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7310 Installation and User’s Guide

 

Front Chapter 

1.2  Reporting Defects  

The units were inspected before shipment and found to be free of mechanical 
and electrical defects.   
Examine the units for any damage which may have been caused in transit.  If 
damage is discovered, file a claim with the freight carrier immediately.  
Notify Foxcom Networks as soon as possible. 
Refer to Warranty and Repair Policy for further details.  

Note 
Keep all packing material until you have completed the inspection. 

1.3  Certification 

The 7310 IFL has CE, FCC, FDA, and UL Certification. 

1.4  Conventions  

In this manual the following special formats are used: 

Note 

Notes contain information detailing the current topic. 

CAUTION  

Cautions contain information regarding situations or materials which 
could damage your product. 

WARNING 

WARNINGS CONTAIN INFORMATION REGARDING DANGEROUS 
FUNCTIONS. 

Foxcom Proprietary Information      

10 

Document No. 93-005-39-A1 

Summary of Contents for Sat Light 7310

Page 1: ...7310 Interfacility Link Installation and User s Guide Copyright 2003 ...

Page 2: ...om Ltd Beck Science Center 8 Hartom Street Har Hotzvim P O Box 45092 Jerusalem 91450 Israel Tel 972 2 589 9888 Fax 972 2 589 9898 Website www foxcom com e mail sales foxcom com This manual contains PROPRIETARY and CONFIDENTIAL information of Foxcom Inc Reproduction release to any third party or any other unauthorized use of any information contained herein is expressly prohibited Foxcom Proprietar...

Page 3: ...Jumpers 22 3 6 Aligning the Fiberoptic Cable 25 4 Product Specifications 26 4 1 7310 IFL Specifications 26 4 2 Model Dimensions 28 4 3 7310 IFL Pinouts 29 4 4 7180M Chassis Pinouts 33 5 Manual Gain Control 37 6 Trouble Shooting 38 7 Appendix I Cleaning Fiberoptic Connections 40 7 1 Cleaning Procedures for SC APC or FC APC Connectors 41 7 2 Cleaning Procedure for SC APC or FC APC Bulkhead Ports 42 ...

Page 4: ... Rear View 22 Figure 8 Jumper Installation Tx and Rx Only 23 Figure 9 Jumper Installation 2000 Switch in Slot 2 23 Figure 10 Jumper Installation 2000 Switch in Slot 5 24 Figure 11 Jumper Installation 2000 Switch in Slots in Slot 2 and 5 24 Figure 12 Fiberoptic Alignment Setup 25 Figure 13 Unit Dimensions 28 Figure 14 7180M Chassis Dimensions 28 Figure 15 7310T Transmitter Pinout 30 Figure 16 7310R...

Page 5: ...Figure 38 7310T Transmitter Pinout 59 Figure 39 7310R Receiver Pinout 61 Figure 40 7100M Pin Numbers 65 Figure 41 Mounting the Chassis and Adaptor Detail 66 Figure 42 Mounting the Pins and Adaptor 67 Figure 43 Mounting the Screws 1 67 Figure 44 Mounting the Screws 2 67 Figure 45 Mounted 2300 68 Figure 46 2300 Dimensions 68 Figure 47 2300 Front Label 68 Figure 48 2300 Pin Numbers 70 Figure 49 Fuse ...

Page 6: ...outs 34 Table 6 7180M Monitor Connector J13 Pinout 35 Table 7 Trouble Shooting 38 Table 8 2380 Alarms Pinouts J2 47 Table 9 2380 Monitor Connector Pinout J4 48 Table 10 7310T Transmitter Pinout 58 Table 11 7310R Receiver Pinout 60 Table 12 7100M Alarm Connector J9 Pinouts 63 Table 13 7100M Monitor Connector J10 Pinout 64 Table 14 2300 Alarms Pinouts J2 69 Table 15 2300 Monitor Connector Pinout J4 ...

Page 7: ...s not apply to any product which has been subject to alteration abuse improper installation or application accident electrical or environmental over stress negligence in use storage transportation or handling B Specific Product Warranty Instructions All Foxcom products are warranted against defects in workmanship materials and construction and to no further extent Any claim for repair or replaceme...

Page 8: ...Y GOODS PARTS AND SERVICES PROVIDED IN CONNECTION WITH THIS AGREEMENT INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE FOXCOM NETWORKS SHALL NOT BE LIABLE FOR ANY OTHER DAMAGE INCLUDING BUT NOT LIMITED TO INDIRECT SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF OR IN CONNECTION WITH FURNISHING OF GOODS PARTS AND SERVICE HEREUNDER OR THE PE...

Page 9: ...ble Refer to Warranty and Repair Policy for further details Note Keep all packing material until you have completed the inspection 1 3 Certification The 7310 IFL has CE FCC FDA and UL Certification 1 4 Conventions In this manual the following special formats are used Note Notes contain information detailing the current topic CAUTION Cautions contain information regarding situations or materials wh...

Page 10: ... have fuses If the unit fails pull the power supply out from the chassis and then push it back in 2 The output of the receiver is AC coupled and can withstand the bias from a satellite receiver Do not exceed 25V DC bias 3 Do not allow any dirt or foreign material to get into the optical connector bulkheads This may cause damage to the polished optical connector end faces 4 The optical fiber jumper...

Page 11: ...ransmitted i e QPSK FM etc The 7310 can be used in a wide variety of applications cellular PCS MMDS GPS VSAT CATV Earth Stations Broadcast Radar and others The RF signal is directly modulated and adds virtually no phase noise to the original signal The direct modulation coupled with the 7310 Links RF circuitry guarantees superior signal quality The 7310 is capable of more than 35 dB carrier to noi...

Page 12: ...o 3 Under each option is a square If the unit includes a particular option the square under the option should be marked For example in Figure 1 the 50 Ohm option is marked 1550 LNB 50 25 Options Figure 1 Option Sticker 1 The sticker includes options which are not relevant to the 7310 IFL Foxcom Proprietary Information 13 Document No 93 005 39 A1 ...

Page 13: ...hows the front and rear panels of the 7310 IFL Transmitter units Figure 2 7310 IFL Transmitter Front and Rear Panels Figure 3 shows the front and rear panels of the 7310 IFL Receiver units Figure 3 7310 IFL Receiver Front and Rear Panels Foxcom Proprietary Information 14 Document No 93 005 39 A1 ...

Page 14: ...allation and User s Guide Introduction to the 7310 IFL 2 3 Block Diagrams Figure 4 7310T Transmitter Block Diagram Figure 5 7310R Receiver Block Diagram Foxcom Proprietary Information 15 Document No 93 005 39 A1 ...

Page 15: ...e 1 7310T Transmitter LEDs LED Name LED Function Laser Indicates if the optical output power control is functioning RF Indicates if the RF levels are within operating limits Table 2 7310R Receiver LEDs LED Name LED Function Opt Indicates if the optical reception power is within limits RF Indicates if the RF levels are within operating limits Foxcom Proprietary Information 16 Document No 93 005 39 ...

Page 16: ...necting the back panel jumpers 6 Aligning the fiberoptic cable Observe all warnings and cautions mentioned at the beginning of this manual page 11 If after set up you experience problems refer to Trouble Shooting on page 37 Figure 6 Typical Application of a 7310 IFL 2 This section gives instructions on installing the transmitter and receiver in a chassis rackmount For instructions on installing st...

Page 17: ... standalone The power level should be 4 5 0 3 VDC 4 On the rear panel connect the coax cable to the RF Input Connector The RF LED should be lit 5 On the rear panel connect the fiberoptic cable to the Optical Connector 6 Adjust the Gain Control Potentiometer to give the desired output power Using a small screw driver turn the potentiometer located on the front panel to increase or decrease the gain...

Page 18: ...C APC connectors 2 Wipe the connector with a lint free cotton cloth 3 Note the polarity key of the optical connector before inserting To connect the cable 1 Line Up the Polarity Key 2 Insert the connector 3 Tighten the connector CAUTION Do not apply any glue silicon adhesive or any other material to the fiberoptic connector Foxcom Proprietary Information 19 Document No 93 005 39 A1 ...

Page 19: ...el should be 1V for each 1 mW measured at the Receiver input at pin 5 of the 9 pin connector standalone 4 On the rear panel connect the fiberoptic cable to the Optical Connector The Opt and RF LEDs should be lit 5 On the rear panel connect the coax cable to the RF Output Connector 6 Adjust the Gain Control Potentiometer to give the desired output power Using a small screw driver turn the potentiom...

Page 20: ...temperatures below 10 C the Transmitter s internal heater will require an additional 100 mA The Transmitter s total power requirement will then be 300 mA CAUTION Ensure that there is a good airflow around the chassis rackmount There should be the space of a rackmount between chassis 3 4 1 7180M Chassis The 7180M Chassis provides power to the plug in units The power supply is a switching type Each ...

Page 21: ...ter receiver Tx Rx one is for the optional 2000 1 1 Redundant Switch and one is for the 7180M A 2 pin jumper female is placed on the relevant pins to complete the connection between the 7180M and the units For example if a 2000 Switch is being used the jumper is placed on the Switch 7180M pins To connect the jumpers 1 Each jumper has two sets of pins upper and lower The upper pins are labeled SW S...

Page 22: ...witch is installed in Slot 2 place the JP1 and JP2 jumpers on the higher two pins and the JP3 and JP4 jumpers on the lower two pins Figure 9 Jumper Installation 2000 Switch in Slot 2 4 If the 2000 Switch is installed in Slot 5 place the JP1 and JP2 jumpers on the lower two pins and the JP3 and JP4 jumpers on the higher two pins Foxcom Proprietary Information 23 Document No 93 005 39 A1 ...

Page 23: ...tallation 2000 Switch in Slot 5 5 If the 2000 Switch is installed in Slots 2 and 5 place the JP1 JP2 JP3 and JP4 jumpers on the higher two pins Figure 11 Jumper Installation 2000 Switch in Slots in Slot 2 and 5 Foxcom Proprietary Information 24 Document No 93 005 39 A1 ...

Page 24: ... A 2 Set Signal Generator 1 to 3 dBm on the S A at 1000 MHz 3 Repeat for S G 2 at 1010 MHz 4 Set up the system as shown in Figure 12 5 Set the Transmitter Gain Control for 3rd order intermodulation level of 40 dBc at the Receiver output 6 Adjust the Receiver Gain Control for unity gain Figure 12 Fiberoptic Alignment Setup 4 If you are unable to perform this procedure refer to Manual Gain Control p...

Page 25: ...cal Input Output Impedance 75 Ω 50 Ω option Return Loss 13 dB Intermodulation Products5 40 dBc max Input Signal Range Total Power 6 25 to 5 dBm Output Signal Range Total Power 25 to 5 dBm Maximum Input without Damage 10 dB CNR 55 dB in 1 MHz BW single channel Noise Figure 40 dB Typical IMD 40 dBc Adjustable Gain Control Manual Link Gain adjustable 10 dB RF Connector F type female BNC or SMA option...

Page 26: ...ions Chassis Capacity 8 Plug ins Chassis Size 19 x 5 25 x 7 3 Standalone Size 5 x 4 8 x 1 6 Power for Chassis 100 to 240 VAC 50 60 Hz 90 Watts max Power for Standalone Transmitter 15 VDC 200 mA max 300 mA 100 C Receiver 15 VDC 270 mA max Operating Temperature Range 10 C to 55 C Storage Temperature 20 C to 85 C All specs are subject to change without prior notice Note Optical fiber plant must be si...

Page 27: ...7310 Installation and User s Guide Product Specifications 4 2 Model Dimensions Figure 13 Unit Dimensions Figure 14 7180M Chassis Dimensions Foxcom Proprietary Information 28 Document No 93 005 39 A1 ...

Page 28: ...2 P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 P11 P12 P13 P14 P15 P16 AGCA RF Alarm Open collector interface 8 Sinks current at low RF up to 30 mA 8 J12 P9 to J12 P16 See Note Below OPTA Optical Alarm Open collector interface 9 Sinks current at low optical up to 30 mA 9 J11 P1 to J11 P6 Spare Not Used Dependent on Order Note If a 2380 Relay Adaptor is installed RF and Optical Levels are measured together the a...

Page 29: ...7310 Installation and User s Guide Product Specifications Figure 15 7310T Transmitter Pinout Foxcom Proprietary Information 30 Document No 93 005 39 A1 ...

Page 30: ...8 P9 P10 P11 P12 P13 P14 P15 P16 AGCA RF Alarm Open collector interface10 Sinks current when RF level is low up to 30 mA 8 J12 P9 to J12 P16 See Note Below OPTA Optical Alarm Open collector interface11 Sinks current when optical level is low up to 30 mA 9 Spare Not Used Note If a 2380 Relay Adaptor is installed RF and Optical Levels are measured together the alarm indicates a problem in either the...

Page 31: ...lation and User s Guide Product Specifications Figure 16 7310R Receiver Pinout CAUTION When monitoring the voltage outputs use a high resistance DVM only Foxcom Proprietary Information 32 Document No 93 005 39 A1 ...

Page 32: ...he two 25 pin D connectors J12 and J13 and one nine pin connector J11 Figure 17 7180M Chassis Rear View Table 5 7180M Alarm Connector J12 Pinouts and Table 6 7180M Monitor Connector J13 Pinout describe the 7180M pinouts when any Foxcom IFL is installed in the chassis Any monitor voltages to be measured may be done between the chassis ground and the required pin 12 For further information refer to ...

Page 33: ...RFA6 6 7 RF Alarm RFA7 7 8 RF Alarm RFA8 8 9 Optical Alarm OptA1l 1 10 Optical Alarm OptAl2 2 11 Optical Alarm OptAl3 3 12 Optical Alarm OptAl4 4 13 Optical Alarm OptAl5 5 14 Optical Alarm OptAl6 6 15 Optical Alarm OptAl7 7 16 Optical Alarm OptAl8 8 17 18 19 20 21 Standby Power Supply Chassis 22 Standby Power Supply Chassis 23 Main Power Supply Chassis 24 Main Power Supply Chassis 25 Chassis Groun...

Page 34: ...or RSSI7 7 8 RSSI Monitor RSSI8 8 9 PDI Monitor PDI1 1 10 PDI Monitor PDI2 2 11 PDI Monitor PDI3 3 12 PDI Monitor PDI4 4 13 PDI Monitor PDI5 5 14 PDI Monitor PDI6 6 15 PDI Monitor PDI7 7 16 PDI Monitor PDI8 8 17 LSRI Monitor LSRI1 1 18 LSRI Monitor LSRI2 2 19 LSRI Monitor LSRI3 3 20 LSRI Monitor LSRI4 4 21 LSRI Monitor LSRI5 5 22 LSRI Monitor LSRI6 6 23 LSRI Monitor LSRI7 7 24 LSRI Monitor LSRI8 8...

Page 35: ...l Foxcom Interfacility Links If the customer chooses to add redundancy switching to the link the pin connector jumpers need to be moved Detailed instructions on moving the jumpers are provided in the Model 2000 1 1 Redundant Switch Installation and User s Guide Document Number 93 010 01 13 The LNB connector is not used in the 7310 Foxcom Proprietary Information Document No 93 005 39 A1 36 ...

Page 36: ...ignal levels accessible from the front panel and described in the following sections To adjust the Transmitter Gain 1 Set the input power to the expected power level 2 Set the gain control to the nominal voltage 3 5V 0 5 To adjust the Receiver Gain 1 Set the input power to the expected power level 2 Set the gain to unity gain Foxcom Proprietary Information Document No 93 005 39 A1 37 ...

Page 37: ...ailable measure the optical power out of the transmitter The power should be 0 4 mW to 1 mW If an optical power meter is not available then use another receiver to determine if there is optical power emerging from the transmitter use the 5 meter jumper cable If there is no optical power then the transmitter unit is malfunctioning If any or all the above are not within the guidelines the transmitte...

Page 38: ...ower coming down the fiber 2 Optical power too low too many splits too long a distance thus exceeding optical budget System may still function without LED illuminated although at reduced performance 3 The transmitter is not functioning see above 4 Optical power light illuminated with disconnected optical input Damaged leaky photodiode Unit may still function otherwise contact Factory for service F...

Page 39: ...ionally enter during installation and alignment The input and output optical ports of all OnePath Networks equipment are known in the fiber optic world as bulkhead ports The two bulkhead types used on Foxcom equipment are either the FC APC or SC APC type The purpose of this document is to define the cleaning procedure for the SC APC and FC APC bulkhead fiberoptic ports and for the SC APC and FC AP...

Page 40: ...APC or FC APC Connectors Use a Kim Wipe to gently wipe the end face surface of the connector Alternatively a Cletop automatic connector cleaner can be used Figure 19 Wiping the Connector with a Kim Wipe Figure 20 Wiping the Connector with a Kim Wipe 2 Foxcom Proprietary Information Document No 93 005 39 A1 41 ...

Page 41: ...transmitter and receiver optical ports only when there is evidence of contamination or reduced performance 7 2 1 Swab Method Using a clean fiber optic cleaning swab gently wipe out the optical port Discard the swab after use Figure 21 Cleaning the Optical Port Figure 22 Cleaning the Optical Port 2 Foxcom Proprietary Information Document No 93 005 39 A1 42 ...

Page 42: ...ts should be connected or covered with a dust cap at all times 8 Appendix II Installing a Standalone Unit To install the 7310T STD or 7310R STD 1 Place the 7310 unit on the standalone flange matching the holes 2 Using four screws 4 or 6 secure the unit and the flange to the wall 3 Using the Foxcom Power Adapter apply DC power to each unit 9 pin connector The Laser or Opt LED should be lit 3 All re...

Page 43: ...assis it must be mounted by the user The 2380 is easily mounted directly over the connectors on the 7180M backplane as shown below 9 1 Installing the 2380 Parts Needed 2380 Relay Adapter Two pin guides Four one inch screws Screw driver 9 2 Installing the 2380 Procedure To mount to the 2380 Relay Adapter WARNING DO NOT PERFORM THIS PROCEDURE BEFORE DISCONNECTING THE ELECTRICITY 1 Disconnect the ele...

Page 44: ...aptor Figure 24 Mounting the Pins and Adaptor 5 Mount the four screws The screws must be installed in the order shown in Figure 25 and Figure 26 Figure 25 Mounting the Screws 1 Figure 26 Mounting the Screws 2 Foxcom Proprietary Information Document No 93 005 39 A1 45 ...

Page 45: ... the mounting screws provided by Foxcom Using other screws can permanently damage the unit Figure 27 Mounted 2380 6 Connect the cables 9 3 2380 Dimensions and Front Panel Label Figure 28 2380 Dimensions Figure 29 2380 Front Label Foxcom Proprietary Information Document No 93 005 39 A1 46 ...

Page 46: ...NOP2 2 4 Alarm COM2 2 5 Alarm NOP3 3 6 Alarm COM3 3 7 Alarm NOP4 4 8 Alarm COM4 4 9 Alarm NOP5 5 10 Alarm COM5 5 11 Alarm NOP6 6 12 Alarm COM6 6 13 Alarm NOP7 7 14 Alarm COM7 7 15 Alarm NOP8 8 16 Alarm COM8 8 17 18 19 20 21 22 23 Main PS Alarm MPSA 24 Standby PS Alarm SPSA 25 Power Supply Comm PSCOM 14 Alarms in Pins 1 through 16 function if there is either a RF or Optical signals failure Foxcom P...

Page 47: ...8 RSSI Monitor RSSI 8 9 PDI Monitor PDI1 1 10 PDI Monitor PDI2 2 11 PDI Monitor PDI3 3 12 PDI Monitor PDI4 4 13 PDI Monitor PDI5 5 14 PDI Monitor PDI6 6 15 PDI Monitor PDI7 7 16 PDI Monitor PDI8 8 17 LSRI Monitor LSRI1 1 18 LSRI Monitor LSRI2 2 19 LSRI Monitor LSRI3 3 20 LSRI Monitor LSRI4 4 21 LSRI Monitor LSRI5 5 22 LSRI Monitor LSRI6 6 23 LSRI Monitor LSRI7 7 24 LSRI Monitor LSRI8 8 25 Chassis ...

Page 48: ...ellite receiver Do not exceed 25V DC bias 3 Do not allow any dirt or foreign material to get into the optical connector bulkheads This may cause damage to the polished optical connector end faces 4 The optical fiber jumper cable bend radius is 3 cm Smaller radii can cause excessive optical loss and or fiber breakage 5 If multiple transmitters are installed in the chassis allow sufficient room for ...

Page 49: ...Insert the meter s cable into the Transmitter s optical connector Power levels should be between 0 4 1 0 mW pins J10 P13 through J10 P18 for the slot being measured Refer to Table 13 on page 64 for details regarding J10 pinouts 7100M Rackmount at pin 6 of the 9 pin connector standalone The voltage level should be 4 5 0 3VDC 4 On the rear panel connect the coax cable to the RF Input Connector The L...

Page 50: ... at pins J10 P7 through J10 P12 for the slot being measured Refer to Table 13 on page 64 for details for details regarding J10 pinouts 7100M Rackmount The voltage level should be 1V for each 1 mW measured at the Receiver input at pin 6 of the 9 pin connector standalone 5 On the rear panel connect the fiberoptic cable to the Optical Connector The Opt LED should be lit 6 On the rear panel connect th...

Page 51: ...uirement will then be 300 mA CAUTION Ensure that there is a good airflow around the chassis rackmount Note By default the power supply is set to 230V 0 5A 7100M Chassis The 7100M Chassis provides power to the plug in units The power supply is a linear unregulated type Each plug in regulates its own voltage The power supply provides 15 to 18 VDC unregulated 2 2 amps power AC input 110 220 VAC user ...

Page 52: ... plugged in to the standard chassis The 7000S features hot swapping supplies may be installed and removed even during operation Each power supply is fully redundant and can power a completely loaded chassis on its own should its partner fail During normal operation the two units share the load by means of current steering diodes located on the rear panel Foxcom Proprietary Information Document No ...

Page 53: ...e 2000 RF Switch and one is for the 7100M A 2 pin jumper female is placed on the relevant pins to complete the connection between the 7100M and the units For example if a 2000 RF Switch is being used the jumper is placed on the Switch 7100M pins To connect the jumpers 1 Each jumper has two sets of pins upper and lower The upper pins are labeled SW Switch and the lower pins Tx Rx Transmitter Receiv...

Page 54: ...e the JP1 and JP2 jumpers on the higher two pins and the JP3 and JP4 jumpers on the lower two pins Figure 33 Jumper Installation 2000 Switch in Slot 2 4 If the 2000 Switch is installed in Slot 5 place the JP1 and JP2 jumpers on the lower two pins and the JP3 and JP4 jumpers on the higher two pins Foxcom Proprietary Information 55 Document No 93 005 39 A1 ...

Page 55: ... Jumper Installation 2000 Switch in Slot 5 5 If the 2000 Switch is installed in Slots 2 and 5 place the JP1 JP2 JP3 and JP4 jumpers on the higher two pins Figure 35 Jumper Installation 2000 Switch in Slots 2 and 5 Foxcom Proprietary Information 56 Document No 93 005 39 A1 ...

Page 56: ...7310 IFL Installation and Users Guide Appendix IV 7100M Chassis Figure 36 Unit Dimensions Figure 37 7100M Chassis Dimensions Foxcom Proprietary Information 57 Document No 93 005 39 A1 ...

Page 57: ...J4 P7 to J4 P12 PDI Indicates Laser Optical Power Range 3 to 4V 6 J10 P13 to J10 P18 J4 P13 to J4 P18 LSRI Indicates Laser Bias Range 4 5 0 3V 7 J9P1 J9P6 J2 P2 P5 P8 P11 P14 P17 RF Alarm RF Alarm Open collector interface 19 Sinks current at low RF up to 30 mA 8 J9 P14 to J9 P19 J2 P1 P4 P7 P10 P13 P16 OPTA Optical Alarm Open collector interface 20 Sinks current at low optical up to 30 mA 9 J11 P1...

Page 58: ...lation and Users Guide Appendix IV 7100M Chassis Figure 38 7310T Transmitter Pinout CAUTION When monitoring the voltage outputs use only a high resistance DVM Foxcom Proprietary Information 59 Document No 93 005 39 A1 ...

Page 59: ...5 to 10V 5 J10 P7 to J10 P12 J4 P7 to J4 P12 PDI 1V mW Optical Power Received 6 Spare Not Used 7 J9 P1 to J9 P6 J2 P2 P5 P8 P11 P14 P17 RF Alarm RF Alarm Open collector interface21 Sinks current when RF level is low up to 30 mA 8 J9 P14 to J9 P19 J2 P1 P4 P7 P10 P13 P16 OPTA Optical Alarm Open collector interface22 Sinks current when optical level is low up to 30 mA 9 Spare Not Used 21 If the 2300...

Page 60: ...llation and Users Guide Appendix IV 7100M Chassis Figure 39 7310R Receiver Pinout CAUTION When monitoring the voltage outputs use a high resistance DVM only Foxcom Proprietary Information 61 Document No 93 005 39 A1 ...

Page 61: ...ncorporates 6 slots Pinouts from the nine pin connector at each slot are sent through the backplane assembly to the two 25 pin D connectors J9 and J10 and one nine pin connector J11 Any monitor voltages to be measured may be done between the chassis ground and the required pin The pins are numbered as follows Foxcom Proprietary Information 62 Document No 93 005 39 A1 ...

Page 62: ... RFA5 5 6 RF Alarm RFA6 6 7 8 9 10 11 12 13 14 Optical Alarm OPTA1 1 15 Optical Alarm OPTA2 2 16 Optical Alarm OPTA3 3 17 Optical Alarm OPTA4 4 18 Optical Alarm OPTA5 5 19 Optical Alarm OPTA6 6 20 21 Standby Power Supply Alarm NOP SPSA 22 Standby Power Supply Alarm COM SPSCOM 23 Main Power Supply NOP MPSA 24 Main Power Supply COM MPSCOM 25 Chassis Ground GND Foxcom Proprietary Information 63 Docum...

Page 63: ...SSI4 4 5 RSSI Monitor RSSI5 5 6 RSSI Monitor RSSI6 6 7 PDI Monitor PDI1 1 8 PDI Monitor PDI2 2 9 PDI Monitor PDI3 3 10 PDI Monitor PDI4 4 11 PDI Monitor PDI5 5 12 PDI Monitor PDI6 6 13 LSRI Monitor LSRI1 1 14 LSRI Monitor LSRI2 2 15 LSRI Monitor LSRI3 3 16 LSRI Monitor LSRI4 4 17 LSRI Monitor LSRI5 5 18 LSRI Monitor LSRI6 6 19 20 21 22 23 24 25 Chassis Ground GND Foxcom Proprietary Information 64 ...

Page 64: ...r all Foxcom Interfacility Links If the customer chooses to add redundancy switching to the link the pin connector jumpers need to be moved Detailed instructions on moving the jumpers are provided in the Model 2000 1 1 Redundant Switch Installation and User s Guide Document Number 93 010 01 23 The LNB connector is not used in the 7310 Foxcom Proprietary Information 65 Document No 93 005 39 A1 ...

Page 65: ...e mounted by the user The 2300 is easily mounted directly over the connectors on the 7100M backplane as shown below 10 5 1 Installing the 2300 Parts Needed 2300 Relay Adapter Two pin guides Four one inch screws Screw driver 10 5 2 Installing the 2300 Procedure To mount to the 2300 Relay Adapter WARNING DO NOT PERFORM THIS PROCEDURE BEFORE DISCONNECTING THE ELECTRICITY 1 Disconnect the electricity ...

Page 66: ...t the four screws The screws must be installed in the order shown in and Figure 44 Figure 43 Mounting the Screws 1 Figure 44 Mounting the Screws 2 CAUTION Use only the mounting screws provided by Foxcom Using other screws can permanently damage the unit Foxcom Proprietary Information 67 Document No 93 005 39 A1 ...

Page 67: ... Guide Appendix IV 7100M Chassis Figure 45 Mounted 2300 6 Connect the cables 10 5 3 2300 Dimensions and Front Panel Label Figure 46 2300 Dimensions Figure 47 2300 Front Label Foxcom Proprietary Information 68 Document No 93 005 39 A1 ...

Page 68: ... 1 3 Common COM1 1 4 Opt Alarm OPTA2 2 5 RF Alarm RFA2 2 6 Common COM2 2 7 Opt Alarm OPTA3 3 8 RF Alarm RFA3 3 9 Common COM3 3 10 Opt Alarm OPTA4 4 11 RF Alarm RFA4 4 12 Common COM4 4 13 Opt Alarm OPTA5 5 14 RF Alarm RFA5 5 15 Common COM5 5 16 Opt Alarm OPTA6 6 17 RF Alarm RFA6 6 18 Common COM6 6 19 20 21 22 23 Standby PS Alarm SPSA 24 Main PS Alarm MPSA 25 Power Supply Comm PSCOM Foxcom Proprieta...

Page 69: ...nitor RSSI 5 6 RSSI Monitor RSSI 6 7 PDI Monitor PDI1 1 8 PDI Monitor PDI2 2 9 PDI Monitor PDI3 3 10 PDI Monitor PDI4 4 11 PDI Monitor PDI5 5 12 PDI Monitor PDI6 6 13 LSRI Monitor LSRI1 1 14 LSRI Monitor LSRI2 2 15 LSRI Monitor LSRI3 3 16 LSRI Monitor LSRI4 4 17 LSRI Monitor LSRI5 5 18 LSRI Monitor LSRI6 6 19 20 21 22 23 24 25 Chassis Ground GND Figure 48 2300 Pin Numbers Foxcom Proprietary Inform...

Page 70: ...se Drawer will come out slightly Figure 49 Fuse Drawer 230 Figure 50 Voltage Selector 230 Side 5 Pull the Fuse Drawer out completely the Voltage Selector is at the top of the compartment The number on the Voltage Selector is 230 6 Using the screwdriver gently remove the Voltage Selector from the Connector 7 Turn the Voltage Selector so that the number 115 facing outward 115 Figure 51 Voltage Selec...

Page 71: ...table Table 16 AC Voltage Fuse Part Numbers24 Voltage Current Littelfuse Part No Schurter Part No 230 0 5 A 239 500 0034 3114 115 1 0 A 239 001 0034 3117 Both fuses are slow blow 250 VAC rated Table 17 DC Voltage Fuse Part Number25 Voltage Current Bussman Part No Schurter Part No 220 5 A S506 GDC 5 0034 3124 The fuse is slow burn 24 or the equivalent 25 or the equivalent Foxcom Proprietary Informa...

Page 72: ...formation 11 Appendix V Pinouts Detailed Information The following charts give detailed information regarding the chassis and 2000 Switch pinouts Figure 52 Standard 7180M and 7180M with 2380 Relay Adaptor Pinout Foxcom Proprietary Information 73 Document No 93 005 39 A1 ...

Page 73: ...7310 IFL Installation and Users Guide Appendix V Pinouts Detailed Information Figure 53 7180M with 2000 Switch Pinout Foxcom Proprietary Information 74 Document No 93 005 39 A1 ...

Page 74: ...Guide Appendix V Pinouts Detailed Information Figure 54 Pinout of 7180M Jumper with 2000 Switch in Slot 2 and 5 Figure 55 Pinout of 7180M Jumper with 2000 Switch in Slot 2 Foxcom Proprietary Information 75 Document No 93 005 39 A1 ...

Page 75: ...User s Guide Appendix V Pinouts Detailed Information Figure 56 Pinout of 7180M Jumper with 2000 Switch in Slot 5 Figure 57 Pinout of 7180M Jumper with Tx or Rx only Foxcom Proprietary Information 76 Document No 93 005 39 A1 ...

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