall Shielded (22 AWG)/N-type cable/connector terminations for GPS antenna connections.
! GPS antenna connector Warning: Correct crimping of network cables is crucial for ensuring service integrity. 02030311-05 Airspan Networks Ltd. B-1 Cable Crimping Hardware Installation Guide B.1. Crimping CAT-5e Cable for 15-Pin D-Type Connectors This section describes the cable stripping and crimping of CAT-5e cables for 15-Pin D-type connectors used for BSR/SPR-to-BSDU/SDA connections. Airspan recommends the "ITT Canon DB15" (code number DAW15P) sub-
miniature type. This connector is an Insulation Displacement Connector (IDC) which crimps and secures the cable at the connection point. Airspan recommends the following tools for stripping and crimping for 15-Pin D-
type connectors:
! Crimping toolhand-crimper code DW115394-1. The crimper is a cyclic crimper and will not release the cable until a full termination cycle has been completed. The tool automatically indexes to the next pin on completion of the terminating cycle.(See Figure B-1.) Anti Backup locator Connector Guide Feed Slide Figure B-1: Hand-Crimping Tool for 15-Pin D-Type Connector Push in this direction to release ratchet mechanism B-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Cable Crimping The major features of the crimper are described in the following table:
Tool feature Terminating Head Wire Inserter Table B-1: Main features of crimping tool Function Guides and supports the connector. Cuts wire to be terminated. Forces conductors into 2 slotted beams of the contact. Anti-backup locator Prevents connector from moving out of position for accurate termination. Automatically advances the connector after each termination. Feed Slide Adjuster Provides wire insertion depth adjustment Activates the termination mechanism inside the head. Cam handle Releases the cam handle before it is fully closed should a problem occur during termination operation. Ratchet Pawl
! Stripping toolthree-way stripping tool1PAC10349AKM (see Figure B-2) Adjustment Screw Blade Adjustment Figure B-2: Stripping Tool 1PAC10349 AKM Cable crimping is performed in two stages:
1. Stripping the cable 2. Crimping the cable 02030311-05 Airspan Networks Ltd. B-3 Cable Crimping Hardware Installation Guide B.1.1. Stripping the Cable Before crimping the cables, you need to strip 50 mm of the cable. Before using the tool, ensure that the tool is correctly adjusted. Correct adjustment is obtained when the blade cuts the outer insulation without damage to the insulation of inner conductors. To strip the cable:
1. Cut the cable to length using cable shears (Airspan code 1PAC10333AKJ). 2. Strip 50 mm of the sheathing using stripping tool. 3. Insert the cable in the jaws of the cutting tool by squeezing the handles together. 4. Rotate 10 times, release the tool, and remove the cable and insulation. B-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Cable Crimping 5. Use a steel rule (1PAC10042AAV) to verify the stripped dimension. 6. Inspect the cut for evidence of damage, i.e. has the braid been cut? If so cut off cable and reset tool. B.1.2. Crimping the Cable Once you have stripped 50 mm of the cable, you can begin crimping the cable to the 15-Pin D-type connector. Note: For 15-Pin D-type connector pinouts, see the relevant chapter on the specific WipLL equipment. To crimp the cable:
1. Insert the 15-Pin D-type connector into the left slot of the crimper until the desired connector pin position aligns with the slot. 2. Insert the wire into the left side of the crimper slot until the end enters the hole. 3. Adjust the desired length of the wire. 4. Centre the wire in the slot. 5. Squeeze the crimper handles until the wire inserter bottoms out. 6. Release the crimper handlesthe inserter retracts and the connector advances to the next pin position. 7. Repeat the above until all pin contacts of the row have been terminated. 02030311-05 Airspan Networks Ltd. B-5 Cable Crimping Hardware Installation Guide Connector advances in this direction Wire Slot Figure B-3: Crimping tool 8. When finished, remove the connector from the right side of connector slot. Note: The connector must be inserted into the crimper from the left hand side only. Should the connector jam in the terminating position, excessive force must not be used: the spigot between the tool handles should be used to release the ratchet mechanism. The crimper handle will not allow release until a full termination cycle of the connector has been completed. B.1.3. Inspecting the Crimped Connector Each crimped connector is to be tested that it has been correctly crimped:
! Ensure that the wire extends beyond the front pin contact slot by a minimum of 0.5 mm
! Ensure that the two legs of the insulation crimp barrel are closed to secure the insulation of the wire B-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Cable Crimping Note: The purpose of the barrel is to prevent the wire from being lifted from the contact. It is not necessary to have the barrel wrapped tightly around the insulation.
! Ensure that the contact cavity has not been deformed
! Confirm integrity by holding the connector in one hand and pulling lightly on the cable. Figure B-4 shows points to be observed during quality inspection. Correct Termination 0.5mm Min Acceptable Termination Wire was not fully inserted before termination
( or was slightly drawn back during termination) Incorrect setting of tool Figure B-4: Crimp Connector Inspection 02030311-05 Airspan Networks Ltd. B-7 Cable Crimping Hardware Installation Guide B.1.4. Housing the Connector For outdoor cable installations, the connector is to be protected in a waterproof housing assembly as shown in Figure B-5. Note: The housing, cable seal, and clamping nut are to be slid onto the cable prior to crimping the connector in place. To assemble the connector in a waterproof housing:
1. Insert the connector into the waterproof housing ensuring that a "click" is heard. 2. Screw the cable seal into place ensuring that the cable outer sheath is inside the connector body. 3. Secure the cable in place with the lock nut. Sealing Ring Connector Housing Securing Screws Cable Seal Clamping Nut Figure B-5: Waterproof Connector housing assembly For indoor cabling applications it is not necessary to use a waterproof housing for the connector. B-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Cable Crimping To assemble the un-housed connector:
1. Insert the connector terminal block into the connector body. 2. Secure the cable onto the connector body using the cable clamp. Ensure that the cable outer sheath is within the connector body. 3. Snap the top section of the connector body into place. 4. Ensure that the connector is secure within the housing by applying a light pull on the cable. 02030311-05 Airspan Networks Ltd. B-9 Cable Crimping Hardware Installation Guide B.2. Crimping N-type Connectors This section describes the cable stripping and crimping Multipair Overall Shielded
(22 AWG) cables for N-type connectors used for BSR/SPR connections to external antennas. Airspan recommends using the following tools for crimping of N-type connectors:
! Crimp tool: Erma 29020 with die set 29207.
! Stripping tool: Maxi Corex, fitted with the 9.0 to 11.5mm cable clamp (blue) and the 9.5 to 3.2 blade cassette (green). B.2.1. Stripping the Cable To strip the cable:
1. The first cut should be set to cut through the outer sheath, braid and dielectric. Scoring of the centre conductor should not occur. 2. The second cut should be set to cut through the outer sheath and the braid. Important attention must be paid to the dielectric where it meets the braid. It is preferable that no cutting of the dielectric takes place, however, because of the construction of cables and tolerance build up there may be occasion where a slight cutting of the dielectric is unavoidable. This must be kept to an absolute minimum. This has been termed the compromise cut and is acceptable practice. 3. The final cut should be set to cut through the outer sheath only. Scoring of the braid should not occur. 4. All sections of the stripped Ethernet cable should be easily removed if the blade settings are correct. To adjust the blade settings use the allen key provided and apply it to the grub screws at the back of the stripping tool. Clockwise will increase blade depth, anti-clockwise will reduce blade depth. 5. Set stripping tool slide mechanism to 5. 6. Place the cable into the stripping tool with approximately 12 mm protruding from the end of the tool. B-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Cable Crimping 7. Clamp the tool around the cable and lock in position. 8. Holding the cable in the left hand and stripping tool in the right hand (index finger through finger hole) rotate tool in a clockwise direction for 10 turns. 9. Move slide mechanism to number 3. 10. Rotate tool in a clockwise direction for 10 turns. 11. Move slide mechanism to number 1. 12. Rotate tool in a clockwise direction for 10 turns. 13. Unlock the tool to remove cable then lock shut. Always keep the stripping tool locked shut when not in use. Take care when handling the blade insert. 14. Twist off stripped cable sections. 02030311-05 Airspan Networks Ltd. B-11 Cable Crimping Hardware Installation Guide B.2.2. Assembling the Connector Once you have stripped the cable, you can house the cable:
To house the cable:
1. Fit an insulating boot if required, over the cable, cutting enough of the pointed end to enable the cable to go through the resulting hole with a fairly tight grip. Push ferrule over the stripped section of cable. 2. Rotate the centre conductor in relation to the cable to splay the braid and any foil from the dielectric, which will allow the later correct fitting of the connector body (over the dielectric). See Figure B-6.Take care not to damage the braid. Figure B-6: Rotating conductor B-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Cable Crimping 3. Trim the centre conductor back to 5.5 mm from the end of the dielectric. Use the cable shears provided and not the side cutters. 4. Fit centre pin on to the centre conductor. The centre conductor should be seen through the inspection hole (see Figure B-7). Ensure that the shoulder of the pin is butted up to the cables dielectric. Figure B-7: Fitting center pin onto center conductor B.2.3. Crimping To crimp the GPS connector:
1. Using an Erma tool and 29207 die, small aperture, crimp centre pin to centre conductor. The crimp section should be just be below the inspection hole (see Figure B-7). Do not crimp the shouldered section as it will cause flashing. 2. Fit the connector body over the centre pin and between the braid and dielectric
(see Figure B-6). Do not trap any of the braid between the dielectric and back face of the connector body. If the connector is supplied with a nylon washer, fit this to the rear of the connector before application to the cable. 3. Push the connector body firmly home. The centre pin should align with the end of the internal diameter of the connector body. 4. Push the ferrule up to the end of the cable, covering the braid. There should be no braid showing between the end of the ferrule and the connector body. Rotating the ferrule may rectify this, if not trim the braid slightly to suit. 02030311-05 Airspan Networks Ltd. B-13 Cable Crimping Hardware Installation Guide 5. Crimp the ferrule using the large aperture of the 29207 die. When offering up the tool the die should be positioned so as it aligns with the braid and not the outer sheath of the cable. 6. Connectors with nylon washers, the crimp is to be made with the dies held firmly against the washers face. B-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Cable Crimping B.3. Crimping GPS Cable Connectors Airspan recommends the following tools for crimping for N-type connectors:
! Crimping toolDaniels AFM8 (M22520/2-01). Figure B-8: Crimping tool Daniels AFM8 Once you have housed the stripped cable, you can now crimp the cable to an N-type connector. Note: The crimper cannot be opened without completing the cycle. To crimp the cable:
1. Ensure that the crimper is in the open position. 2. Remove safety clip from positioner guide. 3. Select the Positioner for contact to be crimped. 4. Insert the Positioner into the positioner guide and turn it 90 degrees until bayonet pins lock. 5. Raise and rotate the Selector knob until the number indicated on data plate for cable size to be crimped is in line with Sel. No. arrow. 02030311-05 Airspan Networks Ltd. B-15 Cable Crimping Hardware Installation Guide 6. Insert the contact and prepared cable into the indenter opening from the side opposite the Positioner. 7. Squeeze crimper handles together until the ratchet releases. The handle will return to the open position. 8. Remove crimped contact and cable. B-16 Airspan Networks Ltd. 02030311-05 C Technical Specifications Technical Specifications Technical Specifications Technical Specifications This appendix lists the technical specifications for the following WipLL units:
! WipLL Base Station equipment:
! Base Station Radio (BSR)
! Point-to-Point Radio (PPR)
! Base Station Distribution Unit (BSDU)
! Base Station Power Supply (BSPS)
! GPS antenna
! WipLL Customer premises equipment:
! Subscriber Premises Radio (SPR)
! Subscriber Data Adapter (SDA) SDA-1 SDA-4H SDA-4S models
! Indoor Data Radio (IDR) 02030311-05 Airspan Networks Ltd. C-1 Technical Specifications Hardware Installation Guide C.1. Base Station WipLL Equipment The following sub-sections list the specifications of the following WipLL Base Station equipment:
! Base Station Radio (BSR)
! Point-to-Point Radio (PPR)
! Base Station Distribution Unit (BSDU)
! Base Station Power Supply (BSPS) C-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications C.1.1. Base Station Radio (BSR) Table C-1: BSR and MAC Specifications Parameter Operating frequency range Spectrum spreading method Duplex method Comment ISM band Licensed band Unlicensed band Unlicensed band
*Other ranges available for trial Per ETSI EN301 253 Value 2.4 GHz 3.x GHz, MMDS, 2.8 GHz 5.8 GHz 900 MHz Frequency hopping Time Division Duplex
(TDD) - 2.4 GHz, 2.8 GHz, 3.x GHz, MMDS, 900 MHz, and 5.8 GHz Frequency Division Duplex
(FDD) - 3.x GHz Transmit bit rates Channel spacing Up to 4 Mbps 1 MHz Output power from the BSR Up to 27 dBm, configurable at 2.4 GHz 8-level CPFSK Modulation method PPMA / Adaptive TDMA Channel access method Up to 80%
Protocol efficiency Number of SPR/IDR per BSR Up to 126 BER and distance dependent For 3.5 GHz the channel spacing can be 1 MHz or 1.75 MHz Depending on local regulations, maximum output power can be configured at the factory For large data packets 02030311-05 Airspan Networks Ltd. C-3 Technical Specifications Hardware Installation Guide Table C-2: BSR EMC and Radio Standards Compliance Parameter Radio Standards Compliance EMC Value ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 Parameter Emissions / Immunity Safety Environmental Parameter Filtering Rate Forwarding Rate Routing table length Parameter Voltage Minimum:
Maximum:
Maximum Amperes:
C-4 Table C-3: BSR Agency Certification Value EN 300 339 EN 300 386-2 ETS 300 328 EN / IEC 60950 ETS 300 019-2-x Table C-4: BSR Network Specifications Value 10,500 frames/sec 1,300 frames/sec 200 networks, including subnets Comment At 64 byte packets At 64 byte packets Table C-5: BSR Power Requirements Value 48 VDC nominal 30 VDC 55 VDC 500 mA Comment Voltage is received from the BSDU Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications Table C-6: BSR Environmental Conditions Parameter Value Operating temperature of outdoor units (BSR and SPR) Storage temperature
-30C to +60C
-40C to +80C Comment Optional range of -40C to
+70C Parameter Ethernet Network Standards Compliance Serial Port Table C-7: BSR Network Interface Value Comment UTP EIA/TIA ANSI/IEEE 802.3 and ISO/IEC 8802-3 10Base-T compliant RS-232 Category 5 Table C-8: BSR Physical Dimensions Parameter Value 400 mm 317 mm 65.5 mm 4.7 kg Height Width Depth Weight Comment Excluding mounting kit 02030311-05 Airspan Networks Ltd. C-5 Technical Specifications Hardware Installation Guide C.1.2. Point-to-Point Radio (PPR) Parameter Table C-9: PPR Radio Specifications Value Operating frequency bands Duplex method Radio Technology Multiple Access Method Output power Antenna type (built-in) PPR SPR Sub-Channel Spacing Modulation Receiver Sensitivity (BER 1E-
6 at 2/4/8 FSK) Throughput Radio Standards Compliance EMC 2,400 to 2,500 MHz 3,400 to 3,800 MHz 5,725 to 5,875 MHz Time Division Duplex (TDD) for all bands Frequency Division Duplex (FDD) for 3.4 to 3.8 GHz FH-CDMA PPMA 27 dBm 18 dBi / 15 dBi 18 dBi / 15 dBi 1 MHz Multilevel (2, 4, or 8) CPFSK
-90/ -83/ -75 dBm Up to 4 Mbps per PPR-SPR link ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 C-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications C.1.3. Base Station Distribution Unit (BSDU) Parameter Filtering Rate Forwarding Rate Parameter Voltage Power consumption Table C-10: BSDU Network Specifications Value 105,000 Frames / sec 62,500 Frames / sec Table C-11: BSDU Power Requirements Value 48VDC nominal Maximum 300W (including the feeding of 6 BSRs) Table C-12: BSDU Environmental Conditions Parameter Operating Temperature Storage Temperature 0C to +50C
-40C to +80C Value Parameter Ethernet Network Standards Compliance Serial Port Table C-13: BSDU Network Interface Value Comment 100/10Base-T: UTP EIA/TIA ANSI/IEEE 802.3, ISO/IEC 8802-3 10/100 Base-T compliant RS-232 Category 5 Table C-14: BSDU Physical Dimensions Parameter Value Height Width Depth Weight 4.32 cm 48.26 cm 22.86 cm 2.9 kg 02030311-05 Airspan Networks Ltd. C-7 Technical Specifications Hardware Installation Guide C.1.4. Base Station Power Supply (BSPS) Table C-15: BSPS Rectifier Specifications Input Output Parameter Voltage Current (nominal) Frequency Power factor (nominal line/load) Voltage (default) Regulation (line & load) Adjustable range Current Ripple & noise Efficiency (nominal load) Overload current Over-voltage protection Over-temperature protection (measured on case, upper panel corner) Walk-in time Hold-up time Withstand voltage (1 min) General Working temperature Storage temperature Dimensions (mm) Weight EMC Safety Value 90VAC to 270VAC 3.2A @ 230V / 4.3A @ 115V 47Hz to 63Hz Greater or equal to 0.993 53.5VDC 0.4%
47 to 58 VDC 12A @ 54V 50mVp-p 85% @ 230V / 82% @ 115V
<12A 60 VDC 805C rectifier stops 725C rectifier recovers
< 0.5 sec 40 ms 4230VDC INPUT/OUTPUT 2120VDC INPUT/GND 1700VDC OUTPUT/GND
-10 to 45C
-50 to 80C 235 x 150 x 50 (L x W x H) 1100g Refer to system specifications According to: IEC950 C-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications Table C-16: BSPS DC Distribution Specifications Input Parameter Voltage Current (at full load) N =Number of rectifier modules Output General Frequency Power factor (at full load) Voltage (programmable) Default float and boost voltage Regulation (line, load, sharing) Current Psophometric noise Ripple & noise Efficiency (nominal load) Overload current Over-voltage protection Walk-in time Hold-up time Output current indication Active current sharing Withstand voltage (1 min) Working temperature Storage temperature Dimensions (19 X 3U) Weight RS232 Communication Value 90VAC to 270VAC N*3.2A @ 230V N*4.3A @ 115V 47 Hz to 63 Hz Greater or equal to 0.993 42 to 60VDC 0.5VDC 54 and 57VDC respectively 1%
N*12A (48A max.)
-52 dBm (over 600 &) 50mVp-p 85% @ 230V / 82% @ 115V
< N*12A 60VDC
< 1 sec 40 ms 10 LEDs bar-graph 10% accuracy at full load 2120VDC INPUT/GND
-10 45C
-50 80C Depth is 320mm W/O terminals, 360mm with terminals 13 kg (main unit + 3 rectifiers) 9600 bps, no-parity, 1 stop-bit 02030311-05 Airspan Networks Ltd. C-9 Technical Specifications Hardware Installation Guide Parameter Value EMC Safety Maximum current withstand Trip voltage level LVLD
(optional) According to:
EN300-386-2 SUB 7.2.3 EN55022 class B IEC1000-4-2 IEC1000-4-3 IEC1000-4-4 IEC1000-4-5 IEC1000-4-6 IEC1000-4-11 IEC1000-3-2 IEC1000-3-3 According to: IEC950 2x70A Disconnect default: 43 0.5 VDC, user programmable Re-connect: with AC recovery C-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications C.1.5. GPS antenna Table C-17: SPR Power Requirements Parameter Value 36 VDC 1.8W Comment Supplied by WipLLs BSDU Voltage Input Consumption Parameter Operating temperature Parameter Input Output Standards Compliance Interface standard Table C-18: Environmental Considerations Comment Comment Value
-30C to +75C Table C-19: GPS General Value DGPS (Differential GPS) 1 pulse per second MIL-STD 810E RS-422 Table C-20: GPS Dimensions Parameter Value Comment Diameter Height 115 mm 90 mm 02030311-05 Airspan Networks Ltd. C-11 Technical Specifications Hardware Installation Guide C.2. Customer Premises WipLL Equipment The following sub-sections list the specifications of the following WipLL CPE equipment:
! Subscriber Premises Radio (SPR)
! Subscriber Data Adapter (SDA)
! Indoor Data Radio (IDR) C.2.1. Subscriber Premises Radio (SPR) Table C-21: SPR and MAC Specifications Parameter Operating frequency Spectrum spreading method Duplexing Method Comment ISM band Licensed band Unlicensed band Per ETSI EN 301 253 Value 2.4 GHz 3.x GHz, 2.8 GHz, MMDS 5.8 GHz Frequency hopping Time Division Duplex (TDD) 2.4 GHz, 2.8 GHz, MMDS, 3.x GHz, and 5.8 GHz Frequency Division Duplex
(FDD) 3.x GHz Transmit Bit Rates Channel spacing Output power from the radio Up to 27 dBm, configurable at 2.4 Up to 4 Mbps 1 MHz GHz Modulation method Channel access method Protocol efficiency 8 level CPFSK PPMA / Adaptive TDMA Up to 80%
BER and distance dependent Depending on local regulations. Maximum power output can be set at the factory. For large data packets C-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications Table C-22: SPR EMC and Radio Standards Compliance Parameter Radio Standards Compliance EMC Value ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 Parameter Emissions / Immunity Safety Environmental Parameter Filtering rate Forwarding rate Routing table length Parameter Voltage Minimum Maximum Consumption Table C-23: SPR Agency Certification Value Comment EN 300 339, EN 300 386-2, ETS 300 328 EN/IEC 60950 ETS 300 019-2-x Table C-24: SPR Network Specifications Value 10,500 frames / sec 1,300 frames / sec 16 Comment At 64 bytes At 64 bytes Table C-25: SPR Power Requirements Value 48 VDC nominal 30 VDC 55 VDC Maximum Comment Power supplied from the SDA 500 mA 02030311-05 Airspan Networks Ltd. C-13 Technical Specifications Hardware Installation Guide Parameter Operating temperature Storage temperature Parameter Ethernet Network Standards Compliance Serial Port Table C-26: Environmental Considerations Value
-30C to +60C
-40C to +80C Table C-27: Network Interface Value Comment UTP EIA / TIA ANSI/IEEE 802.3 and ISO/IEC 8802-3; 10BaseT compliant RS-232 Category 5 Height Width Depth Weight Height Width Depth Weight Table C-28: SPR Physical Dimensions (w/o High Gain Antenna) Parameter Value 311 mm (12.24 inches) 244 mm (9.6 inches) 65.5 mm (2.57 inches) 2.5 kg Comment Excluding mounting kit Table C-29: SPR Physical Dimensions (with High Gain Antenna) Parameter Value 400 mm (15.74 inches) 317 mm (12.48 inches) 65.5 mm (2.57 inches) 4.7 kg Comment Excluding mounting kit Note: The SPR cable and connector are the same as the BSR. C-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications C.2.2. Subscriber Data Adapter (SDA) C.2.2.1. SDA-1 Table C-30: SDA-1 Physical Dimensions Parameter Value Height Width Depth Weight 200 mm 150 mm 40 mm 47 kg Parameter Output Voltage Power supply Table C-31: SDA Power Requirements Value
-48VDC nominal 110-240 VAC, 50/60Hz, 0.3-0.7A Table C-32: SDA-1 Environmental Considerations Parameter Operating temperature 0C to +50C Value Parameter Data from SPR/BSR Ethernet Power Table C-33: SDA-1 Network Interfaces Value DB15 RJ45 socket for a PC interface AC power connector 02030311-05 Airspan Networks Ltd. C-15 Technical Specifications Hardware Installation Guide C.2.2.2. SDA-4H Table C-34: SDA-4-H Physical Dimensions Parameter Value Height Width Depth Weight 200mm 150mm 40mm 53 kg Parameter Output Voltage Power supply Table C-35: SDA-4H Power Requirements Value
-48VDC nominal 110-240 VAC, 50/60Hz, 0.3-0.7A Table C-36: SDA-4H Environmental Considerations Parameter Operating temperature 0C to +50C Value Parameter Data from SPR/BSR Ethernet Power Table C-37: SDA-4H Network Interfaces Value DB15 Three RJ45 socket for a PC interface; one RJ-45 for cross over connection AC power connector C-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications C.2.2.3. SDA-4S Models Table C-38: SDA-4S Physical Dimensions Parameter Value Height Width Depth Weight 200 mm (7.87 inches) 150 mm (5.9 inches) 40 mm (1.57 inches) 53 kg Parameter Output Voltage Power supply Table C-39: SDA-4S Power Requirements Value
-48VDC nominal 110-240 VAC, 50/60 Hz, 0.3-0.7A Table C-40: SDA-4S Environmental Considerations Parameter Operating temperature 0C to +50C Value Parameter Data from SPR/BSR Ethernet Power Table C-41: SDA-4S Network Interfaces Value 15-pin D-type Four 8-pin RJ-45 10/100BaseT sockets for PC interface. These ports support 10/100 Mbps Autosensing (Autonegotiation), and MDI/MDI-X automatic crossover AC power connector 02030311-05 Airspan Networks Ltd. C-17 Technical Specifications Hardware Installation Guide C.2.3. Indoor Data Radio (IDR) Table C-42: IDR Radio and MAC Specifications Parameter Operating frequency Spectrum spreading method Duplex Method Transmit Bit Rates Channel spacing Output power from the radio Value 2.4 GHz 3.45 GHz 3.5 GHz 900 MHz Frequency hopping Time Division Duplex (TDD) at 2.4 GHz and 900 MHz Frequency Division Duplex
(FDD) at 3.5 GHz and 3.45 GHz Up to 4 Mbps 1 MHz Up to 27 dBm, configurable at 2.4 GHz Channel access method Protocol efficiency PPMA Up to 80%
Comment
(Per ETSI ETS 300 328) ARIB-STD-T66 Depending on BER Depending on local regulations. Maximum power output can be set at the factory. At BER = 10-5, depending on the application C-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Technical Specifications Table C-43: IDR EMC and Radio Standards Compliance Parameter Radio Standards Compliance EMC Value ETSI EN 300 328-1 ETSI EN 301 253 FCC part 15 RSS139 Telec ETSI ETS 300 826 ETSI EN 300 385 ETSI EN 300 386-2 ETSI ETS 300 132-2 FCC part 15 Parameter Emissions / Immunity Safety Environmental Table C-44: IDR Agency Certification Value VCCI Class A ARIB-STD-T66 ETSI 300 386-2 EN/IEC 60950 ETS 300 019-2-x Table C-45: IDR Network Specifications Parameter Filtering rate Forwarding rate Value 10,500 frames/sec 1,300 frames/sec Comment At 64 bytes At 64 bytes Table C-46: IDR Power Requirements Value Parameter External Power Supply Voltage Operating Frequency Range Maximum Power consumption Minimum: 100 VAC Maximum: 240VAC 50 to 60 Hz Less than 15W 02030311-05 Airspan Networks Ltd. C-19 Technical Specifications Hardware Installation Guide Table C-47: IDR Environmental Considerations Parameter Operating temperature Operating Humidity Storage temperature Value 0-50C
+30C 93%
-40 70C Comment Maximum humidity Parameter Ethernet Network Standards Compliance Serial Port Parameter Weight Dimensions (H x W x D) Table C-48: IDR Network Interface Value Comment UTP EIA / TIA ANSI/IEEE 802.3 and ISO/IEC 8802-3 10Base-T compliant RJ-11 Category 5 Table C-49: IDR Physical Dimensions Value Comment 1,430 g 155 mm (6.1 inches) x 233 mm (9.17 inches) x 74.5 mm (2.93 inches) 120.5 mm (4.74 inches) x 61mm (2.4 inches) x 35 mm (1.37 inches) IDR with built-in antenna IDR with an external antenna Note: Dimensions exclude the external power adapter. Table C-8: IDR Pole Mounting Dimensions Parameter Value Minimum pole diameter Maximum pole diameter 35 mm (1.37 inches) 50 mm (1.97 inches) C-20 Airspan Networks Ltd. 02030311-05 D Summary of Connector Summary of Connector Summary of Connector Summary of Connector Pinouts Pinouts Pinouts Pinouts This appendix provides a summary of the connector pinouts for the WipLL devices. D.1. BSR/SPR-to-BSDU/SDA CAT 5 Connector Pinouts Table D-1 describes the 15-pin D-type connector pinouts for the CAT 5 cable that connects the BSRs/SPRs 15-pin D-type port to the BSDUs/SDAs 15-pin D-type port. Table D-1: 15-pin D-type to 15-pin D-type connector pinouts 15-pin D-type male BSR/SPR Pin Function Wire color Wire BSDU/SDA pair Pin 1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Tx+
Tx-
Rx+
Rx-
Sync.+
Sync.-
Blue / white Blue Orange / white Orange Green / white Green Brown / white Brown 1 2 3 4 1 2 3 4 5 6 7 8 Function
+48 VDC
-48 VDC Rx+
Rx-
Tx+
Tx-
Sync.+
Sync.-
02030311-05 Airspan Networks Ltd. D-1 Summary of Connector Pinouts Hardware Installation Guide Notes:
- Pins 9 through 15 of the 15-pin D-type connector are not used.
- The wire color-coding described in the table is WipLLs standard for wire color-coding. However, if you implement your companys wire color-coding scheme, ensure that the wires are paired and twisted according to the pin functions listed in Table D-1 (e.g., Rx+ with Rx-). WipLL uses the following wire color-coding standards for CAT 5 cables with 15-pin D-type to 15-pin D-type connectors on either ends (8 wires used):
Figure D-1: WipLL wire color-coding for 15-pin D-type connectors Note: The wires are twisted together in pairs, for example, blue/white with blue, and orange/white with orange. This prevents electrical interference between the transmitter pins. For example, pin 3 (Tx+; orange / white) is paired and twisted with pin 4 (Tx-; orange). D-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Summary of Connector Pinouts D.2. SPR Serial Connector Pinouts For BSR and SPR serial connections, a Y-cable is used. The Y-cable connects the BSR and SPR to the BSDU and SDA, respectively, as well as to the PC running the WipLL management application. Figure D-2 displays the Y-cable used to split the BSR/SPR 15-pin D-type port into two. PC 9-pin D-type female SPR 15-pin D-type male Figure D-2: Y-cable for serial connection Connector pinouts are described in the following tables:
SDA 15-pin D-type male Table D-2: Y-cable SPR-to-SDA connector pinouts Straight-through Y-cable SPR Pin 15-pin D-type male Function Pin SDA Function 15-pin D-type male 1 2 3 4 5 6 7 8 0 VDC
+48 VDC Ethernet Tx+
Ethernet Tx-
Ethernet Rx+
Ethernet Rx-
Hop Sync+
Hop Sync-
1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Rx+
Rx-
Tx+
Tx-
Sync.+
Sync.-
02030311-05 Airspan Networks Ltd. D-3 Summary of Connector Pinouts Hardware Installation Guide Table D-3: Y-cable SPR-to-PC connector pinouts Straight-through Y-cable SPR PC 15-pin D-type male Pin Function Pin Function 9-pin D-type female 12 14 GND RS232 Rx 15 RS232 Tx 5 3 2 GND Rx Tx The Y-cable connector pin assignments are displayed shematically in Figure D-3. Figure D-3: Y-cable connector pin assignment D-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Summary of Connector Pinouts D.3. BSR Serial Connector Pinouts The BSR provides a serial port for RS-232 serial interface to a PC. This serial communication connection allows you to perform BSR initial configuration. Table D-4: BSR-to-PC serial connector pinouts Crossover serial cable BSR PC 9-pin D-type male Pin Function Pin Function 9-pin D-type female 1 2 3 4 5 6 7 8 9 Not connected
(NC) RS232 Rx RS232 Tx NC GND NC NC NC NC 1 3 2 6 5 4 8 7 9 NC Tx Rx NC GND NC NC NC NC 02030311-05 Airspan Networks Ltd. D-5 Summary of Connector Pinouts Hardware Installation Guide D.4. BSDU Connector Pinouts D.4.1. BSDU Daisy Chaining Table D-5: BSDU daisy chaining connector pinouts Crossover cable 8-pin RJ-45 Pin Name Description 8-pin RJ-45 Pin 1 2 3 6 Tx+
Tx-
Rx+
Rx-
Transmit Data+
Transmit Data-
Receive Data+
Receive Data-
3 6 1 2 D.4.2. BSDU Synchronization
! Sync IN Table D-6: BSDU synchronization (Sync IN) connector pinouts Straight-through cable 8-pin RJ-45 male Name Description Pin 1 2 3 4 5 6 7 8 TD+
TD-
Rx+
NC NC Rx-
1PPS+
1PPS-
Transmit data to GPS Transmit data from GPS Receive Data (hop synchronization) Not connected Not connected Receive Data (hop synchronization) GPS pulse per second GPS pulse per second D-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Summary of Connector Pinouts
! Sync OUT Table D-7: BSDU synchronization (Sync OUT) connector pinouts Straight-through cable 8-pin RJ-45 male Name Description Pin 1 2 3 4 5 6 7 8 TD+
TD-
Tx+
RD+
RD-
Tx-
1PPS+
1PPS-
Transmit data to GPS Transmit data from GPS Transmit Data (hop synchronization) Receive Data (from GPS) Receive Data (to GPS) Transmit Data (hop synchronization) GPS pulse per second GPS pulse per second D.4.3. BSDU Serial Management The BSDUs serial management 9-Pin D-type port (labeled Monitor) allows you to connect the WipLLs network management system (WipConfig) to BSDU without assigning BSDU an IP address. Table D-8: BSDU serial management connector pinouts Straight-through 9-Pin D-type male Signal Pin 2 Rx 3 Tx 02030311-05 Airspan Networks Ltd. D-7 Summary of Connector Pinouts Hardware Installation Guide D.4.4. BSDU PC Network Management For BSDU network management, you can connect the BSDUs two 10BaseT ports
(i.e., loop the ports) to one another by a crossover cable, then connect the PC to one of the BSDUs 100BaseT ports. If the two BSDU 10BaseT ports are not connected to one another, then you need to connect the PC to the BSDUs right-most 10BaseT port (labeled 10Base-T 2).
! Looping two 10Base-T ports:
Table D-9: BSDU 10Base-T connector pinouts for looping Crossover cable 8-pin RJ-45 male Signal Pin 1 2 3 6
+Rx
-Rx
+Tx
-Tx
! 100Base-T port connected to PC Table D-10: BSDU 100Base-T connector pinouts for management Straight-through cable 8-pin RJ-45 Pin Function 1 2 3 6
+Tx
-Tx
+Rx
-Rx D-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Summary of Connector Pinouts D.4.5. BSDU 100Base-T Table D-11: BSDU 100Base-T LAN/WAN connector pinouts Straight-through cable 8-pin RJ-45 Pin Name Description 1 2 3 6 Tx+
Tx-
Rx+
Rx-
Transmit Data+
Transmit Data-
Receive Data+
Receive Data-
D.5. GPS-to-BSDU Connector Pinouts The following table lists the connector pinouts for the cable connecting the GPS antenna to the BSDU. Table D-12: GPS-to-BSDU connector pinouts 12-pin female (GPS) 15-pin D-type male (BSDU) Pin Pin name 1 2 3 4 5 6 7 9 11 12 POWER RX_DATA_1-
RX_DATA_1+
TX_DATA_1-
TX_DATA_1+
RX_DATA_2-
RX_DATA_2+
GND 1PPS+
1PPS-
Cable color Red Blue Black Yellow Black Brown Black Black Green Black 9 5 6 4 3 x x 10 8 7 Pin Lead TD+ (after R5) TD-
RD-
RD+ (after R3) 1PPS-
1PPS+ (After R7) 02030311-05 Airspan Networks Ltd. D-9 Summary of Connector Pinouts Hardware Installation Guide D.6. Connector Pinouts for BSPS Serial Management via BSDU Table D-13: BSPS serial management connector pinouts BSDU BSPS 9-pin D-type female Pin Function Pin Function 8-pin RJ-45 2 3 5 Rx Tx GND 6 3 5 Tx Rx GND D.7. IDR Connector Pinouts D.7.1. Serial Management Connection Serial connection of the IDR to a PC is performed by connecting the IDRs RJ-11 port to the serial port (9-pin D-type) of the PC. Table D-14: IDR serial management connector pinouts Straight-through cable (IDR side) 9-Pin D-type 6-Pin RJ-11 male female Pin 1 5 6 Function Pin Rx GND Tx 2 5 3 4 1 3 Crossover cable (PC side) 9-Pin D-type 9-Pin D-type male Pin female Pin 3 5 2 D-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Summary of Connector Pinouts D.7.2. Ethernet LAN Connection The table below describes the connector pinouts for the Ethernet cable (CAT 5) that connects the IDRs Ethernet port to the PCs LAN port, using an 8-pin RJ-45 connector. Table D-15: BSPS Ethernet LAN connector pinouts 8-pin RJ-45 Pin Function 1 2 3 6 Rx+
Rx-
Tx+
Tx-
02030311-05 Airspan Networks Ltd. D-11 Summary of Connector Pinouts Hardware Installation Guide D.8. SDA Ethernet LAN Connector Pinouts
! For SDA-1, SDA-4H (J2, J3, J4), and SDA-4S models (also for VoIP networks):
Table D-16: SDA Ethernet LAN connector pinouts Straight-through cable 8-pin RJ-45 male Function Pin 1 2 3 6
! For J5 port on the SDA-4H:
+RX
-RX
+TX
-TX Table D-17: SDA Ethernet LAN connector pinouts Crossover cable 8-pin RJ-45 male Pin Function 1 2 3 6
+Tx
-Tx
+Rx
-Rx D-12 Airspan Networks Ltd. 02030311-05
1 | Users Manual Chapter 10 Revised | Users Manual | 655.08 KiB |
10 Installing the IDR Installing the IDR Installing the IDR Installing the IDR This chapter describes the installation of the WipLL Indoor Data Radio (IDR), which is installed at the base station. This chapter includes the following sections:
! Overview
! Physical Dimensions and Basic Design
! Mounting the IDR
! Desk Mounting
! Wall and Pole Mounting
! Connecting a Third-Party External Antenna
! Connecting to an Ethernet Network
! Positioning IDR for Optimum RF Reception
! Connecting to PC for Serial Configuration
! Connecting Power
! Power LEDs Warning: When operating in the 900 MHz band, the IDR model with an external antenna must not be co-located or operating in conjunction with any other antenna or transmitter. 02030311-06 Airspan Networks Ltd. 10-1 Installing the IDR Hardware Installation Guide 10.1. Overview The IDR device is an optional WipLL device that combines the functionality of the SPR and SDA devices. The IDR has a built-in antenna that provides an interface for transmission with the base station. In addition, the IDR provides an interface for 10Base-T Ethernet with the subscribers network. However, unlike the SDA, a separate power supply unit (power adapter) powers the IDR. The IDR is available in two models:
! IDR with an internal antenna
! IDR with a TNC connector for connecting to a third-party external antenna RF link RF link to BSR to BSR Optional external Optional external Optional external Optional external Optional external Optional external Optional external Optional external antenna antenna antenna antenna antenna antenna antenna antenna RF cable RF cable IDR IDR PC PC Figure 10-1: Typical IDR setup at subscribers premises (showing optional antenna) 10-2 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR Warning: To avoid electrical or fire hazard, ensure that all connections to the IDR are performed prior to connecting the power supply. Note: The digital portion of the transceiver has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment on and off, the user is encouraged to try correct the interference by performing one or more of the following measures:
- Reorientate or relocate the receiving antenna
- Increase separation between the equipment and receiver
- Connect the equipment to an outlet on a circuit different from that to which the receiver is connected
- Consult the dealer or an experienced radio/TV technician for help 02030311-06 Airspan Networks Ltd. 10-3 Installing the IDR Hardware Installation Guide 10.2. Physical Dimensions and Basic Design The IDR is encased in a chassis providing access to the IDRs communication port at the front panel. Chassis cover bolt LEDs RJ-45 10Base-T port TNC-type connector for 3rd party external antenna RJ-11 serial port Molex 6-pin power port Figure 10-2: IDR front panel with cover removed exposing ports The IDRs physical dimensions are described in Table 10-1. Table 10-1: IDR physical dimensions Parameter Value Weight Dimensions (H x W x D) IDR with built-in antenna IDR with an external antenna 1,43 kg 155 mm (6.1 inches) x 233 mm (9.17 inches) x 74.5 mm (2.93 inches) 120.5 mm (4.74 inches) x 61mm (2.4 inches) x 35 mm (1.37 inches) Comment Note: Dimensions exclude the external power adapter. 10-4 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR 10.3. Mounting the IDR The IDR may be mounted in the following ways:
! Desk
! Pole
! Wall Note: Before mounting or attaching any brackets to the IDR, ensure that all cables are securely attached and that the unit functions correctly in the proposed location. 10.3.1. Desk Mounting The IDR may be mounted on a desk in one of the following ways:
! Vertically
! Horizontally 02030311-06 Airspan Networks Ltd. 10-5 Installing the IDR Hardware Installation Guide 10.3.1.1. Vertical-Desk Mounting A base plate is provided to mount the unit vertically on the desk, i.e., in standing position. The base plate is designed to fit in one position only. To desk mount the IDR in a vertical position:
! Insert the IDR into the base and press firmly until the tabs click into place. See Figure 10-3. Desk-
mounting plate Figure 10-3: IDR vertical desk mounting 10-6 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR 10.3.1.2. Horizontal-Desk Mounting To position the IDR horizontally on the desk, four rubber pads, supplied with the unit, must be fitted to avoid damage to mounting surfaces. mTo desk mount the IDR in a horizontal position:
! Secure the rubber pads to the posts provided on the rear of the IDR using four self-tapping screws. See Figure 10-4. Rubber foot Screw Figure 10-4: IDR horizontal desk mounting using supplied rubber pads and tapping screws 02030311-06 Airspan Networks Ltd. 10-7 Installing the IDR Hardware Installation Guide 10.3.2. Wall and Pole Mounting The IDR may be mounted to a wall or to a 5-cm diameter pole. Wall and pole mounting both use the same mounting brackets and wall hanger plate. 10.3.2.1. Assembling the Bracket and Hanger Plate The wall hanger plate secures the IDR to a wall or pole. The wall bracket and hanger plate allows positioning the IDR in the correct orientation. Holes are provided in the wall hanger plate for both pole and wall mounting options To assemble the bracket and hanger plate:
1. Insert a 4 mm hex nut into the slot on the tilt arm component 2. Holding the nut in place, attach the tilt arm to the mounting bracket using a 4 mm socket head bolt. Hand tighten the bolt only. See Figure 10-5. 3. Affix the complete mounting assembly to the rear of the IDR using the 4-off self-tapping screws supplied with the kit. Mounting Bracket Screw Tilt Arm Nut Figure 10-5: Mounting bracket assembly 10-8 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR 4. Attach the wall bracket assembly to wall hanger using an M4 socket-head bolt and nut as shown in Figure 10-6. The bolt is only to be hand tightened at this stage. Wall Hanger M-4 nut Screw Mounting bracket assembly Figure 10-6: Wall hanger fixing method Figure 10-7: Wall hanger & mounting bracket assembly 02030311-06 Airspan Networks Ltd. 10-9 Installing the IDR Hardware Installation Guide 5. Once assembled, the IDR mounting bracket assembly may be secured to the rear of the IDR using the 4-off self-tapping screws supplied in the unit fixing kit. See Figure 10-8. Self -
tapping Screws Figure 10-8: Mounting bracket assembly secured to IDR 10-10 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR 10.3.2.2. Pole Mounting Prior to mounting the IDR to a pole the wall mounting bracket assembly must be fitted as described in the previous section. To pole mount the IDR:
1. Offer up the IDR assembly to the pole as shown in Figure 10-9. 2. Insert 2-off M10 bolts through the holes in the wall hanger. 3. Slide the clamp-holder into position and secure using washers, spring-washers and nuts as illustrated in Figure 10-10. Finger-tighten the fasteners. 4. Slide the IDR to the required location on the pole and fully tighten the fasteners. Clamp holder Washer Spring Washer Bolt Hex Nut Figure 10-9: IDR pole mounting components 02030311-06 Airspan Networks Ltd. 10-11 Installing the IDR Hardware Installation Guide Figure 10-10: IDR secured to a pole To set the correct IDR inclination:
1. Loosen the 2-off M4 socket head screws on the mounting bracket tilt-arm 2. Position the IDR at the desired angle. 3. Re-tighten the 2 off socket screws on the tilt arm. 10-12 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR 10.3.2.3. Wall Mounting Warning: Prior to drilling holes in a wall ensure that there are no hidden services such as electricity cables or water pipes. A stop must be used on the power drill to ensure that bored holes do not exceed 35 mm. To mount the IDR on a wall:
1. Loosen the 2-off M4 socket head screws on the mounting bracket tilt-arm and remove the wall hanger. 2. Offer up the wall hanger to the wall and scribe through the mounting hole locations. 3. Drill holes to suit the type of wall fixing. 4. If required insert anchor plugs suited to the wall material. 5. Affix the wall hanger using 4-off screws suited to the anchor plugs and wall material. 6. Re-attach the IDR mounting bracket to the wall hanger. Finger tighten the screws. 7. Position the IDR at the desired inclination. 8. Re-tighten the screws to lock the IDR in position. 02030311-06 Airspan Networks Ltd. 10-13 Installing the IDR Hardware Installation Guide 10.4. Connecting a Third-Party External Antenna The IDR provides a TNC-type connector for connecting a third-party antenna to the IDR. This antenna can be placed on the subscribers windowsill to provide better RF signal reception with the BSR. Note: Airspan supplies unterminated cables for N-type connectors. Therefore, refer to the cable crimping procedures for N-type connectors detailed in Appendix B, Cable Crimping".
! Connector: TNC-type male Warning: Before connecting the external antenna, ensure that the IDR is NOT connected to the power source. 10-14 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR Figure 10-11: Connecting a third-party antenna Warnings:
1) It is the responsibility of the person installing the WipLL system to ensure that when using the outdoor antenna kits in the United States (or where FCC rules apply), that only those antennas certified with the product are used. The use of any antenna other than those certified with the product is expressly forbidden in accordance with FCC rules CFR47 part 15.204. The installer should configure the output power level of antennas according to country regulations and per antenna type. 2) Indoor units and antennas should be installed ONLY by experienced installation professionals who are familiar with the local building and safety codes and are licensed by the appropriate government authorities. 02030311-06 Airspan Networks Ltd. 10-15 Installing the IDR Hardware Installation Guide 10.5. Connecting to an Ethernet Network The IDR provides one Ethernet interface for the subscribers Ethernet network. This port is located on the front panel, and labeled Ethernet.
! Connector: 8-Pin RJ-45
! Cable: CAT-5
! Connector pinouts:
Pin Function 1 2 3 4 5 6 7 8 Rx+
Rx-
Tx+
Not Connected Not Connected Tx-
Not connected Not connected To connect IDR to the subscribers Ethernet network:
1. Attach the 8-pin RJ-45 connector, at one end of the cable, to the IDRs Ethernet port, labeled Ethernet (see Figure 10-12). 2. Attach the 8-pin RJ-45 connector, at the other end of the cable, to the PCs LAN port (see Figure 10-12). 10-16 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR Figure 10-12: Connecting IDR to a client PC 02030311-06 Airspan Networks Ltd. 10-17 Installing the IDR Hardware Installation Guide 10.5.1. Ethernet LED Indicator The IDR provides one LED that indicates an Ethernet connection. This LED is labeled Ethernet and is located on the IDRs top panel. Table 10-2: Description of Ethernet LEDs Indicates Color Orange LED Ethernet Physical link between IDR and Ethernet network No physical link between IDR and Ethernet network Status On Off Blinking Data is flowing through the Ethernet port 10.6. Positioning IDR for Optimum RF Reception Once mounted to a wall, pole, or desk the IDR unit may be positioned to ensure the best RF signal communication with the BSR. The RF signal strength is indicated by three LEDs on the IDR chassis. The following table describes the RF signaling strength indicator LEDs. Table 10-3: Description of RF signal strength LEDs LED Color Function Status Description Green RSSI level RSSI LEDs:
LO, MED, and HI Previous Releases RSSI -60 dBm
-65 dBm RSSI
-61 dBm
-70 dBm RSSI
-66 dBm RSSI -77 dBm
-76 dBm RSSI
-71 dBm Release 4.2B RSSI -60 dBm
-70 dBm RSSI <
-60 dBm
-80 dBm RSSI <
-70 dBm
-90 dBm RSSI <
-80 dBm RSSI < -90 dBm All LEDs On Two LEDs On One LED On One LED Blinking All LEDs Off 10-18 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR Figure 10-13: IDR LED indicators To position the IDR for optimum RF signal:
! Position the IDR until all three RF signaling strength indicator LEDs are lit. Refer to Section 10.3.2, Wall and Pole Mounting page 10-8 for details on adjusting IDR wall and pole mounting position. For desk-top mounting, the IDR can be simply relocated to obtain the strongest signal. 02030311-06 Airspan Networks Ltd. 10-19 Installing the IDR Hardware Installation Guide 10.7. Connecting to PC for Serial Configuration To perform IDR initial configuration, you need to connect the IDRs RJ-11 port to the serial port of a PC running the WipLL network management application (i.e., WipConfig). The IDRs RJ-11 port labeled Serial, located on the front panel, connects to the serial port of a PC via a cable with an RJ-11 connector on the one end, and a 9-Pin D-type connector on the other (i.e., a direct serial cable connection-DCC).
! Connectors:
! 6-Pin RJ-11 male to 9-pin D-type female adapter
! 9-Pin D-type male to 9-Pin D-type female adapter
! Cable:
! Straight-through cable with 6-Pin RJ-11 male on one end and 9-Pin D-type female on the other (connects between IDR and crossover cable)
! Crossover cable with 9-Pin D-type male on one end and 9-Pin D-type female on the other (connects straight-through cable to PC) 10-20 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR
! Connector pinouts:
Straight-through cable Crossover cable 6-Pin RJ-11 Pin 1 2 3 4 5 6 Function Rx Not connected NC NC GND Tx 9-Pin D-type female Pin 9-Pin D-type male Pin 9-Pin D-type male Pin 2
5 3
4
1 3
3
5 2
To connect the IDR to the WipLL management station (PC):
1. Connect the 6-Pin RJ-11 connector to the IDRs RJ-11 port (labeled Serial) located on the IDRs front panel (see Figure 10-14). 2. Connect the 9-Pin D-type female connector, at the other end of the straight-
through cable, to the 9-Pin D-type male connector of the cross-over cable (see Figure 10-14). 3. Connect the 9-Pin D-type male connector, at the other end of the cross-over cable, to the PCs serial port (see Figure 10-14). 02030311-06 Airspan Networks Ltd. 10-21 Installing the IDR Hardware Installation Guide Figure 10-14: IDR-to-PC Serial Cable Connections 10-22 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR 10.8. Connecting Power The IDR is powered by an external power supply (Triple Output External Adapter). The IDR connects to the power adapter via the IDRs power port located on the IDRs front panel. The following table lists the external power supply specifications:
Table 10-4: IDR power supply requirements Power parameter Voltages Frequency Maximum power consumption Units 110-240 VAC 50 to 60Hz Less than 15W Warning: If you are using an external antenna, ensure that you connect the antenna before connecting the BSR to the power source. Warning: Ensure that plugs fitted to mains power leads for subscriber premises equipment are compatible with AC mains sockets. Do not replace plugs on power leads to suit local requirements without first verifying earthing practice for the country and equipment in question. Careful consideration must be given to issues including local wiring requirements, cable color-coding, and safety earthing and circuit protection requirements. Warning: To avoid electrical or fire hazard, ensure that the data connections to the IDR are made prior to connecting the power supply.The AC mains must be capable of supplying at least 230 VAC Prior to connecting to the power outlet, the following pre-connection inspection should be performed on power sockets:
! Power socket shall be visually inspected to ensure that no other equipment is connected to the power outlet. 02030311-06 Airspan Networks Ltd. 10-23 Installing the IDR Hardware Installation Guide
! There is no physical sign of damage to the power outlet.
! There should not be any visible sign of water or dampness on or around the power outlet.
! The plug and socket assemblies are to be firmly secured.
! The power outlet shall be checked using a proprietary plug tester such as a
Martindale Ze type. Checks are required to verify the earth loop impedance value and the presence of phase, neutral and earth connections.
! Connector: 6-Pin power connector
! Cable: 3-core 0.7mm type
! Connector pinouts:
Pin Function 1 2 3 4 5 6
+6.5V
+5V 3.3V GND Not connected Not connected To connect the power:
1. Plug the AC power adapters 6-pin Molex connector into the IDRs power port labeled Power (see Figure 10-15). 2. Plug the AC power plug female, at the one end of the AC power cable, into the AC power adapters socket (see Figure 10-15). 3. Plug the AC power plug male, at the other end of the AC power cable, into the electrical outlet (see Figure 10-15). 10-24 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Installing the IDR Figure 10-15: Connecting power to the IDR 02030311-06 Airspan Networks Ltd. 10-25 Installing the IDR Hardware Installation Guide 10.8.1. Power LEDs The IDA provides a power LED indicator, labeled Power, which indicates whether a power supply exists. The Power LED is located on the front panel of the IDR chassis. Table 10-5: Description of Power LEDs LED Power Color Red Status On Off Meaning The SDA receives power supply No power received 10-26 Airspan Networks Ltd. 02030311-06
1 | Users Manual Chapter 2 Revised | Users Manual | 300.09 KiB |
2 Safety Guidelines Safety Guidelines Safety Guidelines Safety Guidelines This chapter outlines general safety guidelines when installing the WipLL system. This chapter includes the following sections:
! General Safety Guidelines
! Electrical Safety Guidelines
! Handling Electrostatic Devices
! Grounding
! Lightening Protection
! Installing Outdoor Units and Third-Party External Antennas
! Radio Interference Prevention
! Cabling
! General
! Labeling 02030311-06 Airspan Networks Ltd. 2-1 Safety Guidelines Hardware Installation Guide 2.1. General Safety Guidelines The following lists general safety guidelines when working with the WipLL equipment:
! The user and the installer should be aware that changes and modifications not expressly approved by Airspan Networks could void the users authority to operate the equipment.
! Never install equipment that is damaged.
! Only qualified personnel should be allowed to install, replace, and service the WipLL equipment. 2.2. Electrical Safety Guidelines The following lists electrical safety guidelines when working with the WipLL equipment:
! Disconnect all power when installing
! Never install the equipment during stormy weather and lightening 2-2 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Safety Guidelines 2.2.1. Handling Electrostatic Devices Electrostatic devices are those devices that may be damaged by the inadvertent discharge of static electricity from a charged body. The risk of damage, due to electrostatic discharge (ESD) to a device, may cause the device to fail suddenly, or it may induce a partial defect within the device, which will cause subsequent premature failure. Static electricity can result from operators walking on floors, moving around on chairs, from the movement of operators clothing or even casual brushing against racks, benches or walls. Airspan recommends the following guidelines to be adopted to minimize the risk of component failure due to electrostatic discharge to the device:
! WipLL devices are provided typically in see-through anti-static bags. Wherever possible, checking and inspection of a unit should occur without removing it from the bag.
! All operators shall wear the approved conductive overall.
! Where operators come into direct contact with any piece of electronic hardware, operators must wear an ESD-preventive wrist strap. All straps and cords should be tested using a Wrist Strap Tester prior to use. The wrist strap cords shall have a 2 Meg Ohm resistor fitted at either end. Wrist straps should be worn in direct contact with bare skin and not over clothing. Warning: Under no circumstances is it permissible for units to be handled by unprotected operators. 02030311-06 Airspan Networks Ltd. 2-3 Safety Guidelines Hardware Installation Guide Site Base Station 2.2.2. Grounding Only certain WipLL devices require additional grounding. WipLL devices that do not require additional grounding have grounding at the main supply outlet. The following table lists the WipLL devices grounding requirements. Grounding Through the mains (via BSDU) Additional grounding required (grounding lug at rear end of chassis) Additional grounding required (grounding lug at rear end of chassis) Through the mains (via SDA) Through the mains WipLL device BSR BSDU SPR IDR BSPS CPE 2.3. Lightening Protection WipLL devices comply to the Surge Immunity standard: EN 61000-4-5. WipLL devices are protected from lightening surges as the outdoor devices (BSRs and SPRs) are encased in a plastic chassis. Therefore, if lightening strikes the device, an electrical circuit cannot be completed, and hence, no electrical surge can occur. In addition, WipLL outdoor and indoor (SDA) devices provide high speed data line protection against direct and induced transient over-voltages surges on the cables. This capability is provided by the fact that all WipLL device are designed with TVS
(transient voltage suppressor) components that maintain potential differences. However, for geographical areas that have above normal lightening activity, Airspan can supply a surge protector composed of a 15-pin D-type adapter with a grounding wire. 2-4 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Safety Guidelines 2.4. Installing Outdoor External Antennas
& Indoor Units and Third-Party Warning: It is the responsibility of the person installing the WipLL system to ensure that when using the outdoor antenna kits in the United States (or where FCC rules apply), that only those antennas certified with the product are used. The use of any antenna other than those certified with the product is expressly forbidden in accordance with FCC rules CFR47 part 15.204. The installer should configure the output power level of antennas according to country regulations and per antenna type. Warning : Outdoor, Indoor units and antennas should be installed ONLY by experienced installation professionals who are familiar with local building and safety codes and, wherever applicable, are licensed by the appropriate government regulatory authorities. Failure to do so may void Airspans WipLL product warranty and may expose the end user or the service provider to legal and financial liabilities. Airspan and its resellers or distributors are not liable for injury, damage or violation of regulations associated with the installation of outdoor units or antennas. Warning: When operating in the 900 MHz band, the IDR model with an external antenna must not be co-located or operating in conjunction with any other antenna or transmitter. Warnings:
1) The device cannot be sold retail, to the general public or by mail order. It must be sold to dealers. 2) Installation must be controlled. 3) Installation must be performed by licensed professionals. 4) Installation requires special training. 02030311-06 Airspan Networks Ltd. 2-5 Safety Guidelines Hardware Installation Guide 2.6. Radio Interference Prevention The digital portion of the transceiver has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment on and off, the user is encouraged to try correct the interference by performing one or more of the following measures:
! Reorientate or relocate the receiving antenna
! Increase separation between the equipment and receiver
! Connect the equipment to an outlet on a circuit different from that to which the receiver is connected
! Consult the dealer or an experienced radio/TV technician for help Warning: The WipLL transceivers emit microwave radiation; a minimum distance of 200 mm must be maintained from the front of the device, and a minimum separation of 1 meter must exists between adjacently installed WipLL transceivers. 2.7. Cabling This section defines the cabling procedures to be adopted during WipLL equipment installations at both base station and subscriber premises. 2.7.1. General A summary of issues to be considered during cabling of WipLL base station and customer premises equipment is as follows:
2-6 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Safety Guidelines
! Cable routes are to be defined in the site-specific documentation.
! Data and DC power cables running parallel to AC power cables shall be separated by a minimum distance of 200 mm. However, it is permissible to allow these cables to cross each other at right angles.
! Observe recommended minimum bend radii when installing copper cables. Wherever a cable changes direction, ensure that it does so in a smooth curve with a radius of at least 50 mm to prevent damage.
! Plastic ties and wraps are to be used to secure cables to trays and guides. Ensure all trimmed ends are disposed of safely and at regular intervals.
! Data cables of less than 20 pair shall be mixed in bundles not exceeding 50 mm in diameter.
! Ensure cables are not trapped in cabinet doors, by slide-in equipment or support metalwork.
! Excessive stress on cable terminations caused by taught cables should be avoided. Connector strain relief, if not built into the connector used, shall be provided by means of a strategically located cable tie.
! A maintenance loop or a generous amount of cable slack shall be provided to allow for equipment removal without disturbance to adjacent cables.
! Cables run in guides or on trays shall be kept as flat as possible and secured at regular intervals using cable ties. Note: Prior to the commencement of any installation, commissioning work at
live sites it is the responsibility of the Airspan engineer to advise the customers representative before any activity commences. If in doubt assume equipment is live. Warning: Disturbance of cables on an In-Service exchange can cause loss of service. Extreme care must be taken when installing cables at any customer or subscriber premises. 02030311-06 Airspan Networks Ltd. 2-7 Safety Guidelines Hardware Installation Guide 2.7.2. Labeling The following labels are required to be fitted to WipLL equipment:
! Voltage Warning
! High Earth Leakage Current
! Signal Cable Designation 2.7.2.1. Voltage Warning
! Where mains power is fed from separate phases, then appropriate warning labels must be fitted to warn of the increased danger.
! The AC equipment used in the BSPS cabinet must carry a relevant voltage warning label specific to the country in which it is being installed. The label will be fitted to the cabinet doors displaying an electrical hazard symbol, the local operating voltage and the letters AC.
! A power feed identification label (e.g. PWR A) shall be applied in the following locations:
! On the rear of the main power rack adjacent to the terminal block
! Attached to BSPS AC mains power plug or lead
! Attached to the customer mains power socket or distribution rail
! On the BSPS power circuit connection at the fuse board Warning: Voltages over 30 Volts AC and 50 Volts DC are categorized as hazardous. Hazard warning labels should be fitted where required. Certain countries require equipment warning and instruction labels to appear in the local local requirements regarding labels are given consideration. installing WipLL equipment ensure language. When that 2-8 Airspan Networks Ltd. 02030311-06 Hardware Installation Guide Safety Guidelines 2.7.2.2. High Earth Leakage Current If equipment earth leakage current exceeds 3.5 mA, a warning label as shown in Figure 2-1 will be fitted to the rear of the main power rack alongside the AC inlet terminal block. WARNING HIGH LEAKAGE CURRENT Earth connection essential Before connecting supply Figure 2-1: Warning label if earth leakage current exceeds 3.5 mA 02030311-06 Airspan Networks Ltd. 2-9 Safety Guidelines Hardware Installation Guide 2.7.2.3. Signal Cable Designation A wrap around identification label, similar to that shown in Figure 2-2, is to be fitted to both ends of WipLL data cables. Care should be taken to ensure that the cable identification information is clearly visible. The labels are to be supplied with the installers folder. Identify the cable as detailed in the CROL supplied by Contract Engineering. Fit the label 100 mm from the cable end. Wrap the label ensuring good adhesion to cable and itself. From BDSU 1/1 To SPR 1 To SPR 1 From BDSU 1/1 BSDU End SPR End Figure 2-2: Typical signal cable identification label 2-10 Airspan Networks Ltd. 02030311-06
1 | Users Manual Part 2A | Users Manual | 1.65 MiB | February 01 2004 |
3 Part List and Required Tools Part List and Required Tools Part List and Required Tools Part List and Required Tools This chapter discusse the following:
! Unpacking and veifying contents
! Required tools 3.1. Unpacking and Verifying Contents Warning: Examine the WipLL shipping container. If you notice any damage, or missing items, immediately notify the carrier that delivered the unit and contact the Airspan representative. The WipLL hardware equipment can be divided into two parts:
! Base station equipment
! CPE equipment 3.1.1. Base Station Equipment Certain base station equipment is required while others are optional equipment, depending on the type of configuration and includes the following:
! Base Station Radio (BSR)required
! Base Station Distribution Unit (BSDU)optional
! Base Station Power System (BSPS)optional
! GPS antennaoptional 02030311-05 Airspan Networks Ltd. 3-1 Part List and Required Tools Hardware Installation G 3.1.1.1. BSR The BSR kit includes the following components:
! BSR chassis
! Mounting equipment that includes:
! Mounting brackets
! Mounting screws:
Washers 4 x screws Bolts
! Connectors:
! 15-Pin D-type (for data and serial interface, and power)
! N-type (optional for third-party external antenna) Figure 3-1: BSR kit 3-2 Airspan Networks Ltd. 02030311-05 Hardware Installation G Part List and Required Tools 3.1.1.2. BSDU (optional) The BSDU interfaces between the BSR and the backhaul network, as well as used for daisy-chaining BSR units. The BSDU kit includes the following connectors:
! Mounting: four off M5 screws and plastic-cup washers
! 6 x RJ-45: two each for 100Base-T, 10Base-T, and clock synchronization
! 2 X 9-Pin D-type (for monitor and management)
! 7 x 15-Pin D-type (for power, Ethernet, daisy-chaining BSRs, and GPS)
! Power cable Figure 3-2: BSDU kit 02030311-05 Airspan Networks Ltd. 3-3 Part List and Required Tools Hardware Installation G 3.1.1.3. BSPS (optional) The BSPS is an optional power redundancy unit (DC-UPS). The BSPS includes the following parts:
! Rectifier
! DC Distribution
! System Controller 3.1.1.4. GPS (optional) The GPS antenna synchronizes base stations by providing a universal satellite clock signal.
! 5,15, or 50 meter mating cable
! 5/8 adapter
! Magnet mount Figure 3-3: GPS kit 3-4 Airspan Networks Ltd. 02030311-05 Hardware Installation G Part List and Required Tools 3.1.2. Customer Premises Equipment WipLL hardware installed at the customers site includes the following:
! Subscriber Premises Radio (SPR)
! RSSI LED Plug (optional - for measuring SPRs RSSI levels)
! Subscriber Data Adapter (SDA)
! Indoor Unit (IDR)optional, instead of the SPR and SDA 3.1.2.1. SPR The SPR consists of the following parts:
! SPR chassis
! Mounting equipment that includes:
! Mounting bracket
! 2 x Screws
! 2 x Bolts
! 4 x Washers
! 15-Pin D-type connector Figure 3-4: SPR kit 02030311-05 Airspan Networks Ltd. 3-5 Part List and Required Tools Hardware Installation G 3.1.2.2. RSSI LED Plug The RSSI LED Plug can be connected to the SPR for measuring SPR received signal strength indication level. The RSSI LED Plug kit includes the following parts:
! RSSI LED plug providing LED lights and two 15-pin D-type ports
! 1-meter straight-through cable 3.1.2.3. SDA The SDA is an Ethernet hub that connects to the main power supply and provides data connection to the SPR. The SDA is available in three main models:
! SDA-1
! SDA-4H
! SDA-4S 3-6 Airspan Networks Ltd. 02030311-05 Hardware Installation G Part List and Required Tools 3.1.2.3.1. SDA-1 The SDA-1 provides one 10Base-T connection to a host PC or network. The SDA-1 includes the following parts:
! SDA-1 chassis
! Power cable Figure 3-5: SDA-1 kit 3.1.2.3.2. SDA-4H The SDA-4H includes four interfaces: three for PC connection; one for daisy-
chaining to another hub or a LAN switch. The SDA-4H includes the following parts:
! SDA-4H chassis
! Power cable Figure 3-6: SDA-4H kit 02030311-05 Airspan Networks Ltd. 3-7 Part List and Required Tools Hardware Installation G 3.1.2.3.3. SDA-4S The SDA-4S includes four 10/100Base-T interfaces for PC connection. The SDA-4S kit includes the following parts:
! SDA-4S chassis
! Power cable Figure 3-7: SDA-4S kit 3-8 Airspan Networks Ltd. 02030311-05 Hardware Installation G Part List and Required Tools 3.1.2.4. IDR kit The IDR unit is an optional customer premises equioment that replaces the SPR and SDA. The IDR combines the SPR and SDA in one unit. The IDR is available in two models: IDR with external antenna; IDR with internal antenna. These two IDR models have the same parts, except that the IDR with external antenna model has a connector for attaching a third-party antenna. The IDR unit includes the following parts:
! Chassis
! Power cable
! Power supply unit
! Ethernet cable
! Mounting stand Figure 3-8: IDR kit 02030311-05 Airspan Networks Ltd. 3-9 Part List and Required Tools Hardware Installation G 3.2. Required Tools The following tools are required for installing the WipLL system:
! Pin crimper tool for CAT-5e cables for 15-Pin D-type and N-type connectors, and for GPS connectros
! Cable stripping tool
! Philips screw driver
! Flat-blade screwdriver
! Adjustable wrench
! ESD-prevention wrist strap
! Torque wrench for N-type connectors
! IDR unit:
! Flat blade screwdriver
! Pozidriv screwdriver
! 3 mm A/F Allen key
! 10 mm A/F open ended spanner 3-10 Airspan Networks Ltd. 02030311-05 Part I Part I Part I Part I Installing WipLL Installing WipLL Installing WipLL Installing WipLL Base Station Equipment Base Station Equipment Base Station Equipment Base Station Equipment Part I describes the procedures for installing the WipLL base station equipment, and includes the following chapters:
! Chapter 4, Installing the BSR
! Chapter 5, Installing the BSDU
! Chapter 6, Installing the GPS
! Chapter 7, Installing the BSPS This page is intentionally left balnk. 4 Installing the BSR Installing the BSR Installing the BSR Installing the BSR This chapter describes the installation of the WipLL Base Station Radio (BSR), which is installed at the base station. This chapter includes the following sections:
! Overview
! Physical Dimensions and Basic Design
! Cable Installation Guidelines
! Connecting BSR for Serial Configuration
! Connecting BSR to the Backhaul Network
! Through the SDA
! Through the BSDU
! Conecting a Third-Party External Antenna (Optional)
! Connecting BSR to Power
! Mounting the BSR
! Minimum Distance Between BSRs
! Wall Mounting
! Pole Mounting 02030311-05 Airspan Networks Ltd. 4-1 Installing the BSR Hardware Installation Guide 4.1. Overview The BSR is the center of the WipLL system. The BSR provides last-mile wireless connectivity by connecting the providers backhaul network to the subscribers wireless unit (Subscriber Premises Radio [SPR]). In addition, the BSR is responsible for synchronizing the WipLL network (i.e., synchronizing SPRs/IDRs). For base stations consisting of a single BSR, the BSR is typically powered and connected to the providers backhaul network by the WipLL Subscriber Data Adapter (SDA). For base stations consisting of multiple BSRs, the BSRs are powered and connected to the providers backhaul by the WipLL Base Station Distribution Unit (BSDU). The BSR is available in three models:
! BSR with a built-in antenna
! BSR with an N-type port for connection to an optional third-party external antenna
! BSR with an two N-type ports for connection to two optional third-party external antennas for dual antenna diversity 4-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR 4.2. Physical Dimensions and Basic Design The BSR is encased in a chassis providing access to the BSRs communication port on the front panel (see Figure 4-1). The BSRs bottom panel provides holes for mounting the BSR to, for example, a pole or wall (see Figure 4-11). Serial port Data, power, and synchronization port Figure 4-1: BSR front panel (internal antenna model) The BSRs physical dimensions are described in Table 4-1 Table 4-1: BSR Physical Dimensions Parameter Value Height Width Depth Weight 400 mm (15.74 inches) 317 mm (12.48 inches) 65.5 mm (2.58 inches) 4.7 kg Notes:
1) The BSRs physical dimensions exclude the mounting kit. 2) A BSR model with an N-type receptacle for attaching a third-party external antenna is also available (see Section 4.6, Conecting a Third-Party External Antenna (Optional). 02030311-05 Airspan Networks Ltd. 4-3 Installing the BSR Hardware Installation Guide 4.3. Cable Installation Guidelines This section defines the procedures to be adhered to when installing data cables at the base station. Warning: Pre-terminated cables should be fitted with protective poly bags during cable installation processes. Metal cable trays shall be earthed to a central earth point within the customers equipment room. Note: A minimum separation of 200 mm should exist between power and data cables. The following points are to be considered:
! When installing network cables, ensure they are not damaged by friction or sharp edges. Spacing of installation personnel at regular distances during any cable drawing-in process will avoid contact with potential hazards.
! Data cables providing connection to the customers network shall be run in suitable conduits. Cable conduits should be secured to the wall in accordance with manufacturers instructions.
! Cables should be carefully fed through conduits and not pulled by means of any attached connector.
! Sufficient space should be provided in cable ducts, trunking or trays (where possible) to allow for future cabling growth.
! External data cables are to be protected in protective conduit, which is to be in accordance with manufacturers secured recommendations. Trunking must not be located as to provide a trip hazard at the base station premises (e.g. roof walkways) the building structure to
! BSR cables are to be dressed tidily to the mounting pole or bracket using strategically placed cable ties. 4-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR
! Observe recommended minimum bend radii when installing copper cables. Wherever a cable changes direction, ensure that it does so in a smooth curve with a radius of at least 50 mm to prevent damage.
! A maintenance loop is to be left in the cable just before the cable reaches the BSR or GPS to prevent strain on the connector.
! Data cables entering holes drilled in walls are to be dressed to provide a loop that will prevent water ingress into the building along the cable.
! Silicone sealant should be used to plug any holes on both internal and external wall surfaces once cables are in place.
! All data cables should be labeled with both the source and destination at each end. Note: The maximum cable length between the BSR and terminating equipment is 100 meters. 02030311-05 Airspan Networks Ltd. 4-5 Installing the BSR Hardware Installation Guide 4.4. Connecting BSR for Serial Configuration The BSR provides a serial port for RS-232 serial interface to a PC. This serial communication connection allows you to perform BSR initial configuration. Notes:
1) For serial configuration, the BSR must remain connected to the BSDU/SDA
(i.e., the BSRs 15-pin D-type port remains connected to the BSDUs/SDAs 15-
pin D-type port). 2) For a detailed explanation on performing BSR initial configuration using WipLLs management applications, refer to WipConfig Users Guide and WipConfig PDA Users Guide. The BSR-to-PC management station serial cable connections include the following
! Cable: Crossover serial cable
! Connectors:
! BSR: 9-pin D-type male Figure 4-2: 9-pin D-type male connector
! PC: 9-pin D-type female (RS-232) Figure 4-3: 9-pin D-type female connector 4-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR
! Connector pinouts:
Table 4-2: BSR-to-PC serial connector pinouts BSR PC 9-pin D-type male Pin Function Pin Function 9-pin D-type female 1 2 3 4 5 6 7 8 9 Not connected
(NC) RS232 Rx RS232 Tx NC GND NC NC NC NC 1 3 2 6 5 4 8 7 9 NC Tx Rx NC GND NC NC NC NC To connect the BSR to the PC and SDA/BSDU for serial configuration:
1. Connect the serial cables 9-pin D-type male connector to the BSRs 9-pin D-
type port labeled SERIAL, as displayed in Figure 4-4. 2. Connect the serial cables 9-pin D-type female connector to the PCs serial port, as displayed in Figure 4-4. Note: Ensure that the BSR remains connected to the BSDU/SDA (i.e., the BSRs 15-pin D-type port remains connected to the BSDUs/SDAs 15-pin D-
type port). 02030311-05 Airspan Networks Ltd. 4-7 Installing the BSR Hardware Installation Guide Figure 4-4: BSR-to-PC serial connection 4-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR 4.5. Connecting BSR to the Backhaul Network The BSR connection to the providers backhaul network depends on the base stations configuration:
! Base station consisting of a single BSR: connection to the backhaul is through the SDA
! Base station consisting of multiple BSRs: connection to the backhaul is through the BSDU. 4.5.1. Through the SDA For a base station consisting of a single BSR, the BSRs power supply and connectivity to the backhaul network is provided by the SDA. The SDA is typically installed at the subscribers premises, but in such a scenario, the SDA can also be used at the base station. For a detailed description of the SDA, see Chapter 9,
Installing the SDA. The BSR-to-SDA cable connection configurations are as follows:
! Connectors:
! BSR: 15-pin D-type male (only 8 pins are used)
! SDA: 15-pin D-type male (only 8 pins are used)
! Cable: straight-through CAT-5 02030311-05 Airspan Networks Ltd. 4-9 Installing the BSR Hardware Installation Guide
! Connector pinouts:
Table 4-3: BSR-to-SDA 15-pin D-type connector pinouts 15-pin D-type male BSR Function Pin Wire color Wire pair Pin SDA Function 1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Tx+
Tx-
Rx+
Rx-
Sync.+
Sync.-
Blue / white Blue Orange / white Orange Green / white Green Brown / white Brown 1 2 3 4 1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Rx+
Rx-
Tx+
Tx-
Sync.+
Sync.-
Notes:
- Pins 9 through 15 of the 15-pin D-type connector are not used.
- The wire color-coding described in the table is WipLLs standard for wire color-coding. However, if you implement your companys wire color-coding scheme, ensure that the wires are paired and twisted according to the pin functions listed in Table 4-3 (e.g., Rx+ with Rx-). 4-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR WipLL uses the following wire color-coding standards for CAT 5 cables with 15-pin D-type to 15-pin D-type connectors on either ends (8 wires used):
Figure 4-5: WipLL wire color-coding for 15-pin D-type connectors Note: The wires are twisted together in pairs, for example, blue/white with blue, and orange/white with orange. This prevents electrical interference between the transmitter pins. For example, pin 3 (Tx+; orange / white) is paired and twisted with pin 4 (Tx-; orange). Note: Airspan supplies unterminated cables for 15-Pin D-type connectors. Refer to the cable crimping procedures for 15-Pin D-type connectors detailed in Appendix B, Cable Crimping". 02030311-05 Airspan Networks Ltd. 4-11 Installing the BSR Hardware Installation Guide To connect the BSR to the backhaul through the SDA:
1. Attach the 15-pin D-type connector, at one end of the cable, to the BSRs 15-pin D-type port labeled DATA POWER SYNC, as displayed in Figure 4-6. 2. Attach the 15-pin D-type connector, at the other end of the cable, to the SDAs 15-pin D-type port, as displayed in Figure 4-6. 3. Connect the SDAs RJ-45 Ethernet port to the backhaul. Note: For a detailed description of the SDA models, see Chapter 9, Installing the SDA. 4-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR Figure 4-6: Connecting BSR to the backhaul through the SDA 02030311-05 Airspan Networks Ltd. 4-13 Installing the BSR Hardware Installation Guide 4.5.2. Through the BSDU For base stations consisting of multiple BSRs, the power supply and connectivity to the backhaul network is provided by the BSDU. The BSRs 15-pin D-type port is connected to the BSDUs rear panel 15-pin D-type port (labeled BSR #). Note: For a detailed description of the BSDU, see Chapter 5, Installing the BSDU. The BSR-to-BSDU cable connection configurations is as follows:
! Connector:
! BSR: 15-pin D-type male (only 8 pins are used)
! BSDU: 15-pin D-type male (only 8 pins are used)
! Cable: straight-through 10Base-T Ethernet 4 Pair Cat 5 outdoor type 24 AWG
! Connector pinouts:
Table 4-4: BSR-to-BSDU 15-pin D-type connector pinouts 15-pin D-type male BSR Function Pin Wire color Wire pair Pin BSDU Function 1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Tx+
Tx-
Rx+
Rx-
Sync.+
Sync.-
Blue / white Blue Orange / white Orange Green / white Green Brown / white Brown 1 2 3 4 1 2 3 4 5 6 7 8
+48 VDC
-48 VDC Rx+
Rx-
Tx+
Tx-
Sync.+
Sync.-
4-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR Notes:
- Pins 9 through 15 of the 15-pin D-type connector are not used.
- The wire color-coding described in the table is WipLLs standard for wire color-coding. However, if you implement your companys wire color-coding scheme, ensure that the wires are paired and twisted according to the pin functions listed in Table 4-3 (e.g., Rx+ with Rx-). WipLL uses the following wire color-coding standards for CAT 5 cables with 15-pin D-type to 15-pin D-type connectors on either ends (8 wires used):
Figure 4-7: WipLL wire color-coding for 15-pin D-type connectors Note: The wires are twisted together in pairs, for example, blue/white with blue, and orange/white with orange. This prevents electrical interference between the transmitter pins. For example, pin 3 (Tx+; orange / white) is paired and twisted with pin 4 (Tx-; orange). 02030311-05 Airspan Networks Ltd. 4-15 Installing the BSR Hardware Installation Guide To connect the BSR to the backhaul through the BSDU:
1. Attach the 15-pin D-type connector, at one end of the cable, to the BSRs 15-pin D-type port labeled DATA POWER SYNC, as displayed in Figure 4-8. 2. Attach the 15-pin D-type connector, at the other end of the CAT-5 cable, to the BSDUs 15-pin D-type port labeled BSR, located at the rear of the BSDU, as displayed in Figure 4-8. 3. Connect one of the BSDUs 100Base-T ports, located at the front panel, to the backhaul (see Chapter 5, Installing the BSDU for a detailed description of connecting the BSDU to the backhaul). Note: Airspan supplies unterminated cables for 15-Pin D-type connectors. Refer to the cable crimping procedures for 15-Pin D-type connectors detailed in Appendix B, Cable Crimping". Figure 4-8 displays the cable connections between the BSR and BSDU. 4-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR Figure 4-8: BSR-to-BSDU cable connection 02030311-05 Airspan Networks Ltd. 4-17 Installing the BSR Hardware Installation Guide 4.6. Connecting a Third-Party External Antenna
(Optional) The BSR model with an N-type connector can be connected to an external antenna. The addition of an external antenna allows greater RF sector coverage than the standard BSR Internal Antenna model (i.e., 60). The BSR with an external antenna is especially suited for base stations with one BSR, where sector coverage can be increased to 360 by using an omni-antenna. The BSR model for the 900 MHz band provides two N-type connectors for attaching two external antennas. This provides dual antenna diversity.
! Connector (third-party): N-type male (two N-type connectors for BSR model for 900 MHz band. The N-type socket labelled Primary is used only if one antenna is connected.) Figure 4-9: Example of an N-type connector
! Cable (third-party): RF coaxial Warnings:
1) Before connecting the external antenna, ensure that the BSR is NOT connected to the power source. 2) Before powering on the BSR, ensure that some type of equiment such as an antenna or an RF attenuator is connected to the N-type receptacle. This eliminates the risk of burning the BSR device. To connect the BSR to an external antenna:
! Attach the third-party N-type male connector to the N-type receptacle located on the BSRs front panel, as displayed in Figure 4-10. 4-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR Notes:
1) For crimping cables for N-type connectors, see Appendix B, Cable Crimping. 2) Ensure that the third-party antenna cable is of sufficient high quality to reduce/eliminate loss when operating in the required frequency band. Figure 4-10: Connecting BSR to N-type external antenna connector (third-party) Warning: It is the responsibility of the person installing the WipLL system to ensure that when using the outdoor antenna kits in the United States (or where FCC rules apply), that only those antennas certified with the product are used. The use of any antenna other than those certified with the product is expressly forbidden in accordance with FCC rules CFR47 part 15.204. The installer should configure the output power level of antennas according to country regulations and per antenna type. 02030311-05 Airspan Networks Ltd. 4-19 Installing the BSR Hardware Installation Guide 4.7. Connecting BSR to Power The BSR is powered by the SDA or BSDU (depending to which unit the BSR is connected). The power is supplied through the BSRs 15-pin D-type port, which is connected to the SDA or BSDU. The BSRs power requirements are described in Table 4-5. Table 4-5: BSR Power Requirements Parameter Voltage:
Minimum Maximum Maximum Amperes:
Value 48 VDC nominal 30 VDC 55 VDC 500 mA Comment Voltage is received from the BSDU or SDA Warning: If you are using an external antenna, ensure that you connect the antenna before connecting the BSR to the power source. Note: For details on connecting the SDA or BSDU to the mains power supply, see Chapter 5, Installing the BSDU and Chapter 9, Installing the SDA. 4-20 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR 4.8. Mounting the BSR The BSR can be mounted on a wall or pole. The BSR is mounted using the mounting holes located on the BSRs bottom panel (see Figure 4-11) and the mounting bracket (provided by Airspan). Mounting holes Figure 4-11: BSR bottom panel providing holes for mounting The mounting brackets for BSR wall- and pole-mounting are different. Note: The antenna used for this transmitter must be installed to provide minimum separation distance of at least 20 cm from all persons and must not be co-located or operated in conjunction with any other antenna or transmitter. 02030311-05 Airspan Networks Ltd. 4-21 Installing the BSR Hardware Installation Guide 4.8.1. Minimum Distance Between BSRs To prevent system interference, each BSR requires a minimum of 1-metre separation between adjacent BSRs (see Figure 4-12). 1 Metre min. Figure 4-12: Minimum distance between mounted BSRs Warning: The BSR emits microwave radiation; a minimum distance of 200 mm must be maintained from the front of the BSR. 4-22 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR 4.8.2. Wall Mounting BSR wall mounting is performed in two chronological stages:
! Attaching the mounting bracket to the BSRs mounting holes
! Attaching the mounting bracket (attached to the BSR) to the wall To mount the BSR on a wall:
1. Attach the mounting bracket to the BSR using two stainless steel bolts, as shown in Figure 4-13. BSR 15-pin D-type connector BSR Fixing Bolts BSR Mounting Bracket Jubilee clip slots Figure 4-13: Attaching the mounting bracket to the BSR 2. Attach the mounting bracket to the wall using four screws. The fixing dimensions for the mounting bracket is illustrated in Figure 4-14 02030311-05 Airspan Networks Ltd. 4-23 Installing the BSR Hardware Installation Guide Note: Airspan does not provide screws for attaching the mounting bracket to the wall. The screw size depends on the structure of the building to which the bracket is to be attached. When selecting screw sizes, consideration must be given to the weight of the BSR and load that may be induced in windy conditions. 8mm 58mm 99mm
. Figure 4-14: BSR mounting bracket dimensions for the four fixing holes 3. Adjust the horizontal positioning of the BSR, and then fasten tight the two stainless-steel bolts. 4-24 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR Rotation is restricted to the horizontal plane only. The permissible rotation is shown in Figure 4-15. Figure 4-15: Horizontal rotation of the BSR Note: A thread-locking compound is to be used to prevent the bolts working loose. 02030311-05 Airspan Networks Ltd. 4-25 Installing the BSR Hardware Installation Guide 4.8.3. Pole Mounting The BSR can be mounted on a pole (see Figure 4-16). Pole mounting allows the BSR to be adjusted in the horizontal as well as the vertical plane. The pole-mounting bracket assembly is designed to support the BSR on a round pole of 45 mm in diameter. Figure 4-16: Mounted BSR 4-26 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSR To mount the BSR on a pole:
1. Attach the mounting bracket to the BSR using two stainless steel bolts. Locking Holes BSR mounting Bracket Pivot Hole Clamping Bracket
U Bolt Figure 4-17: BSR mounting bracket assembly 2. Attach the clamping bracket to the mounting bracket using two M8 stainless bolts. 3. Attach the Clamping bracket to the pole by placing the U-bolt around the pole, and then inserting the U-bolt through the Clamping bracket and securing it by screwing the two bolts on the U-bolt. 02030311-05 Airspan Networks Ltd. 4-27 Installing the BSR Hardware Installation Guide 4. Adjust the vertical position of the BSR. Lock the BSR at the desired position by inserting the locking bolt in the desired position. Once the correct angle has been set both bolts must be tightened to lock the BSR bracket in place. 5. Adjust the horizontal position of the BSR by rotating the BSR about the pole, and then tighten the U-bolt. BSR positioning is obtained in two planes by adjustment of the mounting bracket assembly a shown in Figure 4-18. Rotation about the mounting bracket Rotation about the mounting pole Figure 4-18: BSR GPS orientation in vertical (top figure) and horizontal plane (lower figure) Note: A thread-locking compound is to be used to prevent the bolts working loose. A loop should be left in the cable for maintenance purposes and to prevent the cable weight being taken directly on the connector. 4-28 Airspan Networks Ltd. 02030311-05 5 Installing the BSDU Installing the BSDU Installing the BSDU Installing the BSDU This chapter describes the installation of the WipLL Base Station Distribution Unit (BSDU), which is installed at the base station. This chapter includes the following sections:
! Overview
! Physical Dimensions and Basic Design
! Rack-Mounting
! Connecting to BSRs
! Connecting to GPS Antenna
! Connecting to 100Base-T Networks
! Daisy-Chaining BSDUs
! Connecting Sync IN/OUT ports
! Connecting to BSPS for Power Management
! Connecting to PC for Serial Management
! Connecting to PC for Network IP Management
! Connecting to Power
! LED Indicators 02030311-05 Airspan Networks Ltd. 5-1 Installing the BSDU Hardware Installation Guide Warning:
To avoid electrical shock and fire hazard ensure that all data and power connections are made prior to connecting the BSDU to the DC power supply. When installing the BSDU, it is required that you wear the wrist strap for ESD prevention. Note: Airspan supplies unterminated cables for 15-Pin D-type and N-type connectors. Refer to the cable crimping procedures for these connectors in Appendix B, Cable Crimping". 5.1. Overview The WipLL BSDU is an optional WipLL device that connects multiple BSRs at a base station. The BSDU is installed in a cabinet at the customers base station. The BSDU provides the following functionality:
! Serves up to six BSRs. Up to four BSDUs can be daisy-chained at a single base station to support up to 24 BSRs.
! Power supply of 48 VDC to BSRs.
! Wide Area Network (WAN) interface to the providers backhaul network.
! Frequency-hop synchronization. 5-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.2. Physical Dimensions and Basic Design The BSDU is encased in a chassis providing access to the BSDUs communication ports on the front and rear panels. The BSDU can be mounted in a standard 19" rack with 1-U vertical space requirement. Figure 5-1 displays the BSDUs front panel. 100Base-T LEDs BSPS power management port Power receptacle Status LEDs BSRs LEDs 100Base-T ports Synchronization ports 10Base-T ports Serial management port Figure 5-1: BSDU front panel The BSDUs front panel provides the following ports:
! Two RJ-45 100Base-T ports
! Two RJ-45 10Base-T ports
! One RJ-45 port (input) for synchronization with previous BSDU in ring
! One RJ-45 port (output) for synchronization with next BSDU in ring
! One 9-Pin D-type (female) monitor serial port for WipConfig interface
! One 9-Pin D-type (male) port for management interface with the Base Station Power System (BSPS)
! DC power input connector 48 VDC
! Various LEDs 02030311-05 Airspan Networks Ltd. 5-3 Installing the BSDU Hardware Installation Guide Figure 5-2 displays the BSDUs rear panel. GPS port Earth Stud Six BSR ports Figure 5-2: BSDU rear panel The BSDUs rear panel provides the following ports:
! Six 15-Pin D-type connectors which provide DC power, Ethernet connection, synchronization and serial interface to the BSR (up to six BSRs)
! One 15-Pin D-type connector for the Global Positioning System (GPS) antenna
! One 5-mm diameter grounding lug The BSDUs physical dimensions are described in Table 5-1. Table 5-1: BSDU physical dimensions Parameter Value 43.2 mm (1.7 inches) 482.6 mm (19 inches) 228.6 mm (9 inches) 2.9 kg Height Width Depth Weight 5-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.3. Rack-Mounting The BSDU is a 1U-chassis, which is installed in a standard 19" (inch) cabinet, and is provided with front-rail mounting brackets. The mounting brackets are part of the BSDU chassis. Therefore, all that is required for mounting the BSDU is to attach the BSDU mounting brackets to the cabinet. The BSDU is secured to the cabinets mounting rails using the supplied four M5 mounting screws and plastic cup washers. To rack-mount the BSDU:
1. Determine which mounting rail holes of the cabinetleft and right sidewill be used for attaching the chassis. 2. Insert four nuts into the holes you specified in Step 1.These nuts are housed in Tinnerman clips, which allow you to fasten them into the holes. To insert the Tinnerman clips, hold the clips, squeeze them, and then insert them into the hole. 3. Carefully insert the BSDU into the cabinet, aligning the BSDUs mounting brackets with the holes. 4. Insert the M5-mounting screws, with plastic washers, in the BSDU mounting bracket screw holes, on each side, as shown Figure 5-3. In this way, the chassis is supported until you tighten the chassis screws. 02030311-05 Airspan Networks Ltd. 5-5 Installing the BSDU Hardware Installation Guide 5. Tighten the M5 mounting screws to fasten the chassis to the cabinet. Figure 5-3: BSDU rack mounting Note: When mounting multiple BSDUs in a cabinet, vertical spaceabove and belowis required for threading cables to the rear. 1U-chassis Space for cable management Figure 5-4: BSDU and vertical space for cables 5-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.4. Connecting to BSRs The BSDU rear panel provides six 15-Pin D-type connectors for connecting a maximum of six BSRs. For a detailed description of connecting BSRs to the BSDU, see Chapter 4, Installing the BSR. Note: A maximum of 4 BSDUs can be installed at a base station, allowing maximum connection of up to 24 BSRs.
! Connector: 15-Pin D-type (male)
! Connector pinouts: see Chapter 4, Installing the BSR. For a description of the BSDUs BSR ports LED indicators, see Section 5.13.1,
BSRs LED. 5.5. Connecting to the GPS Antenna The rear panel of the BSDU provides a 15-Pin D-type connector port, labeled GPS for connection to the GPS antenna for clock synchronization. The GPS allows synchronization between base stations. Note: For a detailed explanation on connecting the GPS to the BSDU port, see Chapter 6, Installing the GPS. 02030311-05 Airspan Networks Ltd. 5-7 Installing the BSDU Hardware Installation Guide 5.6. Connecting to 100Base-T Networks The BSDUs front panel provides two RJ-45 ports for connection to 100Base-T
(labeled 100Base-T) ports. The 100Base-T ports are used for connection to the WipLL management station and the service providers backbone (Ethernet).
! Connector: 8-Pin RJ-45 (male)
! Connector pinouts:
Pin Description Name 1 2 3 4 5 6 7 8 Tx+
Tx-
Rx+
NC NC Rx-
NC NC Transmit Data+
Transmit Data-
Receive Data+
Not connected Not connected Receive Data-
Not connected Not connected 5-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.7. Daisy-Chaining BSDUs You can daisy chain up to four BSDUs at each base station. When you daisy chain BSDUs, you need to connect the 100Base-T ports between BSDUs using a crossover cable.
! Connector: 8-pin RJ-45
! Cable: RJ-45-to-RJ-45 crossover
! Connector pinouts: The following table describes the pinouts of the RJ-45 connectors on opposite sides of the crossover cable:
RJ-45 (one end) Pin Name Description RJ-45 (other end) Pin 1 2 3 4 5 6 7 8 Tx+
Tx-
Rx+
NC NC Rx-
NC NC Transmit Data+
Transmit Data-
Receive Data+
Not connected Not connected Receive Data-
Not connected Not connected 3 6 1 4 5 2 7 8 To daisy-chain BSDUs:
1. On the first BSDU, connect the RJ-45 connector, on one end of the crossover cable, to one of the two 100Base-T ports (labeled 100Base-T 1 or 100Base-T 2) located on the BSDUs front panel (see Figure 5-5). 2. On the second BSDU, connect the RJ-45 connector, at the other end of the crossover cable, to one of the BSDUs 100Base-T ports (labeled 100Base-T 1 or 100Base-T 2) located on the BSDUs front panel (see Figure 5-5). 3. If there are additional BSDUs, simply continue connecting the BSDUs using the 100Base-T ports (see Figure 5-5). 02030311-05 Airspan Networks Ltd. 5-9
1 | Users Manual Part 2B | Users Manual | 1.73 MiB | February 01 2004 |
Installing the BSDU Hardware Installation Guide Figure 5-5: Cable connections for BSDU daisy chaining Note: When daisy-chaining BSDUs, it does not matter which 100Base-T ports you use to connect two BSDUs. For example, you can connect 100Base-T 1 to 100Base-T 2, or 100Base-T 1 to 100Base-T 1. 5-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.8. Connecting Sync IN/OUT ports The BSDUs front panel provides an in/out synchronization 8-Pin RJ-45 ports for synchronization between BSDUs at the base station. The SYNC OUT of the master BSDU is connected to the SYNC IN of a slave BSDU, which then connects its SYNC OUT to the SYNC IN of another slave BSDU, and so on.
! Connector: 8-Pin RJ-45 (male)
! Cable: straight-through cable
! Connector Pinouts:
! Sync IN Pin Name Description 1 2 3 4 5 6 7 8 TD+
TD-
Rx+
NC NC Rx-
1PPS+
1PPS-
Transmit data to GPS Transmit data from GPS Receive Data (hop synchronization) Not connected Not connected Receive Data (hop synchronization) GPS pulse per second GPS pulse per second 02030311-05 Airspan Networks Ltd. 5-11 Installing the BSDU Hardware Installation Guide
! Sync OUT Pin Name Description 1 2 3 4 5 6 7 8 TD+
TD-
Tx+
RD+
RD-
Tx-
1PPS+
1PPS-
Transmit data to GPS Transmit data from GPS Transmit Data (hop synchronization) Receive Data (from GPS) Receive Data (to GPS) Transmit Data (hop synchronization) GPS pulse per second GPS pulse per second 5-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.9. Connecting to BSPS for Power Management The BSDUs front panel provides a 9-Pin DB-type port for serial RS-232 power management of the BSPS. WipLLs WipManage manages BSPS by connecting to the BSDU through the IP network (i.e., from the BSR), and then manages BSPS through the serial connection between the BSDU and BSPS. The reason for the serial connection is that the BSPS does not support SNMP-based management, which is the basis of WipManage.
! Connector: depending on the BSPS model:
! 9-Pin D-type female (BSDU and BSPS)
-Or-
! 9-Pin D-type female (BSDU) to 8-Pin RJ-45 (BSPS) adapter (see Figure 5-6) Figure 5-6: BSDU-to-BSPS power management connectors (RJ-45 to 9-Pin D-type cable adapter)
! Cable length: 60 cm 02030311-05 Airspan Networks Ltd. 5-13 Installing the BSDU Hardware Installation Guide
! Connector pinouts:
BSDU 9-Pin D-type Name NC Rx Tx NC GND NC NC NC NC Description Not connected Receive Data Transmit Data Not connected Ground Not connected Not connected Not connected Not connected 1 2 3 4 5 6 7 8 Pin 1 2 3 4 5 6 7 8 9 BSPS RJ-45 Pin Name NC NC Rx NC GND Tx NC NC To connect the BSDU to the BSPS for BSPS serial power management:
1. Connect the 9-pin D-type female connector, at one end of the cable, to the BSDUs 9-pin D-type port labeled POWER Management (see Figure 5-7). 2. Connect the RJ-45 connector, at the other end of the cable, to the BSPS System Controllers RJ-45 serial port (see Figure 5-7). 5-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU Figure 5-7: BSDU-to-BSPS serial cable connections for BSPS power management 02030311-05 Airspan Networks Ltd. 5-15 Installing the BSDU Hardware Installation Guide 5.10. Connecting to PC for Serial Management The BSDUs front panel provides a 9-Pin D-type port for BSDU serial management
(labeled Monitor). Serial management allows you to connect the WipLLs network management system (WipConfig) to BSDU without assigning BSDU an IP address.
! Connector: 9-pin D-type male
! Cable: straight-through
! Connector pinouts:
Signal 9-Pin D-type Connector Pin 1 Not connected (NC) 2 Rx 3 Tx 4 NC 5 NC 6 NC 7 NC 8 NC 9 NC 5-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU To connect the PC to the BSDU by serial connection (see Figure 5-8):
1. Connect the 9-pin D-type female connector to the PC. 2. Connect the 9-pin D-type male connector, at the other end of the cable, to the BSDUs serial port (labeled Monitor). Figure 5-8: PC-to-BSDU Serial Connections 02030311-05 Airspan Networks Ltd. 5-17 Installing the BSDU Hardware Installation Guide 5.11. Connecting to PC for Network IP Management For network (IP) configurations, you can connect the PC to the BSDUs local port, or remotely (from anywhere) if you have IP connectivity to the device. For PC-to-
BSDU local network (IP) connections you need to connect the PC to the BSDUs 10BaseT or 100BaseT port. The BSDUs front panel provides two 10Base-T ports:
left is labeled 10Base-T 1; right is labeled 10Base-T 2. Port 1 provides PC management interface to all BSRs connected to the BSDU. Port 2 provides management interface only to the BSDU. If you connect the BSDUs two 10BaseT ports (i.e., loop the ports) to one another by a crossover cable, then you can connect the PC to one of the BSDUs 100BaseT ports. If the two BSDU 10BaseT ports are not connected to one another, then you need to connect the PC to the BSDUs right-
most 10BaseT port (labeled 10Base-T 2). Note: For WipLL management, it is recommended to connect Port 1 to Port 2 by a crossover cable, and then connect the management station (PC) to one of the 100Base-T ports. In such a setup, you can provide management to all daisy-chained BSDUs and their associated BSRs through one 100Base-T port.
! Connector: 8-Pin RJ-45 (male)
! Cables:
! Crossover cable for looping the two 10BaseT ports
! Straight-through for connecting the PC to the 100BaseT port 5-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU
! Connector pinouts:
RJ-45 (10Base-T) Signal Pin RJ-45 (100Base-T) Pin Function 1 2 3 4 5 6 7 8
+Rx
-Rx
+Tx NC NC
-Tx NC NC
+Tx
-Tx
+Rx NC NC
-Rx NC NC To connect the PC to the BSDU using a network connection:
1. Connect the RJ-45 connector to the PCs Ethernet port. 2. Connector the RJ-45 connector, at the other end of cable, to the BSDUs 1 2 3 4 5 6 7 8 10Base-T port labeled 2 (see Figure 5-9);
-Or-
Connect the BSDUs two 10Base-T ports with the supplied crossover cable, and then connect the BSDUs 1000Base-T port
(see Figure 5-10). the RJ-45 connector to 02030311-05 Airspan Networks Ltd. 5-19 Installing the BSDU Hardware Installation Guide Figure 5-9: PC-to-BSDU Local Network Connection 10Base-T Port Figure 5-10: PC-to-BSDU Local Network Connection 100Base-T Port 5-20 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU Note: If you have multiple BSDUs at a base station (i.e., daisy chained BSDUs), the connection to any BSDU 100Base-T provides management to all the BSDUs in the daisy chain. 5.12. Connecting to Power The BSDU requires a power supply of 48 VDC. If the service providers base station cannot supply AC-to-DC voltage, the BSDU can be powered by an optional WipLL BSPS unit (see Chapter 7, Installing the BSPS) that supplies 48 VDC power as well as power redundancy. Table 5-2 lists the BSDUs power requirements. Table 5-2: BSDU power requirements Parameter Voltage Value
-48 VDC nominal Power consumption Maximum 300W Comment Minimum -38 VDC Maximum -55 VDC Including the feeding of six BSRs Note: Before you can connect the BSDU to a power supply, you need to ground (earth) the BSDU. 02030311-05 Airspan Networks Ltd. 5-21 Installing the BSDU Hardware Installation Guide 5.12.1. Grounding the BSDU Before connecting the power supply to the BSDU, you need to ground (earth) the BSDU. To ground the BSDU:
1. Connect one end of the grounding lug wire (green/yellow) to the grounding lug screw located on the rear panel of the BSDU chassis (see Figure 5-11). 2. Connect the other end of the grounding wire to the cabinet rack or any other customer grounded point at the base station. Figure 5-11: BSDU grounding connection (BSDU rear panel) 5-22 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.12.2. Connecting to Power Supply (BSPS) The connection between the BSDU and the power supply unit (BSPS) is made via a two-meter long DC shielded power cable (supplied). The power cable has a power connector at each end of the cable and a wire for preventing cable disturbances and radiation. The power cable is connected to the BSDUs power connector. The wire color-coding is as follows:
! Red: positive
! Black: negative Figure 5-12 displays the power cable with the power connectors on each side and the grounding lug wire on the side that connects to the BSDU. Power connectors for BSPS Grounding lug wire Power connectors for BSDU Figure 5-12: Power cable (with ground wire) for connecting BSDU to BSPS To connect the BSDU to the power supply unit (see Figure 5-13):
1. Connect the cables power connectors on the cable side that provides an additional wire for preventing power radiation, to the BSDUs power port labeled POWER -48 VDC. Ensure that the black-colored (i.e., negative) side of the connector is inserted in the upper part of the power receptacle; and the red-
colored (i.e., positive) side of the connector is inserted in the lower part of the power receptacle (see Figure 5-13). 2. Connect the grounding lug wire for radiation immunity, to the BSDUs grounding lug screw, located alongside the BSDUs power receptacle (see Figure). 02030311-05 Airspan Networks Ltd. 5-23 Installing the BSDU Hardware Installation Guide 3. Connect the other end of the power cable to the power source (i.e., to the customers power supply or to the WipLL BSPS). Ensure that the black-colored
(i.e., negative) side of the connector is inserted in the upper part of the power receptacle; and the red-colored (i.e., positive) side of the connector is inserted in the lower part of the power receptacle (see Figure 5-13). Figure 5-13: BSDU-to-BSPS power cable connections 5-24 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.13. LED Indicators The BSDU provides various LED indicators located on the BSDUs front panel (see Figure 5-14). These LEDs are grouped as follows:
! BSRs LEDs
! 100Base-T LEDs
! Status LEDs 100Base-T LEDs Status LEDs BSRs LEDs Figure 5-14: BSDU LED indicators 5.13.1. BSRs LEDs The BSDUs BSRs LED indicators, located on the BSDUs front panel, includes three LEDs for each of the six BSR ports. These LEDs are described in Table 5-3. Table 5-3: BSRs LED Description LED Act Color Yellow Link Yellow PWR Yellow Status On Off On Off On Off Meaning Ethernet activity is detected on the BSR port No Ethernet activity is detected on the BSR port Physical link exists between the BSDU and BSR No physical link exists between the BSDU and BSR Power is supplied to the BSDUs BSR port The BSDUs BSR port is disabled by software, or port failure has occurred 02030311-05 Airspan Networks Ltd. 5-25 Installing the BSDU Hardware Installation Guide 5.13.2. 100Base-T LEDs The BSDUs 100Base-T LED indicators, located on the BSDUs front panel, includes three LEDs for each of the two 100Base-T ports. These LEDs are described in Table 5-4. LED Rx Color Yellow Link Yellow Off On Off 10/100 Yellow Table 5-4: 100Base-T LED Description Status Meaning On Off On Data is received through the 100Base-T port No data is received through the 100Base-T port Viable physical link between the 100Base-T port and the external device to which this port connects No physical link between the 100Base-T port and the external device to which this port connects Power is supplied to the 100Base-T port No power at the 100Base-T port 5-26 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSDU 5.13.3. Status LEDs The BSDUs Status LED indicators, located on the BSDUs front panel, are displayed in Figure 5-15. HSP State GPS HSP P Figure 5-15: BSDU Status LEDs The Status LEDs are described in Table 5-5. Table 5-5: Status LED Description Color Green On Status Meaning BSDU synchronization process is active Green Green Only right LED is on Both LEDs are on Only left LED is on Both LEDs are off On Blinking Green On Synchronization process is starting BSDU is the master unit BSDU is a slave unit BSDU sync pulse lost GPS is connected to the BSDU Receiving a satellite signal Change state for the HSP pulse LED HSP (Hop Synchronization Process) State (two LEDs) GPS (Global Positioning Satellite) HSP P (Hop Synchronization Process Pulse) 02030311-05 Airspan Networks Ltd. 5-27 6 Installing the GPS Installing the GPS Installing the GPS Installing the GPS The WipLL system provides BSDU connectivity to GPS antennas for synchronizing multiple base stations and avoiding radio frequency ghosting effects. The GPS antenna ensures that the entire WipLL network operates with the same clock, based on a universal satellite clock signal. Figure 6-1: GPS antenna for clock synchronization 02030311-05 Airspan Networks Ltd. 6-1 Installing the GPS Hardware Installation Guide 6.1. Mounting the GPS Depending on individual customer requirements and environmental influences there are several available options for mounting the GPS:
! Pole Mounting:
The GPS may be mounted to a pole similar to that used to mount the BSR (See Chapter 4, Installing the BSR).
! Mounting Plate:
The GPS may be mounted to a wall or roof top structure using a purpose-made mounting plate supplied with the unit.
! Direct Mounting:
The unit may be mounted directly to a suitable structure that has been provided with holes suited to the GPS mounting details.
! Magnetic Mounting:
An optional magnetic mounting device is available to allow GPS mounting to a suitable surface, e.g., vehicle roof or steel building structure. This device is attached by means of the threaded holes provided in the base of the GPS. 6-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the GPS 6.2. Connecting to the BSDU The GPS antenna is connected to the BSDUs 15-Pin D-type port, labeled GPS (see Figure 6-2). 15-Pin D-type port for GPS Figure 6-2: BSDU rear panel showing GPS port Note: Airspan supplies un-terminated cables for connecting the GPS to the BSDU. Refer to Appendix B, Cable Crimping" for cable crimping procedures for these connectors. Warning: To avoid electrical or fire hazard, ensure that the connection to the GPS is made prior to connecting the BSDU to the power supply. The following describes the cables and connectors:
! Connector:
! GPS: 12-pin female (Deutsch MMP26C-2212S1)
! BSDU: 15-Pin D-type male
! Cable: Multipair Overall Shielded (22 AWG) 02030311-05 Airspan Networks Ltd. 6-3 Installing the GPS Hardware Installation Guide
! Connector pinouts: The GPS connector receptacle contains 12 male contacts, as displayed in Figure 6-3. Figure 6-3: GPS connector pinouts The connector pinouts for the GPS and BSDU are described in the following table. 12-pin female (GPS) 15-pin D-type male (BSDU) Pin Pin name 1 2 3 4 5 6 7 9 11 12 POWER RX_DATA_1-
RX_DATA_1+
TX_DATA_1-
TX_DATA_1+
RX_DATA_2-
RX_DATA_2+
GND 1PPS+
1PPS-
Cable color Red Blue Black Yellow Black Brown Black Black Green Black 9 5 6 4 3 x x 10 8 7 Pin Lead TD+ (after R5) TD-
RD-
RD+ (after R3) 1PPS-
1PPS+ (After R7) 6-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the GPS To connect the GPS antenna to the BSDU:
1. Connect the 12-pin female connector, at the one end of the cable, to the 12-pin receptacle connector located at the underside of the GPS. 2. Connect the 15-pin D-type male connector, at the other end of the cable, to the 15-pin D-type port labeled GPS at the rear panel of the BSDU. Figure 6-4 illustrates the BSDU-to-GPS cable connections. Note:
- When installing the cable, secure the cable to the mounting pole or bracket with a cable tie to hold the weight of the cable (cable strain relief).
- A loop should be left in the dressed cable for maintenance purposes and to prevent the cable weight being taken directly on the connector itself.
- Ensure that the connector is waterproof. 02030311-05 Airspan Networks Ltd. 6-5 Installing the GPS Hardware Installation Guide Figure 6-4: BSDU-to-GPS cable connections Airspan Networks Ltd. 02030311-05 6-6 7 Installing the BSPS Installing the BSPS Installing the BSPS Installing the BSPS This chapter describes the installation of the WipLL Base Station Power Supply unit (BSPS), which is installed at the base station. This chapter includes the following sections:
! Overview
! BSPS Components
! General Site Requirements
! BSPS Cabinet Cabling
! BSPS Installation Summary
! Installing BSPS Batteries
! Rectifiers
! Installing
! Calibrating
! Operating the System Controller
! Connecting BSPS Power to BSDUs
! Connecting the BSPS Management Cables
! BSPS Cabinet Power Requirements
! BSPS Cabinet Grounding
! BSPS Equipment Supplementary Grounding
! BSPS Troubleshooting 02030311-05 Airspan Networks Ltd. 7-1 Installing the BSPS Hardware Installation Guide 7.1. Overview The WipLL Base Station Power Supply unit (BSPS) is an optional WipLL unit that provides power (and power redundancy) to the BSDU/BSR if no 48 VDC power supply exists at the base station. The BSPS front panel is displayed in Figure 7-1. Figure 7-1: BSPS front panel The BSPS provides the BSDUs/BSRs with the following:
! Power supply of 48 VDC
! Power redundancy in case of power failure. The BSPS charges a battery bank that provides this power redundancy during mains failure. Thus, the BSPS acts as a DC-UPS with a battery connected to it. The size of the battery determines the backup and charging time. Since the system is current limited, the maximum battery size is based on that limit.) 7-2 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS
! Remote management and monitoring WipConfig management application. through WipLLs WipManage or The BSPS is delivered pre-installed in an Airspan cabinet. The only installation that is required includes the following:
! Installing the BSPS battery
! Connecting the BSPS temperature sensor to measure battery temperature
! Connecting the BSPS to the BSDU 7.1.1. BSPS Components The BSPS consists of the following basic components:
! DC Rectifier modules: The Rectifier converts the AC current to DC. The BSPS can house up to four rectifiers. The rectifiers are hot plugged and operate in parallel. This enables the user to define an N+1or N+2redundant system. Each rectifier has its own current sharing system, satisfying a complete sharing among rectifiers.
! System controller: provides BSPS management control and BSPS operating information
! Electronic Low Voltage Detector (ELVD): disconnects the battery from the load, avoiding damage to the battery when over-discharged.
! Battery: provides the BSPS system with back-up power
! Load and battery circuit breakers for DC protection and distribution
! DC Distribution unit: provides circuit breakers for distributing the output current to multiple BSDUs. The unit also contains a bypass switch to bypass the LVD. Note: For power redundancy, at least two rectifiers must be installed. 02030311-05 Airspan Networks Ltd. 7-3 Installing the BSPS Hardware Installation Guide The main power rack is housed in a 19 (inches) front mountable chassis. Figure 7-2 displays the BSPS main components. DC Distribution module Power ports for connection to BSDUs Rectifier module Load Breaker Battery Breaker Line Breaker System Controller Figure 7-2: BSPS Main Rack front view 7-4 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS Figure 7-3 displays the rear panel of the main BSPS rack. 6 Figure 7-3: BSPS Main Rack rear view 1. AC connection 2. Comm to DC Distribution 3. Temperature Sensor 4. Comm to power system 5. LVD connection 6. Ground 02030311-05 Airspan Networks Ltd. 7-5 Installing the BSPS Hardware Installation Guide 7.1.2. General Site Requirements Note: Cable sizes and electrical circuit protection devices discussed in the following section are typical for 230 Volt AC circuits only. Adjustments are required for applications other than this. During AC power installation activities at base station premises the following general requirements should be adhered to:
! The customer must provide a valid safety certificate for the electrical circuit to which the equipment is to be connected. If this documentation is not available checks must be carried out in accordance with local electrical installation test requirements.
! A qualified electrician must carry out the provision of any additional power outlets.
! Cables used in the customer premises electrical circuit are to be 3-core 6mm2. Color-coding for live neutral and earth conductors shall be in accordance with local electrical regulations.
! The base station premises AC distribution panel must be capable of supplying up to 240 Volts AC.
! The customer is to allocate and clearly identify fuses in AC distribution panel that will provide protection for equipment in BSPS cabinet. The circuit is to be protected by a 32 amp protective device in accordance with local standards.
! The customer shall provide a wall mounted AC power socket adjacent to the BSPS cabinet. Local leakage requirements are to be met when selecting the plug and socket type. Alternatively a 32-amp isolator switch may be used for connection to the mains power supply. isolation and earth territory equipment
! A common earth point (CEP) shall be designated in the customers base station premises to which the system cabinet earth will be connected.
! A minimum separation distance of 200 mm is to be maintained between AC and DC signaling cables when they run parallel to each other. However these cables may cross each other at right angles. 7-6 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS 7.1.3. BSPS Cabinet Cabling This section defines the procedures to be adhered to when installing data cables in the BSPS cabinet. Note: A minimum separation of 200 mm should exist between power and data cables.
! Cable access apertures are located in the top surface of the cabinet. Separate apertures are provided for power and data cables. All cabling entering and exiting the BSPS cabinet shall be protected using flexible conduit and gland systems suited to the cabinet. Power and data cables should exit from the BSPS cabinet via separate apertures.
! Data cables are to be secured to cable guides provided on the left-hand side of the cabinet when viewed from the rear. Cables are to be brought together to a point on the cable guide from where they can be fanned out and fed to the Base station Distribution Units (BSDUs).
! Data cables terminating at the front of the BSDUs should be fed through the brush gland fitted adjacent to the units and secured to the cable management bar using tie-wraps.
! When cabling the BSPS cabinet consideration should be given to future growth and expansion. Allowances in cable forms should be made for the removal of equipment for maintenance, i.e., BSDUs, Power racks etc.
! Where cables are installed but not connected to equipment they should be tied off in such a way as to prevent damage, allow for future growth and maintenance. Pre-terminated cables should be treated with care and should not be laid out in vulnerable areas where they may be susceptible to damage.
! Cable crossovers should be kept to a minimum to prevent system interference and allow easy equipment removal.
! Ensure that the cables are dressed in such a fashion that they are not exposed to hot exhaust air, sharp edges, doors etc. 02030311-05 Airspan Networks Ltd. 7-7 Installing the BSPS Hardware Installation Guide
! Observe recommended minimum bend radii when installing copper cables. Wherever a cable changes direction, ensure that it does so in a smooth curve with a radius of at least 50mm in order to prevent damage.
! Cables shall be secured directly to cabinet cable trays with plastic cable ties. Secure the data and power cables at regular intervals within the cabinet to the cable management trays/trunking provided using cable ties. These ties should be tensioned and cut using the supplied tool 1PAC10370ACK.
! Care is to be taken to ensure that cables providing connection to peripheral equipment (e.g. PCs) do not pose a trip hazard.
! WipLL system interface cables providing connection to a network shall be terminated and presented to a digital distribution frame (DDF) as agreed with the customer. Dressing of cables at the DDF shall be done to ensure a potential trip hazard is not created.
! All data cables should be labeled with both the source and destination at each end. Un-used cable ends must also be identified with labels to assist with future upgrades. 7-8 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS 7.2. BSPS Installation Summary The following is a summary of the procedural steps for installing the BSPS:
1. Verify that the circuit breakers of the load, battery and line input are disconnected and the system is not connected to the line. 2. Connect the main unit to the battery and load via the Battery and Load terminals on the rear panel. 3. Connect (if needed) the Extension and DC Distribution units. Pay special attention to the polarities of the wires and locations. 4. Insert a rectifier module into the main unit. All compartments are similar and connected in parallel. 5. Use 16mm2 (5 AWG) wires for the AC terminals. Minimum requirement is 8mm2 (8 AWG) 6. AC source must be current limited (50A) using an external circuit breaker. 7. Plug the AC input cord into the AC source. 8. Turn on the Line circuit breaker, and verify that the system controller is activated. 9. Insert the other rectifiers, and verify all green LEDs on the panels are lit. 10. All parameters such as the output voltage are pre-defined in the factory. 11. Connect the temperature sensors to the appropriate connector at the rear panel of the main unit. Place the sensors in the battery compartment. 12. Switch on the LOAD and BATTERY circuit breakers. Verify that the BYPASS breakers are off. The system is now ready for use. 13. Verify that the FAULT red LED is not lit and the buzzer not active. 02030311-05 Airspan Networks Ltd. 7-9 Installing the BSPS Hardware Installation Guide 14. Connect a PC to the RJ-45 port at the front panel of the main unit to control the system (optional). Figure 7-4: BSPS Main Rack front view 7-10 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS Protective covers Figure 7-5: Rear BSPS cable connections 02030311-05 Airspan Networks Ltd. 7-11 Installing the BSPS Hardware Installation Guide 7.3. Installing BSPS Batteries To provide the BSPS system with back-up power, two battery circuits are provided. Batteries are located on two shelves fitted in the lower sections of the system cabinet. A battery protection tray is to be fitted beneath the BSPS racks to prevent tools from falling onto batteries below. Warnings:
1) Final battery connection, at the DC distribution rack, must only be made once the battery is fully installed. 2) The Airspan insulated torque wrench 1PAC10383 AAD must be used when attaching battery terminations. The wrench is pre-set to break at 5.5 Nm
(Newton-meters). 3) Caution must be observed when fitting and connecting batteries as to prevent the shorting of connections to the cabinet structure. Insulated tools and the removal of jewellery are mandatory in all live power installations. To install the BSPS battery:
1. Prior to installation use a digital multimeter (DMM) to measure the voltage output from each monobloc. A reading of 12.3 Volts DC is required from each monobloc. 2. Install the monoblocs onto the battery trays as shown in Figure 7-6. 7-12 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS Figure 7-6: Cabinet battery area Up to four monoblocs can be housed on each shelf. Connections between the monoblocs are as illustrated in Figure 7-7. 3. Connect a short battery strap between monoblocs 1 and 2. 4. Using an insulated spanner/wrench tighten the battery terminal nut to the torque setting recommended by the manufacturer. 5. Using a digital multimeter check across the positive and negative terminals of the connected monoblocs and ensure that a voltage of 24 VDC is present. 6. Repeat the above steps for the connections between monoblocs 3 and 4. 7. Connect a long battery strap between monoblocs 2 and 3. 8. Using a digital multimeter check across the positive and negative terminals of monoblocs 1 and 4 and ensure that a voltage of 48 VDC is present. 02030311-05 Airspan Networks Ltd. 7-13 Installing the BSPS Hardware Installation Guide 3 2 4 1 Figure 7-7: Method of interconnection between monoblocs 9. Protect the terminals of the monoblocs using suitable battery grease. 10. Before connecting the BSPS battery cables to the battery ensure that the battery isolation circuit breakers are in the OFF position. 11. Connect the red lead of the BSPS battery cables to the positive terminal on monobloc 4. 12. Connect the black lead of the BSPS battery cable to the negative terminal on monobloc 1. Battery 1 connection Battery 2 connection 7-14 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS 13. Check the voltage across the terminals battery input plug DC distribution rack using a DMM. Ensure that a reading of 48 volts DC is present. If so insert the plug into the corresponding socket on the front of the DC distribution rack. 14. Repeat the above steps for battery 2 if required. Note: If any faulty readings were recorded during the process, this would indicate a damaged monobloc or battery strap. Investigate and replace the faulty component. 7.4. Rectifiers The Rectifier module is the heart of the Full-Redundancy 48 VDC BSPS power system. It converts the input AC to DC current. The Rectifier is a plugged-in module designed specifically for modular systems. The BSPS can house up to three basic rectifiers 7.4.1. Installing The following provides a step-by-step procedure for installing a rectifier. To install a rectifier in the BSPS system:
1. Remove the blank panel from where you want to install an additional rectifier in the rectifier shelf. 2. Insert the rectifier into its place with the upper and lower slides. 3. Secure the rectifier in place with 4 screws in the front panel. 4. Verify that the ON LED is lit. 5. If there is a load on the BSPS system, verify, via the Load Bar, that there is current sharing in the BSPS system by the rectifier. 02030311-05 Airspan Networks Ltd. 7-15 Installing the BSPS Hardware Installation Guide 7.4.2. Calibrating The output current indication is indicated by an LED bar graph shown on the unit front panel. This bar graph is used to verify current sharing operation between modules fitted in the rack, and to indicate the percentage of the full load. Bar graph On LED indicator Figure 7-8: Rectifier module front view The calibration of the Rectifier module is simple and involves a single trimmer-
potentiometer that adjusts the output voltage. 7-16 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS To calibrate the rectifier:
1. Remove the rectifier from the unit. 2. Connect the Share (+) bus to the negative pole (-) of the rectifier. 3. Using a DMM set the output voltage to 53.50 VDC. 4. Check the single rectifier using a female connector (such as the one used in the units of the system). Or 5. Perform provisions for the calibration on a dedicated unit. 6. Access the trimmer via the small opening at the back of the cover. 02030311-05 Airspan Networks Ltd. 7-17 Installing the BSPS Hardware Installation Guide 7.5. Operating the System Controller Figure 7-9 shows the features provided on the front panel of the system controller module. 8-pin RJ-45 port Figure 7-9: System controller front panel 7-18 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS The function of the LEDs provided on the System controller module can be defined as follows:
LED Color Meaning AC DC LVD BATT FAULT Green Green Red Green Red continuous Red blinking Input AC voltage is normal Output DC voltage is normal State of the Low Voltage Disconnect circuit: red indicates that the battery is disconnected Battery test has passed General fault alarm Faulty rectifier detected The following lists the buttons and their functions on the System Controller module. Button BATT TEST ALARM OFF RESET Function This is a manual battery test button. A pencil tip may be used to activate. This button silences the module internal buzzer. A pencil tip may be used to activate. This button resets the module. A pencil tip may be used to activate. 02030311-05 Airspan Networks Ltd. 7-19 Installing the BSPS Hardware Installation Guide 7.6. Connecting BSPS Power to BSDUs The BSPSs DC Distribution unit provides circuit breakers for distributing power output to BSDUs housed in the WipLL cabinet. The DC Distribution unit contains a switch that provides an LVD circuit bypass option. When this switch is activated the battery is no longer protected against deep discharge and the system controller alarm is then activated. The distribution rack is provided with front panel and rear panel terminations for connecting to the BSPS main power rack. To connect the BSPS DC power supply to the BSDU:
1. Attach the shielded power cable connector (supplied) end that contains the wire for preventing power radiation, to the BSDUs power portlabeled POWER -
48 VDC. Ensure that the black-colored (i.e., negative) half of the connector is positioned at the top and the red-colored (i.e., positive) half at the bottom. Screw for power cable radiation immunity Power port Figure 7-10: BSDU front panel with power port and screw attachment for power radiation immunity 2. Connect the power cables yellow/green lug wire, for radiation immunity, to the BSDU chassis by using the screw attachment located alongside the power port, as displayed in Figure 7-10. 7-20 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS 3. Connect the other end of the power cable to the DC output port of the BSPSs DC Distribution unit (labeled LOAD). The rack front panel is shown in Figure 7-11. DC power connections to BSDUs Figure 7-11: DC Distribution Rack front view
! LOAD DCDC connection to BSDUs
! DC EXTextension rack DC power input connection
! BATT INbattery input connection
! LVD BYPASSbypass circuit breakers
! LOADload circuit breakers The rack rear panel is shown in Figure 7-12. 02030311-05 Airspan Networks Ltd. 7-21 Installing the BSPS Hardware Installation Guide Figure 7-12: DC Distribution Rack rear view
! LVD BYPASSLVD bypass input connection from main rack
! COMMMain/Extension Rack Communication port 7.7. Connecting BSPS Management Cables Connecting the BSPSs System Controller module to the WipLL BSDU provides the user with the ability to control the power system operating parameters, retrieving system data, and status information. The BSPS System Controller connects to the BSDU(s) via an RJ-45 port located on the front panel of the controller module. This is connected to BSDUs 9-Pin D-type port, labeled POWER Management.
! Connectors:
! BSPS: 8-pin RJ-45 (or for previous BSPS models, a 9-Pin D-type)
! BSDU: 9-pin D-type female
! Connector pinouts:
! BSPSs 8-Pin RJ-45:
7-22 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS Figure 7-13: BSDU-to-BSPS management connectors via RJ-45 (BSPS) to 9-Pin D-
type (BSDU)
! BSDUs 9-pin D-type:
COM Tx Rx 5 1 9 Figure 7-14: BSDUs 9-pin D-type Connector Pinouts 6 Note: See Chapter 5, Installing the BSDU for detailed connector pinouts. 02030311-05 Airspan Networks Ltd. 7-23 Installing the BSPS Hardware Installation Guide 7.8. BSPS Cabinet Power Requirements The following section describes the BSPS cabinet mains power requirements. Warning: The following information assumes a fully populated BSPS cabinet with main and extension power racks fitted. Cable sizes and electrical circuit protection devices discussed in the following section are typical for 230 Volt AC circuits only. Adjustments are required for other applications.
! Within the BSPS cabinet protected AC mains feeds are required for the main power rack and two power outlets.
! Both power outlets are to be installed within the cabinet on an independent radial circuit. Sockets are to be used for the connection of ancillary test/commissioning equipment only. The type of socket used is dependant on local electrical requirements.
! Power within the BSPS cabinet is to be distributed from a modular AC consumer unit fitted with a 100 amp DP isolator. The unit is to be a metal-clad type with sufficient outputs for services in the cabinet.
! The following tables displays the protective device rating and cable specification required for each element of the cabinet AC circuit. Fuse Rating Service Cabinet power input 32 amp Main rack input 16 amp Extension rack link N/A Power socket No.1 Power socket No.2 6 amp 6 amp Cable Spec 6 mm2 2.5 mm2 2.5 mm2 1.5 mm2 1.5 mm2
! Provision is made on the rear of the BSPS main power rack for the AC power connection. A terminal block is provided for the link to the extension power rack when fitted. 7-24 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS
! A terminal block is provided on the rear of the power extension rack for the link from the main power rack.
! When connecting racks to the AC mains supply loosen the grub screws on the terminal blocks. Insert the bare copper conductor ensuring correct polarity. Firmly tighten the screw and gently pull on each cable to ensure the grub screw has made full contact. Ensure that bare wires are not exposed.
! The plug fitted to the BSPS cabinet power input cable is to be compatible with the socket provided in the customers premises. It must comply with local regulations for connection of products with earth leakage exceeding 3.5 mA.
! Once AC power connections to the power racks are completed fit protective covers over the terminal blocks as shown in Figure 7-15. Supplementary earth connection Protective cover Figure 7-15: Fitting protective covers over terminal block
! Power cables are to be routed in the cable guide down right-hand side of the BSPS cabinet (when viewed from the rear).
! Secure cables in position using strategically located cable ties. 02030311-05 Airspan Networks Ltd. 7-25 Installing the BSPS Hardware Installation Guide
! Power cables external to the BSPS cabinet must be housed in trunking. The trunking is to be secured to the wall of the equipment room. Type, securing method and route of trunking is to be in accordance with customers requirements.
! A minimum separation distance of 200 mm is to be maintained between AC and DC/signaling cables when they run parallel to each other. However these cables may cross each other at right angles.
! Any dust/debris created during the installation of electrical equipment or cables shall be cleared and correctly disposed of as the installation progresses. 7.8.1. BSPS Cabinet Grounding Warning: The WipLL BSPS cabinet must be connected to the customers building common earth point (CEP) earth before connecting AC power supplies and installing any equipment.
! When the BSPS cabinet has been located an earth cable shall be run from the building common earth point (CEP) to the primary earth stud of the cabinet.
! Earth cable specification is to be 6mm2. Cable color-coding is to comply with local regulations.
! Crimp M6 x 6mm2 lug to the end of the cable to be attached to the CEP with crimp tool BMR 16U3 (Airspan Code 1PAC10336AED).
! The required length of cable is to be measured back to the cabinet earthing stud and the excess removed.
! Crimp M6 x 6mm2 lug to the cable end to be attached to the cabinet earth stud using crimp tool BMR 16U3 (Airspan Code 1PAC10336AED).
! Attach the earth cable to the CEP using fastenings provided.
! Attach the earth cable to the cabinet primary earth stud using the fastenings provided. 7-26 Airspan Networks Ltd. 02030311-05 Hardware Installation Guide Installing the BSPS 7.8.2. BSPS Equipment Supplementary Grounding
! Equipment housed in the BSPS cabinet must be supplementary grounded by connecting a ground lead between each unit ground stud and the cabinet primary ground stud.
! Cable specification is to be 2.5 mm2. Cable color-coding is to comply with local regulations. 7.9. BSPS Troubleshooting The table below indicates methods of solving problems that may arise during the BSPS installation process. Table 7-1: BSPS troubleshooting Possible Cause Remedy Symptom FAULT LED is blinking FAULT LED is on One or more rectifier modules are faulty Any breaker is left open Abnormal input or output voltages Over temperature LVD is open Battery test failed No backup time when AC is absent Battery is not connected Battery is discharged or power is low. Load is not operating Load is not connected No current sharing among rectifiers
(more then 2 segments difference between any two Load is too high. Extension rack is not properly connected to the main rack. Replace the faulty rectifier/s Check all breakers Check line voltage and load, rectifiers may be over-loaded Check the temperature sensor Check the line, general check Check the battery breaker, cables and replace battery if none of this helps Check battery charge, connections and circuit breaker Check load cables. Check load circuit breaker. Decrease the load or add rectifiers to the system. Check connections. 02030311-05 Airspan Networks Ltd. 7-27
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2003-12-31 | 903 ~ 927 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2003-12-31
|
||||
1 | Applicant's complete, legal business name |
Airspan Networks Inc
|
||||
1 | FCC Registration Number (FRN) |
0009320326
|
||||
1 | Physical Address |
777 Yamato Rd
|
||||
1 |
Boca Raton, Florida 33431
|
|||||
1 |
United States
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
h******@AmericanTCB.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
PID
|
||||
1 | Equipment Product Code |
AIRSPAN-IDR
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
B******** R******
|
||||
1 | Title |
Product Specialist
|
||||
1 | Telephone Number |
+1 56********
|
||||
1 | Fax Number |
+1 56********
|
||||
1 |
z******@airspan.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Hermon Laboratories
|
||||
1 | Name |
E******** U****
|
||||
1 | Physical Address |
Harakevet Industrial zone
|
||||
1 |
23
|
|||||
1 |
Binyamina, 30550
|
|||||
1 |
Israel
|
|||||
1 | Telephone Number |
972 4********
|
||||
1 | Fax Number |
972 4********
|
||||
1 |
g******@hermonlabs.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
Airspan Networks (Israel) Ltd.
|
||||
1 | Name |
Z**** L****
|
||||
1 | Physical Address |
Harava Street 'Unitronics' Building
|
||||
1 |
Airport City, 70100
|
|||||
1 |
Israel
|
|||||
1 | Telephone Number |
+972 ********
|
||||
1 | Fax Number |
+972 ********
|
||||
1 |
z******@airspan.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DTS - Digital Transmission System | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Indoor Data Radio (IDR) | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Power Output listed is conducted. This device must be professionally installed. Marketing to the General Public is prohibited. Only the antennas documented in the filing are approved for use with this device. The use of a different antenna not previously approved for this device or the use of an internal antenna requires the applicant to file a Class II permissive change. The antenna used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter. End-users and installers must be provided with antenna installation instructions and transmitter operating conditions for satisfying RF exposure compliance. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Hermon Laboratories Ltd.
|
||||
1 | Name |
A**** U******
|
||||
1 | Telephone Number |
972-4********
|
||||
1 | Fax Number |
972-4********
|
||||
1 |
m******@hermonlabs.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | CE | 903.00000000 | 927.00000000 | 0.0610000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC