PASOLINK FAMILY 4/6GHz 7/8GHz 11GHz 13GHz 15GHz 18GHz 23GHz 26GHz 38GHz SERIES/MODEL SYSTEM MODULATION INTERFACE 3.6-7.1 7.1-8.5 10.7-11.7 12.7-13.2 14.2-15.3 17.7-19.7 21.2-23.6 24.2-27 37-40 PASOLINK V3 PDH 4PSK 2x2MB 4x2MB 8x2MB 16x2MB 1x8MB 1x34MB 2x2MB 4x2MB 8x2MB 16x2MB (2x10/100Base-T) 8x2MB 16x2MB 1 x 34MB PASOLINK V4 PDH 4PSK PASOLINK+ PDH 16QAM + RS SDH (STM-0) SDH (STM-1) SDH (STM-1) XPIC 32QAM+RS 32QAM +RS 128QAM+RS 21x2MB (STM-1) STM-1 2x10/100Base-T STM-1 2x10/100Base-T SDH 128QAM+RS STM-1 (2xSTM-1) 2x10/100Base-T System Overview NEC has developed the PASOLINK NEO, a narrow band point-to-point digital microwave relay system operating at radio frequency (RF) bands of 6/7/8/11/13/15/18/23/26/28/32/38/52 GHz. The PASOLINK NEO system provides interface types of PDH, SDH and LAN. The transmission signals are 5 to 48 x E1, 1 to 2 x E3, 1 to 2 x STM-1, 2/4 x 10/100 Base-T(X) and GbE signals. The systems consist of antennas, outdoor unit (ODU) and Indoor unit (IDU) same as PASOLINK series. They are connected through a coaxial cable for each radio channel. Available configurations are non protected type (1+0) and protected type (1+1). The protected type is available for twin-path type and hot-standby type. Outdoor unit (ODU) ( Transmit – Receive unit) 3.IF cable and connectors ( To connect the IDU & ODU) 4.RF cable ( If the ODU is not direct mounted to the antenna) ODU (low band) TX/RX RF IF RX Antenna TX Antenna RF IF ODU (High band) TX/RX TX RX MODEM IDU Base Band MODEM IDU Base Band .Indoor unit (IDU) ( Modulation-Demodulation unit) 2.Hybrid ( coupler ) in case of 1+1 one antenna configuration 6.Antenna on the required microwave band 5.System Composition • • • • • • 1. System Configuration A.Protected system (1+1) hot standby Single antenna configuration TX/RX ODU-1 Modem-1 Switch Modem-2 TX Rx only ODU-2 H RX TX RX H TX/RX ODU-1 Rx only ODU-2 Modem-1 Switch Modem-2 .Non protected system (1+0) TX IDU ( 1+0 ) ODU RX RX TX ODU IDU ( 1+0 ) B. Protected system (1+1) Twin path – Frequency diversity TX/RX ODU-1 Modem-1 Switch Modem-2 TX Rx only ODU-2 TX RX RX RX TX RX TX TX/RX ODU-1 Rx only ODU-2 Modem-1 Switch Modem-2 .Protected system (1+1) hot standby –Space diversity Double antenna configuration TX/RX ODU-1 Modem-1 Switch Modem-2 TX Rx only ODU-2 RX RX RX RX TX TX/RX ODU-1 Rx only ODU-2 Modem-1 Switch Modem-2 D.System Configuration C. STM-1/2xSTM-1 Modulation Free : 4PSK.16/32/128QAM Flexible Interface : PDH/SDH/LAN .PASOLINK NEO Bit rate Free: 5/10/16/20/40/48E1. High System Gain / High spectrum efficiency • High System Gain achieved by each modulation with Forward Error Correction (FEC) Technology and distortion canceling technique called linearizer. • Various mounting methods for IDU. 2. 1000 Base-SX. • Easy Antenna direction adjustment.Equipment Features 1. • APS for STM-1 optical. . Easy and Quick Installation • IDU . • Excellent field proven MTBF. 1000 Base-T (LAN interface). • Low power consumption. • VLAN implementation. • High spectrum efficiency achieved by QPSK to 128QAM selectable technology. 3.ODU Interconnection : Only one coaxial cable and automatic equalization. ODU and Antenna. • Very Compact and Light. Advanced Technologies and Superb Performance • High reliability and Quality. • Allowing smaller antennas and reducing system cost. • 10 Base-T/100 Base-TX. • Changeable data transmission rate (4 to 48x2 Mbps. • Sub-band of type is changeable by replacing RF Filter. • 1+1 Hot Standby / Space Diversity / Twin Path System available. 1000 Base-SX. Frequency Agility and Easy Tuning • Field tunable local oscillator (Synthesizer) • RF point frequency can be changed through Local Craft Terminal (LCT).5 to -57Vdc. Far end base band IF loop back • Pre-settable BER alarm point: 10-3. 1000 Base-T) at the same IDU.52 GHz. 155 Mbps. 6. 10-4 or 10-5 . Maintenance Facilities • Local and remote supervision function on IDU through LCT or PNMTj • Full front access at IDU for all cabling and user interface • Loop back facility Near end base band. • Wide Input Line Voltage range is -40. • Common ODU for PDH/SDH/LAN. System Flexibility • (1+0) Non-protected or (1+1) Protected. 2x155 Mbps. • Software settable Modulation (QPSK/16QAM/32QAM/128QAM) of IDU. 1 to 2x34 Mbps. 10/100 Base-T(X).Equipment Features 4. • IDU is used commonly for 6 . 5. 6 Kbps • SC LAN : SC LAN Sub-Interface ( In case of 155 MB Capacity ) 64/128/192/265 Kbps or 2 Mbps Throughput.IDU and Party line. 9. • SV Channel commonality: .11. Service Channels • Engineering Order Wire (OW): IDU. • SC1 & SC 2: V.Equipment Feature 7. 64 Kbps Contra-Co directional : Selectable • SC3 & SC 4: RS232C . SV Commonality . ) PDH DIST CARD (PDH Distribution Card) For Nodal Solution SDH ADD/DROP INTFC .16/32/128QAM IDU Interface Board 40/48E1 STM-1(elec.) STM-1(opt.Baseband Interface Flexibility 5/10/16E1 + 2Ether 4Ether + 4E1 ODU Bitrate Free • 5/10/20/40/48E1 • STM-1 • STM-2(310MB) Modulation Free • 4PSK. System Upgradeability ODU 1+0 ODU 5E110E116E1 Upgrade Key New MODEM New INTF +New ODU +Upgrade Key ODU ODU 1+1 New INTF +Upgrade Key ODU ODU New MODEM New ODU 40E148E1 Upgrade Key New INTF +Upgrade Key ODU Repeater V ODU H ODU New IDU/ODU +Upgrade Key STM-1 2xSTM-1/XPIC . Memory Card . APS (Automatic Protection Switching) STM-1 OPT INTFC (W) STM-1 OPT INTFC (P) Working Line STM-1 OPT INTFC (W) STM-1 OPT INTFC (P) Protection Line SDH MUX SDH PASOLINK NEO STM-1 OPT INTFC (W) STM-1 OPT INTFC (P) Working Line STM-1 OPT INTFC (W) STM-1 OPT INTFC (P) Protection Line . ODU and XPIC cable kit and additional firmware.Cross Polarization Interference Canceller (XPIC) The transmission capacity of the existing STM-1 equipment can be improved up to 2xSTM-1 by adding one more IDU. IDU ODU 1 V V ODU 1 IDU OMT OMT H H IDU ODU 2 ODU 2 IDU . . 2. • Switching Priority: The switching priority is only applied under automatic switching control.Switchover Control • 1. Manual Switchover: The operator initiate this switchover by LCT or PNMT for the maintenance and test purposes. Switchover Modes: Automatic Switchover: Switching is automatically initiated if any failure or abnormality was detected in the online section. The manual switching has two selection Manual or Forced switchover. 5 -86.5) MHz 14 (13. dBm Power Control Frequency Stability Threshold Level CS = 28 (27.2527.831.0 52 51.527.5 -78 -81 -84 Above value with -1.711.221.5 -84.5 -84.037.4 38 37.6 26 24.9255.1257.5 -89.719.75.System Performance Parameters QPSK Frequency Band.9257.452.5 -89.1258.213.6 12.833.5 -87.717.0 28 27.223.35 N/A NEC Original PBR 260 PBR 320 PBR 320 PBR 320 N/A N Type or N Type or PDR100 PBR120 PBR140 PBR 220 PBR 220 PDR 70 PDR 84 +29 +25 +25 +23 +24 +24 +23 +23 +22 0 to 25 dB +18 +3 0 to 10 dB 0 to 30 dB ± 6 ppm (dBm measured at Antenna port) BER = 10 -6 -83 -86 -89 -83.14.5 dB .040.5 -86.5 -81.75) MHz 7 MHz BER = 10-3 -84 -87 -90 -83 -86 -89 6 5.2524.5 -86.214.125 7-8 7.710.451.5 32 31.5 11 10.5 -89.25 15.7 23 21.7512.5 -83.5 -83 -86 -89 -83 -86 -89 -81.7 13 15 18 17.5 -87.5 -83. ( GHz ) Range ( GHz ) RF Direct Mount RF Remote Mount Output Power.529. 5 106 109 114 106 109 114 103.5 112.5 107.5 99.5 107.5 81 84 87 Above value with +1.5 dB -15 dBm (No Error) Less than 10-12 at RSL = -30 dBm .5 110.5 105.System Performance Parameters QPSK Frequency Band.75) MHz 7 MHz BER = 10-3 Maximum Input Level dBm Residual BER 113 116 119 108 111 114 6 7-8 11 13 15 18 23 26 28 32 38 52 (dBm measured at Antenna port) BER = 10 -6 108 111 114 106.5 110.5 109.5 109.5) MHz 14 (13.5 102.5 106.5 113. ( GHz ) System Gain CS = 28 (27.5 113. 710.5) MHz 14 (13.7512.System Performance Parameters 16QAM Frequency Band.5 -83.5 -85.9255.5 -76.5 11 10.831.5 Above value with +1.5 -74.833.75) MHz 102 105 .5 -85.9257.2527.5 95.5 MHz BER = 10-3 System Gain CS = 28 (27.5 98.5 -79.5 98.527.5 -76 -79 -82 -85 -76 -79 -82 -85 -74.5 dB (dBm (dBm measured at Antenna port) BER = 10 -6 97 100 97.5 -85.25 15 14.7 13 12.7513.5 -83.5 32 31.5 -82.5 95.4 38 37.529.5 0 to 24 dB.1258.0 N/A N Type or N Type or PDR 100 PBR 120 PBR 140 PDR 70 PDR 84 PBR 220 NEC Original PBR 220 PBR 260 PBR 320 PBR 320 PBR 320 +25 +21 +21 +21 +19 +19 +18 +18 +17 +13.040.5 -82.5 -76.0 28 27. in 1 dB step variable ± 6 ppm (dBm (dBm measured at Antenna port) BER = 10 -6 -76 -79 -82 -85 -76.5 -79. ( GHz ) Range ( GHz ) RF Direct Mount RF Remote Mount Output Power.125 7-8 7.5 94.5 95.5) MHz 14 (13.5 -82.2524.75) MHz 7 MHz 3.5 89 92 .717.5 -77.5 98.215.35 18 17.6 26 24.5 -79.037. dBm Power Control Frequency Stability Threshold Level CS = 28 (27.5 -77.5 -80.223.7 23 21.711.221.5 100.5 -80.77 -80 -83 -86 -76 -79 -82 -85 6 5.214.1257.5 94 97 94 97 91.719. ( GHz ) CS = 7 MHz 3.5 104.System Performance Parameters 16QAM Frequency Band.5 104.5 15 101.5 26 100 103 28 100 103 32 97.5 23 101.5 dB -20 dBm for the BER less than 1010-3 Less than 10-12 at RSL = -30 dBm .5 38 95 98 Above value with +1.5 106.5 MHz BER = 10-3 Maximum Input Level dBm Residual BER 6 108 111 7-8 11 103 106 13 103.5 100.5 18 101.5 104. 7 13 15 18 17.7 23 21.529.5 -3 0 to 6 dB 0 to 30 dB ± 6 ppm (dBm measured at Antenna port) BER = 10 -6 -74.5 66.5 Above value with -1.452.833.5 90 87.125 7-8 7.1257.35 N/A NEC Original PBR 260 PBR 320 PBR 320 PBR 320 N/A N Type or N Type or PDR100 PBR120 PBR140 PBR 220 PBR 220 PDR 70 PDR 84 +25 +21 +21 +21 +19 +19 +18 +18 +17 +14.6 12.719.5 -74.5) MHz BER = 10-3 System Gain CS = 28 (27.6 26 24.527.221.5 -75 -75 -75 -74.213.1258.5 6 5.25 15.451.7512.5 32 31.5 -73 -73 -69.214.5 dB (dBm measured at Antenna port) BER = 10 -6 95. ( GHz ) Range ( GHz ) RF Direct Mount RF Remote Mount Output Power.System Performance Parameters 32 QAM Frequency Band.2524.0 52 51.2527.5) MHz BER = 10-3 Maximum Input Level dBm Residual BER 100.75. dBm Power Control Frequency Stability Threshold Level CS = 28 (27.5 -74.717.710.5 92.711.9255.831.9257.223.14.5 11 10.037.5 -75.5 Above value with +1.5 96 94 94 92.4 38 37.5 95.5 dB -20 dBm for the BER less than 1010-3 Less than 10-12 at RSL = -30 dBm .040.0 28 27. 5 .5 32 31.711.7513.1257.5 -69 -69 -69 -68.527.5 dB -20 dBm for the BER less than 1010-3 Less than 1010-12 at RSL = -30 dBm .7 13 12.System Performance Parameters 128 QAM Frequency Band.5 -67 -67 Above value with -1. in 1 dB step variable ± 6 ppm (dBm (dBm measured at Antenna port) BER = 10 -6 -68.5 Above value with +1.5 86.35 18 17.5 0 to 20 dB.831.9255. ( GHz ) Range ( GHz ) RF Direct Mount RF Remote Mount Output Power.5 6 5.6 26 24.0 28 27.0 N/A N Type or N Type or PDR 100 PBR 120 PBR 140 PDR 70 PDR 84 PBR 220 NEC Original PBR 220 PBR 260 PBR 320 PBR 320 PBR 320 +25 +25 +21 +21 +21 +19 +19 +18 +18 +17 +14.5) MHz BER = 10-3 System Gain CS = 28 (27.529.719.5) MHz BER = 10-3 Maximum Input Level dBm Residual BER 94.1258.5 90 88 88 86.221. dBm Power Control Frequency Stability Threshold Level CS = 28 (27.5 11 10.040.5 89.215.717.037.5 -68.2524.69.4 38 37.223.7512.25 15 14.125 7-8 7.5 84 81.214.5 -68.7 23 21.710.5 dB (dBm measured at Antenna port) BER = 10 -6 89.2527.833.9257. 52 Mbps ± 20 ppm 1/2 155/ 2x155 Mbps ±20 ppm 1/2 Channel Number Total Capacity 4/8/16/32/48 8/16/32/64/96 Mbps 34/68 Mbps 4 5 6 7 Service Channels LCT Security Levels Loop Back BER ALM Frequency Changing TX Output Control PMON V.048 Mbps ± 50 34. PMON Items. e)SEP. f) UAS . a) OFS. c) ES. Far End Baseband Loop Back and IF Loop Back Adjustable 10-3/ 10-4/ 10-5 Direct entry or Table Download entry :Available Manual Control.RS-232 x 2 channels 2 levels Near End. b) BBE. d) SES. Automatic Control and Mute Control.IDU Performance Parameters(1/2) No.368Mbps ppm SPECIFICATION SDH 1+0 Expandable / 1+1 LAN QPSK/16/32/QAM 10/100 Base-T(X) 1000 Base-SX 1000 Base-T 2/4 10/20/40/80/100/ 100+50/. 75+75 Mbps 128 QAM STM-1 : 155.11(Contra/Co-directional) x 2 channels. Item PDH 1 2 3 IDU Type Modulation Type Baseband Interface QPSK/16/32/QAM E1: E3: 2. b) d) RX Pause. Item PDH PMON SPECIFICATION SDH LAN Metering Items a) Output power level (TX PWR). e) RX CRC error 8 LED Display CTRL ・IDU Alarm (Red) ・Maintenance (Yellow) ・Memory Access (Yellow) ・Operating PWR (Green) ・ODU Alarm (Red) ・MD/CBL Alarm (Red) ・TX status (Green) ・RX status (Green) ・XPIC Reset (Yellow) for XPIC only ・Module alarm (Red) ・Module alarm (Red) ・Online (Green) for APS only ・Module alarm (Red) MODEM PDH INTFC SD INTFC LAN/WS INTFC . c) RX Multicast. a) RX Unicast. b) Received signal level (AGC V) c) Bit error rate (BER MON) LAN monitoring Items. b) RX Broadcast.IDU Performance Parameters(2/2) No. Item 1 2 3 4 Interconnection Standard Type of Cable IF cable adapter Signals Maximum Cable Length SPECIFICATION Single Coaxial Cable per system / 50 ohms 5D-FB. monitoring and power source 150 m (5D-FB) 300 m (8D-FB) 350 m (10D-FB) Automatic level equalization 33oC to +50oC (workable : -40oC to +55oC) 5 6 Cable Equalization Guaranteed temperature range . alarms.Interconnection between IDU & ODU No. 8D-FB (standard) 10D-FB IF signal. control. Alarm output Items No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 Alarm Item on LCT/PNMT MAINT PS ALM IDU CPU ALM ODU ALM1 ODU ALM2 ODU CPU ALM1 ODU CPU ALM2 TX PWR ALM1 TX PWR ALM2 TX IN ALM1 TX IN ALM2 APC ALM1 APC ALM2 RX LEV ALM1 RX LEV ALM2 IF CABLE SHORT ALM1 IF CABLE SHORT ALM2 IDU ALM HIGH BER ALM IDU/MD CBL Blinking IDU IDU ODU ODU ODU ODU ODU Blinking ALM Indication MAINT PWR -ODU Relay Alarm Output RL1 RL2 RL3 RL4 RL5 RL6 House keeping output Items No. 1 2 3 4 5 6 7 8 Alarm Item on LCT/PNMT HK OUT1 HK-OUT2 HK-OUT3 HK-OUT4 Cluster ALM Out1 Cluster ALM Out2 Cluster ALM Out3 Cluster ALM Out4 ALM Indication PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only Relay Alarm Output RL1 RL2 RL3 RL4 RL5 RL6 Notes: The Factory setting The HK that cane be configured The relays RL1 & RL2 can’t be changed House keeping Input Items No. 1 2 3 4 5 6 7 8 9 10 Alarm Item on LCT/PNMT HK-IN1 HK-IN2 HK-IN3 HK-IN4 HK-IN5 HK-IN6 Cluster ALM Input1 Cluster ALM Input2 Cluster ALM Input3 Cluster ALM Input4 Event Indication PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only PNMT only Relay Alarm Output IN1 IN2 IN3 IN4 IN5 IN6 PASOLINK NEO IDU PASOLINK NEO IDU ( 1+0 ) PASOLINK NEO IDU ( 1+1 ) . IDU Composition IDU Shelf : . IDU Modules H2930 MDPMDP-150MB150MB-1AA No.1 SDH 2-Port-LAN SDH-GbE STM1-E/O-S-1.1 for APS WS-SC-LAN/WS/SC-LAN PDH-16E1 e/w 2 Port LAN PDH-48 E1 PDH-E3 e/w 4/8E1. UNIT/MODULE NAME 1+0 Expandable 1+1 System Remarks 1 2 3 H2931 RACK H2940 MODEM H2940 MODEM H3040 DC-DC CONV H2960 STM-1 INTFC H2965 LAN/WS INTFC H3021 GbE INTFC H2960 STM-1 INTFC H2965 LAN/WS INTFC H2980 16E1 INTFC H3000 48E1 INTFC H3010 E2 INTFC H2950 CTRL Usually Provided Optionally provided QPSK/16QAM/32QAM/128QAM -20 to –60 VDC STM1-E/O-S-1. 2 Port LAN 4 5 6 7 .1/L-S-1.1/L-S-1. 3 coaxial) STM1-O-S11 STM-1 Optical S-1.0/2.Base Band Interface Item Main Interface Parameters STM1-E STM1-O-S11 STM1-O-L11 SDH-2P-LAN SDH-GBE PDH-16E1 PDH-48E1 PDH-4P-LAN PDH-1E3 PDH-2E3 Sub Interface WS-SC LAN WS SC LAN NOT USED Panel Details STM1-E STM-1 Electrical (IEC 1.1 (connector type LC) SDH-2P-LAN 2 port 10/100 Base-T(X) SDH-GBE 1000 Base-T (RJ-45) or 1000 Base-SX (LC) PDH-16E1 16E1 + 2 port LAN (D-sub 75/120 ohm selectable PDH-48E1 48E1 (MDR 75/120 ohm selectable) PDH-4P-LAN 4 port LAN only for 32QAM 100 Mbps PDH-1E3 1xE3 (34 Mbps) interface 40 Mbps PDH-1E3 2xE3 (34 Mbps) interface 80 Mbps WS (E1) and WC/Service Channel LAN for STM-1 WS (E1) Service Channel LAN for STM-1 Blank Panel Available Capacity 155 Mbps 155 Mbps 155 Mbps 155 Mbps 155 Mbps 10 .80 Mbps 80 -108 Mbps 108 Mbps 40 Mbps 80 Mbps 155 Mbps 155 Mbps 155 Mbps - .1 (connector type LC) STM1-O-L11 STM-1 Optical L-1. Baseband Interface . 102.048 Mbps +/.BaseBand Interface 48 E1 Interface 2M IN/OUT-A/-B/-C ( MDR Connector ) Input/Output Signals: Bit Rate: Code: Impedance: 16 E1 interface in each connector up to 48 E1 signals 2.4 bps HDB3 75 ohms unbalanced or 120 ohms balanced . up to 48 E1 signals 2.048 Mbps +/.4 bps HDB3 75 ohms unbalanced or 120 ohms balanced LAN interface port 1 and port 2 are separated.102. 8 to 40 Mbps shared when 16 E1 to 0E1 are used.BaseBand Interface 16 E1 Interface 2M IN/OUT-A/-B/-C Input/Output Signals: Bit Rate: Code: Impedance: PORT 1/PORT 2 (RJ-45) 8 E1 interface in each connector. 10/100 base-T(X) Auto sensing or fixed Full duplex or Half duplex Store and Forward . BaseBand Interface 16 E1 Interface . BaseBand Interface STM-1 Electrical Interface STM-1 Interface Electrical STM-1 PUT/OUTPUT.957 155. Frame Synchronization of input signal is lost BER is worse than ( 10-3~10-5 selectable ) DMR or MUX BER is worse than ( 10-5 ~ 10-9 selectable ) DMR or MUX Mounted module is not matched with the inventory STM-1 IN/OUT LC Type: Rate: Code: Wavelength: Level: Optical STM-1 INPUT/OUTPUT. G. G.1: 0 to -8 dBm (TX) / -10 to -34 dBm (RX) S-1.520 Mbps NRZ 1310 nm L-1. unbalanced STM-1 IN/OUT IEC 169-13 Type: Rate: Level: Code: Impedance STM-1 Optical Interface ALM: To indicate any ALM action occurred in the Interface LOS of STM-1 detected from the DTE or from DMR.520 Mbps 1 Vp-p CMI 75 ohms.703 155.1: -8 to -15 dBm (TX) / -8 to -28 dBm (RX) Working in APS: ONLINE ON SYANDBY APS: ONLINE OFF NO APS: ONLINE OFF . . XPIC ODU Synthesizer synchronization control. or STM-1 (SDH) data transmission in addition to the following main functions: Forward Error Correction using RS/Interleaving. IDU/ODU Power Supply. System Power On/Off. Interfered signal from opposite polarization cancellation ( XPIC ). 10/100 base-T (LAN).MODEM Unit The MODEM provides the QPSK/16QAM/32QAM/128QAM Modulation and Demodulation for E1/E3 (PDH). . Ground) Ground Terminal( 5mm2 cable) Tx Frequency: 340 MHz Rx Frequency: 140 MHz Impedance : 50 ohms Connecting IF Cable length: XPIC CTRL SEL V G IF IN/OUT 5D-FB: less than 150 m 10D-FB: less than 300 m 12D-FB: less than 350 m PWR Switch PWR MD/CBL TX ( only 1+1 ) RX (only 1+1 ) XPIC RESET ODU IDU/ODU Turn Power on To indicate the power switch of the MODEM is turned on. Selected status of ODU TX Selected status of MDOEM RX output signal XPIC function is off condition To indicate any alarm occurred at ODU Circuit. IF Signal for opposite polarization output. ( DC IN) -48VDC(negative ) . 4pins) . Blinks when IF cable is short circuit.Interfaces/Switches/Indications XIF IN/XIF OUT Only used for XPIC system IF Signal of opposite polarization. ( MOLEX M5557-4R. + (positive. 140 MHz 75 ohms ( D-SUB 15 pins) Serial Port Only used for XPIC system between two IDUs. Power Supply . The ODU will be shorten ODUs life or may be damaged if not used optional DC-DC CONV module. . it is recommended to install the optional DC-DC CONV into the IDU.Power Supply When the ODU which connected is not NEO connected to IDU NEO. CTRL Unit CALL PROTECT Transmit the EOW calling to sound the BUZZER in the opposite station Prevent service interruption in case of CTRL module replacement. 44 pins EOW input 1 (+) EOW output 1 (+) EOW input 2 (+) EOW output 2 (+) Ground RL 6 ( NO ) RL 5 ( NO ) RL 4 ( NO ) RL 3 ( NO ) RL 2 ( NO ) RL 1 ( NO ) ALM HK2 IN (+) ALM HK2 IN ((-) ALM HK1 IN ((-) ALM HK1 IN (+) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 EOW input 1 ((-) EOW output 1 ((-) EOW input 2 ((-) EOW output 2 ((-) RL 6 ( COM ) RL 5 ( COM ) RL 4 ( COM ) RL 3 ( COM ) RL 2 ( COM ) RL 1 ( COM ) HK4/CL3 IN ((-) HK4/CL3 IN (+) HK3/CL4 IN ((-) HK3/CL4 IN (+) 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 BUZZER input 1 CALL output 1 BUZZER input 2 CALL output 2 RL 6 ( NC ) RL 5 ( NC ) RL 4 ( NC ) RL 3 ( NC ) RL 2 ( NC ) RL 1 ( NC ) HK6/CL1 IN ((-) HK6/CL1 IN (+) HK5/CL2 IN ((-) HK5/CL2 IN (+) SC IN/OUT DSC1 V.6 Kbps DSC4 RS232C 9. The Memory card is accepted LCT LCT and PNMT Interface USB 1. EOW Jack for OW headset To indicate the maintenance Condition.11 64 Kbps DSC2 V.6 Kbps NE2 RS485 ASYNC. NMS NE .1 Connector Type B PNMS Interface 10 Base-T RJ-45 Back to Back Connection 10 Base-T RJ-45 An event occurred on IDU. AUX/ ALM DD-Sub F.11 64 Kbps DSC3 RS232C 9. 44 pins .SC IN/OUT DD-Sub F. However. . the range of the unit is able to fit for nominal voltages of +24 V by additional unit.Outdoor Unit ( 6 .52 GHz ) RX LEV MONITOR Turn OFF the DC power before removing the IF cable Frame Ground • The nominal power supply voltage is -48 V DC. • The weight of ODU is 3 Kg. This ODU can apply to each modulation.Outdoor Unit ( ODU ) • The transmitter-receiver is designed to handle an 8-155 Mbps digital signal in the 6-52 GHz bands. e. And to achieve high frequency efficiency performance.g. 16/32/128-quadrature amplitude modulation (16/32/128QAM) is applied. is applied to the entire RF circuit in ODU. Advanced integrated circuit technology. The equipment is designed to withstand severe weather conditions. MMIC and MIC. quadrature phase-shift keying (QPSK) modulation is applied.. • . To achieve high system gain performance. Outdoor Unit . polarizers. The RF signal power received by the single polarized antenna is is equally distributed and sent to two outdoor units through the Hybrid Combiner/Divider for 1+1 protected protected systems. one is coaxial coaxial cable connection type for 6/7/8 GHz Bands and the other is WG connection type for 11 – 52 GHz Bands. This Hybrid Combiner/Divider comprises comprises directional coupler. 6/7/8 GHz Coupler (N-type) 11 ~ 38 GHz Coupler (N-type) .Hybrid Combiner NEC has developed Hybrid Combiner/Divider over the full range of microwave frequencies for PASOLINK Series digital microwave radio pointpoint-toto-point fixed wireless systems. antenna interface. radio mounting interfaces and polarizers. NEC Hybrid Combiner/Divider is suited for Andrew or RFS Antenna. There are two types of NEC Hybrid Combiner/Divider. and all NEC ODUs. regular side signal level could be kept higher than in using 3 dB equal Combiner/Divider. 6/7/8 GHz Coupler (N-type) 11 ~ 38 GHz Coupler (N-type) . NEC 10 dB Coupler is suited for Andrew or RFS Antenna. Using this 10 dB Coupler. one is coaxial cable connection type for 6/7/8 GHz bands and the other is WG connection type for 11 . and all NEC ODUs.10 Coupler The RF signal power received by the single polarized antenna is unequally distributed to two outdoor units in the ratio of 9 to 1 through the 10 dB Coupler for 1+1 protected systems.38 GHz Bands. There are two types of NEC 10 dB Coupler. antenna interface and radio mounting interfaces. which is suited for RFS Antenna and all NEC ODUs.Ortho – Mode Transducer ( OMT ) OMT enables dual polarization feature to double the transmission capacity for the PASOLINK system. . The OMT comprises Ortho-Mode transducer. NEC OMT has Wave Guide connection type for 11-38 GHz Bands. 52 GHz Direct Mounting of 1+0 PASOLINK ODU .ODU Mounting Configurations Suitable configuration can be selected from various ODU mounting styles: • Direct Mounting on Antenna • Separate Mounting with Antenna using Waveguide or Coaxial Cable • 1+1 system with Hybrid Combiner / Divider • 2+0 system with Dual Polarization Antenna 1+0 System Configuration ODU Antenna 11 . ODU Mounting Configurations 11 .38 GHz Remote Mounting of 1+0 PASOLINK ODU 6/7/8 GHz Remote Mounting of 1+0 PASOLINK ODU . ODU Mounting Configurations 1+1 System Configuration 11 .52 GHz Direct Mounting of the 1+1 PASOLINK ODU (One Antenna with Hybrid Combiner unit) . 38 GHz Remote Mounting of 1+1 PASOLINK ODU with two antennas .ODU Mounting Configurations 11 .38 GHz Remote Mounting of 1+1 PASOLINK ODU with Hybrid Combiner 11 . ODU Mounting Configurations 6/7/8 GHz Remote Mounting of 1+1 PASOLINK ODU with Hybrid Combiner and one antenna 6/7/8 GHz Remote Mounting of 1+1 PASOLINK ODU with two antennas . 38 GHz Remote Mount Dual Pol.38 GHz Direct Mount Dual Pol. System . System 11 .ODU Mounting Configurations 2+0 System Configuration Dual Pol. System 6/7/8 GHz Remote Mount Dual Pol. Antenna System for Adjacent channel or Co-Channel assignment) 11 . PASOLINK MONITOR •Meter – Indicates the Receive level as a dc voltage •OW Indicator – Lights when the OW-ON/OFF switch is set to ON. Under this condition if the indicator is not lit replace the battery. •Head set Jack – connects the headset for OW communication •RX LEV/OW IN connector – connect the OW/RX Lev monitor to the ODU using the provided coaxial cable . •VOL control – Adjust the level of the OW RX signal. •Battery – use 6F22(UB) / 9V battery •OW ON/OFF SW – when set to ON enables OW communication between the IDU and the ODU. monitoring of the opposite and the subsequent stations from the PNMS and PNMT are disabled. .Loop Back Control (d) (a) STM-1 near-end loopback (STM-1 LB1) at the 150M INTFC/OPT INTFC module (b) STM-1 far-end loopback (STM-1 LB2) at the 150M INTFC/OPT INTFC module from LCT (c) IF loopback (IF-LB) at the MODEM module (Local only) (d) STM-1 far-end loopback (STM-1 LB2) at the 150M INTFC/OPT INTFC Module from PNMT/PNMS •Note: While the IF loopback is in execution. 4-All labels/stickers (hard and soft copy) 5-Frequency plan and system configuration documents.and tools. .PASOLINK NEO Installation Before going to any site. 9-Make sure you and your staff are in good conditions (physically) 10-Confirm the site/station entrance conditions.materials . please be sure you completely prepared the following items: 1-The installation tools. 2-The test equipment . 6-Test procedure and test data sheets ( for test work only) 7-Confirm access to site/station. 11-Move to site/station safely.( for test work only) 3-Site installation drawings. 8-Check the condition of the vehicle to be used. 1-INDOOR 1-INDOOR INSTALLATION INSTALLATION Unpackingof of Unpacking Accessories Accessories Unpacking Unpacking ofIDU IDU of Unpackingof of19" 19" Unpacking rack(if (ifsupplied) supplied) rack IFConnector Connector& &Power Power IF Connectortermination termination Connector Confirm 19" Rack Location & DC-Power Source 19"rack rackfixing fixing 19" IDU Mounting FollowThe The Follow terminationProcedure Procedure termination RackEarthing Earthing Rack Connection Connection Refer to the IDU fixing Procedure Photos IFCable Cable IF Connection Connection IDUGrounding GroundingConnection Connection IDU Follow Start up and set up Procedure Connectthe thePower Power Connect NESIC CAIRO . UNPACKING IDU •Open the carton take out the Accessories Carton •Take out the cushioning materials of the IDU Carton •Take out the IDU with the antistatic bag from the carton •Take out the IDU from the antistatic bag •Inspect IDU . leave a space of 200mm to the rear section and space of one rack unit to the top and bottom. CENTER POSITION More than one rack unit Mount the two brackets to the IDU with four screws Align the IDU to the center mount position and fix each side with (M5) screws .IDU MOUNT FRONT POSITION More than one rack unit WALL Align the IDU to the mount position Fix each side of the IDU to the rack with (M5) screws When mounting the IDU in a 19 inch rack. CONNECTOR & POWER CABLE Power Connector Power Cable Socket Contact . Set the socket contact to the following position onto the hand crimping tool Crimping Type dia.2 57027-5000 Ф 2.8 Ф 1.5 mm of Insulation 1 2 2.0 to 3. of Cable 57026-5000 Ф 1.1-Remove 3.1 Position 1 2 1 2 Hand Crimping tool (57026-5000) .8 to 2.5 to 1.6 Ф 2.6 to 3.3 to 2. 5.3. .Squeeze the handle of the hand crimping tool.Squeeze the handle of the hand crimping tool until ratchet is released.Cable should fit. so insulation and bare wire are arranged as shown. insert cable into socket contact 4. Insert socket contacts to power connector till they locked and be sure it is well fixed.5-Squeeze the handle of the hand crimping tool until ratchet Is released 6. (-48 V) (0 V) NESIC CAIRO . Polarity Polarity Antenna bracket assembling. Confirm the Polarity FollowThe The Follow terminationProcedure Procedure termination ODU Mounting Refer to the Antenna assembling guide Refer to the IDU fixing Procedure Photos IFCable Cable IF Connection Connection ODUGrounding GroundingConnection Connection ODU Connect to IDU & Follow Start up and set up Procedure IFCable CableLaying Laying IF .1-OUTDOOR 1-OUTDOOR INSTALLATION INSTALLATION FLOWCHART CHART FLOW Unpackingof of Unpacking Accessories Accessories Unpacking Unpacking ofODU ODU of Unpackingof of Unpacking Antenna Antenna IFConnector Connector IF Removethe theODU ODU Remove cover.Confirm Confirmthe the cover. UNPACKING ODU 6/7/8 GHz ODU •Open the carton •Take out the ODU with cushioning materials •Remove the cushioning materials from the ODU •Take out the ODU from the antistatic bag •Inspect ODU 11.38 GHz ODU •Open the carton •Take out the ODU with the cushioning materials •Remove the cushioning material from the ODU •Inspect ODU . POLE MOUNTING BRACKET Bracket for 6/7/8 GHz Band ODU New Type Bracket for 11-38 GHz Band ODU Old Type Bracket for 11-38 GHz Band ODU . POLE MOUNTING BRACKET NEW TYPE BRACKET NEW TYPE BRACKET . HYBRID SIDE •The hybrid is set to V-polarization when shipped from the factory •Remove the two screws.V /H POLARIZATION (1+1) V .POLARIZATION SCREWS NEC Hybrid Quasar Hybrid SCREWS SCREWS H . •Rotate the two plates to the position required for the required polarization and fix them in position with the screws .POLARIZATION ANTENNA CONNECTION UNIT PROCEDURE FOR SETTING V/H POLARIZATION USING HYBRID ANTENNA SIDE •Loosen the four screws with allen keys and rotate the antenna connection unit to the required polarization position •Tighten the four screws. Fix the ODU in this position •When horizontal polarization is required.ANTENNA DIRECT MOUNT – V/H POL PROCEDURE FOR SETTING V/H POLARIZATION •When vertical polarization is required. rotate the IDU so that the plate marked with H is pointing up. rotate the IDU so that the plate marked with V is pointing up. Fix the ODU in this position . USE OF O-RINGS •Do not use both small O-ring and large O-ring simultaneously •O-ring size is different forf different frequency bands . ODU MOUNT . Local Craft Terminal (LCT) The Local Craft Terminal (LCT) is used to access.D: 100MB or higher empty disk capacity RAM: 256 MB Display: LCD 1. setup.5. monitor and controls the PASOLINK NEO PDH/SDH Microwave Radio system.024 x 768 CD-ROM Drive Serial Port USB Port USB Cable with USB-B Connector Software Requirement: OS: Windows 2000/XP IE6.0 SP2 Java Runtime Environment V1.D.0_05 or higher . Hardware Requirement: H. manage. Installation of USB Driver: .LCT Setup Procedures 1. LCT Setup Procedures 2. Dial-up Connection: . Dial-up Connection: .LCT Setup Procedures 2. LCT Setup Procedures 2. Dial-up Connection: . 5.0_05 or higher is required.LCT Setup Procedures 1. . Installation of Java Run Time: Java Run Time Environment V1. LCT Operation Connect to the USB port of IDU using the USB cable Connect using the dial up connection “LCT”. The login window will then enter your login information User ID and password in the entry field then press login User ID Admin User Password 12345678 No password Privilege Access to the LCT and control Monitoring only . Open the Internet Explorer Enter URL Address: http://172.17.254.253 of the IE and press the “Enter” key. . To show the status of Command execution if OK Or no response.LCT Operation Description of LCT Menu Convections Yellow for MAINT status To execute the commands To logout from the LCT Then a confirmation Message will appear to Confirm or cancel. LCT Main Menu . . the SDH setup items which are applicable to setup will appear. the PDH setup items which are applicable to setup will appear. PDH with LAN or SDH STM-1 If you select PDH setup.Equipment Setup Menu From the “User Interface” menu button. And for SDH. you can select PDH E1. Equipment Setup (1/3) SDH Equipment Setup . Equipment Setup (2/3) SDH Equipment Setup . Equipment Setup (2/3) PDH Equipment Setup . Equipment Setup (2/3) PDH Equipment Setup For QPSK For 16QAM For 32QAM . The Rx frequency is automatically calculated According to the Shift frequency. . ID1 to ID16 is available and ID17 to ID32 is Available for XPIC system. two different RF Frequencies should entered. For Twin path systems. INFO Edit the point of TX frequency which should be within the range of the Start and Stop Sub-band indicated on the plate of the ODU.Equipment Setup (3/3) ODU FREQ. Inventory . .Inventory • Select “Open” or “Close” to apply to the output mode to apply for event output. Cluster can be used as IN + OUT ≤ 4 • Click “SET” Command to execute. • From OUTPUT1 to OUTPUT4 can be assigned as Cluster OUT1 to OUT4. • From OUTPUT1 to OUTPUT4 can be assigned as HK3 to HK6. • From INPU1 to INPUT6 can be assigned as housekeeping Alarm HK1 to HK6. • From INPUT3 to INPUT6 can be assigned as Input Cluster Alarm Cluster IN1 to Cluster IN4. Will be looped .Maintenance PDH Maintenance A pop-up menu will appear To select which Ch. Maintenance SDH Maintenance . • Check “With ROM “Program” Switching” Control box when the program file for “CTRL” Or “ODU” is newly downloaded and existing Program file will be replaced with the new one. • Reset the “CTRL” card will affect the radio link .2 and click the ‘execute button’.Maintenance • Select ‘CTRL’ for IDU or ‘ODU’ for No.1 or No. Maintenance . Maintenance . Provisioning (1/4) PDH Provisioning . Provisioning (2/4) PDH Provisioning ATPC MODE MTPC MODE . Provisioning (3/4) SDH Provisioning Assignable For RS-232C-1 or -2 Assignable For V.11-1 or -2 ATPC MODE MTPC MODE . Provisioning (4/4) . Provisioning Metering . PMON (Current) for PDH Equipment . PMON (History) PMON (History) PMON (Current) for SDH Equipment PMON (History) . PMON (History) . NESIC CAIRO International Training Center .