GE A8950CC User's Manual
Contents
1. Main Local Power This menu displays the measured voltages of the selected power supply It also indicates the status of the power supply Pass Fail Use to select the next power supply Use to select the previous power supply Press left to exit this menu Main Local Test Various tests can be selected from the sub menus 41 Main gt Local gt Test gt LED LCD Alarm This selection runs through a series of three tests 1 LED Test All LEDs turn off then turn green and then turn red 2 LCD Test The screen turns black Then the GE logo is displayed 3 Alarm Test The front panel alarm sounds for a few seconds Main Local Test Temp This selection displays the temperature of inside optic transceiver A Main Local Test Video This menu is identical to the Main Local Video Test Menu described earlier Main gt Local gt Test gt Data This menu is identical to the Main Local Data Format Menu described earlier Main Local Test Audio This menu is identical to the Main Local Audio Test Menu described earlier Main Local Test Contact This menu is identical to the Main Local Contact Configure Menu described earlier in this section Main Local About The Local About Menu displaus the software version for each module installed in the chassis Press to view the nex2. Please refer to the Video Input Mapping Menu described earlier for important notes regarding channel mapping and instructions on how to enable mappings However note that contact signals are mapped as pairs since there are 8 contact channels per Contact Closure Module Main Local Contacts Output Mapping This screen allows you to select which optic port is being reviewed for each of the 32 contact output channels The number under the circuit icon in the middle of the screen indicates which contact channels are selected The letters under the switch icons to the left and right indicate at which optic port the selected output channels will be looking Arrows to the left and right of the circuit icon indicate that the mapping is enabled If the output channels are not mapped to a fiber then the corresponding arrow is not shown The status of the output contacts are depicted on the circuits in the middle icon e Open If the contact closure is open then the circuit is open as shown above e Closed If the contact closure is closed then the circuit is closed Please refer to the Video Output Mapping Menu described earlier for important notes regarding channel mapping and instructions on how to enable mappings However note that contact signals are mapped as pairs since there are 8 contact channels per Contact Closure Module Main Local Contacts Configure This menu allows the user to change the format or test a
3. Configure At power up every port has Auto Negotiation enabled This should work seamlessly with most Ethernet equipment However if necessary Auto Negotiation Link Speed and Duplex can be configured manually via the Phoenix chassis s front panel Refer to the section Front Panel Menu Tree and Descriptions for more information 12 Installing the Video Module Overview The Phoenix A8900VI input module is capable of inserting up to four baseband composite video signals per card A maximum of four cards can be installed in any node allowing up to 16 inputs per node The Phoenix A8905VO output module is capable of outputting up to 4 base band composite video signals per card A maximum of four cards can be installed in any node allowing up to 16 outputs per node Tools and materials required The video modules are held in place with simple thumbscrews with screwdriver slots The only tool recommended is a small flat blade screwdriver Installation instructions 1 Install video input module As shown below install video Input modules in slots 5 6 7 or 8 color keyed green and secure Up to four modules may be installed per Phoenix node Up to four incoming video signals can be installed per module by connecting to BNC mounts four on each card INSERT VIDEO INPUT MODULES IN SLOTS 5 8 Green 2 Install video output module As shown below install video output modules in slots 11 12 13 or 14 color keye
4. Use and to change selections at each line in the menu Press left to exit this screen When leaving this menu with test patterns enabled a warning message comes up alerting that test patterns have been disabled to allow real audio to pass Main Local Contacts Contacts Input and Contacts Output channel mapping monitoring and configuration can be accessed from the sub menus Main Local Contacts Input Mapping This screen allows you to assign a pair of contact input channels to a pair of contact output channels over a selected fiber port The numbers under the switch icon indicates the currently selected input channels The number under the circuit icons to the left and or right of the switch icon represent the first of two output channel numbers The arrows to the left and or right of the switch icon labeled A and B respectively indicate over which fibers this mapping is enabled If the selected input channels are mapped to the output channel then the circuit in the icon is closed and the arrow is displayed If a mapping does not exist for the selected input and output channels then the circuit is open and the arrow is not displayed The status of the input contacts are depicted on switches in the middle icon e Open If the contact closure is open then the plunger of the switch is raised as shown above 59 e Closed If the contact closure is closed then the plunger of the switch is lowered
5. 4 9 TABLE 9 RS 485 4 WIRE INTERFACE DATA SELECT Switch SW1 Position 9 standard offset Position A 1V offset Position B 2V offset Signal RS 485 Out RS 485 Out GND SHIELD 5 VDC Bias Out Termination tie to 8 if req d GND SHIELD RS 485 In RS 485 In TABLE 11 TEST MODE LOOPBACK INTERFACE DATA SELECT Switch Position F Pin Signal Tie to pin 8 Tie to pin 7 Tie to pin 2 Tie to pin 1 N C N C N C N C Data module channel sequence TABLE 10 SENSORNET INTERFACE DATA SELECT Switch Position 6 Termination tie to 8 if req d GND SHIELD 7 Sensornet Sensornet 4 Slot 1 Slot 2 Slot 3 Slot 4 RJ45 A Ch 1 IN OUT Ch 5 IN OUT Ch 9 IN OUT Ch 13 IN OUT RJ45 B Ch 2 IN OUT Ch 6 IN OUT Ch 10 IN OUT Ch 14 IN OUT RJ45 C Ch 3 IN OUT Ch 7 IN OUT Ch 11 IN OUT Ch 15 IN OUT RJ45 D Ch 4 IN OUT Ch 8 IN OUT Ch 12 IN OUT Ch 16 IN OUT 10 Installing the Ethernet Module Overview The Phoenix A8911ETH Ethernet module provides Ethernet connectivity to the Phoenix system Each module has three RJ 45 ports supporting full duplex 10 100Base T interfaces Each port also supports Auto Negotiation and automatic MDI MDI X selection Unlike other modules used in the Phoenix system the ethernet module does not use chan nels Each slot position provides access to one of four independent Ethernet networks Every port on a module can communicate with every other port on
6. 8 BNCA Ch 1 IN Ch 5 IN Ch 9 IN Ch 13 IN BNC B Ch 2 IN Ch 6 IN Ch 10 IN Ch 14 IN BNCC Ch 3 IN Ch 7 IN Ch 11 IN Ch 15 IN BNCD Ch 4 IN Ch 8 IN Ch 12 IN Ch 16 IN Video Output module channel sequence Slot 11 Slot 12 Slot 13 Slot 14 BNC A Ch 1 OUT Ch 5 OUT Ch 9 OUT Ch 13 OUT BNC B Ch 2 OUT Ch 6 OUT Ch 10 OUT Ch 14 OUT BNCC Ch 3 OUT Ch 7 OUT Ch 11 OUT Ch 15 OUT BNC D Ch 4 OUT Ch 8 OUT Ch 12 OUT Ch 16 OUT BNC A BNC B BNC C 15 Installing the Audio Module Overview The Phoenix A8920A audio module is capable of inputting and outputting up to 4 audio channels The audio module occupies one audio slot color coded black and with up to four slots available each node has a capacity of 16 channels The audio interface connector is four ganged RJ45 connectors located on each card The audio module supports an audio test pattern similar to GE Security standards Tools and materials required The audio modules are held in place with simple thumbscrews with screwdriver slots The only tool recommended is a small flat blade screwdriver Installation instructions 1 Configure audio module Prior to installation the audio modules need to be configured for proper use in the system Refer to the Fig 1 and Fig 2 for switch locations and settings a Input termination Input termination should be set depending on your system requirements You can choose either high impedance default or 600 ohm termination on an individual channel basis b Inp
7. Phoenix Fiber Optic Communications System This section explains how to configure a Phoenix chassis using the front panel The front panel has seven status LEDs an LCD display seven push buttons and two RJ 45 ports These RJ 45 ports labeled LAN and DATA are currently unused Do NOT connect any cables or equipment to these ports it may damage the Phoenix chassis Basic configuration of a Phoenix chassis is a three step process 1 Turn on power and check status 2 Select the system topology 3 Set the node ID If your system requires non default settings e g channel mapping PAL video etc please refer to the section titled FRONT PANEL MENU TREE AND DESCRIPTIONS after you have completed the basic configuration If you have not already done so install the Power Supply Module s Optic Module and any other plug in modules i e Data Video Input Video Output etc and connect cabling as instructed in the previous sections of this manual 23 1 Turn on power and check status Turn on the power to the Phoenix chassis using the switches on the Power Supply modules If two power supplies are installed turn on both switches The LEDs perform a brief test when the chassis powers up all seven LEDs turn green and then turn red After the test has completed the LEDs indicate the status of the power supplies and optics Power A and Power B If a module is installed and the power switch is on and the supply is wor
8. other modules connected to the same network i e modules plugged into the same slot number at different nodes There is no restriction to the number of modules connected to a network however they must share bandwidth between nodes Each network can sustain 25Mbps throughput between nodes Note Ethernet is inherently a bi directional communication protocol Therefore all nodes in a Phoenix system with Ethernet modules must be connected with duplex fiber connections Simplex connections between nodes will cause the network to fail Tools and materials required The Ethernet modules are held in place with simple thumbscrews with screwdriver slots The only tool recommended is a small flat blade screwdriver Installation instructions 1 Install the Ethernet module l l l Up to four Ethernet modules can be installed in the Phoenix node From left locate and insert Ethernet modules into slot 1 2 3 or 4 color keyed red and secure INSERT ETHERNET MODULES IN SLOTS 1 4 Red 11 2 Connect Connect Ethernet capable equipment directly to the Ethernet module using CATS twisted pair cables with male RJ 45 connectors at both ends Do not use breakout boxes Standard CAT5 cabling used for Ethernet is available with either straight through or crossover connections Either variety may be used with the Ethernet module The auto MDI MDI X feature of each port automatically detects the type of cable connection to establish link 3
9. with a 3 CAT 5 patch cord supplied can be used to interface to the RJ45 D Phoenix system Pinouts are shown in the tables and figures above NOTE When making data connections listed in Tables 3 through 11 always connect the pins labeled IN on the fiber unit to the pins labeled OUT on the external equipment and the pins labeled IN on the external equipment to the pins labeled OUT on the fiber unit TABLE 3 RS 232 INTERFACE DATA SELECT Switch Position 1 Pin Signal RS 232 Out GND SHIELD N C TABLE 5 TTL INTERFACE DATA SELECT Switch Position 3 Pin Signal TTL Out GND SHIELD N C GND SHIELD 7 TTL In Tie to pin 6 TABLE 7 MANCHESTER BIPHASE INTERFACE DATA SELECT Switch Position 5 Pin Signal Manchester Biphase Out Manchester Biphase Out Termination tie to 8 if req d GND SHIELD 7 Manchester Biphase In Manchester Biphase In 4 TABLE 4 RS 232 WITH HANDSHAKING INTERFACE DATA SELECT Switch Position 2 Pin Signal RS 232 Out RTS CTS Out GND SHIELD N C i TABLE 6 RS 422 INTERFACE DATA SELECT Switch Position 4 Signal RS 422 Out RS 422 Out GND SHIELD Termination tie to 8 if req d GND SHIELD 7 RS 422 In RS 422 In TABLE 8 RS 485 2 WIRE INTERFACE DATA SELECT Switch Position 6 lt 200mV Position 7 lt 1V Position 8 2V 5 VDC Bias Out Termination tie to 8 if req d GND SHIELD 7 RS 485 RS 485
10. 05VO Module Mechanical Size Weight Video e Channels 4 e Formats NTSC PAL e Input Output Signal 1 0 V p p composite e Signal to noise ratio gt 55 dB e Resolution gt 520 TVL e Input impedance 75 ohms e Differential phase 0 7 degrees e Differential gain 2 0 e 10 bit AD e Test signal Video pattern Product Ordering Model Video Input Module Video Output Module 0 75 in W x 3 30 in Hx 825 in L 19 x 84 x 210 mm 4 8 oz 136 g Part number A8900VI A8905VO 48 Audio Module Specifications Model A8920A Audio Module Mechanical Size 0 75 in W x 3 30 in H x 8 88 in L 19 x 84 x 226 mm Weight 4 0 oz 113 g Connections RJ45 or factory supplied breakout box Audio e Channels 4 duplex e Input signal Maximum 8 dBm or 18 dBm switch selectable e Input impedance gt 30 K ohms or 600 ohms switch selectable Frequency response 20 20 kHz Output signal level Maximum 8 dBm or 18 dBm switch selectable Output impedance 30 ohms unbalanced 60 ohms balanced e Audio sampling rate gt 46 8 kHz e Signal to noise ratio gt 90 dB e Total harmonic distortion 0 003 e 24 bit AD e Test signal 1 kHz 0 dBu Product Ordering Model Part number Audio module A8920A Contact Closure Module Specifications Model A8930C Contact module Mechanical Size 0 75 in W x 3 30 in H x 8 88 in L 19 x 84 x 226 mm Weight 4 oz 113 g Connectio
11. ERT CONTACT CLOSURE CARDS IN SLOTS 15 18 Black 20 2 Connect to the module Each contact closure module is shipped with four RJ45 cables and four breakout boxes to aid in connecting to the Phoenix Use the tables below to determine pin out information for your application GE Security recommends using shielded cable for all single ended applications and shielded twisted pair for all differential formats Wire gauge is dependent on copper run length Refer to manufacturer of data equipment for specific recommendations Figure 1 Terminal Block Pin Assignments Figure 2 RJ45 Socket Viewed from the rear of the unit 5 Pin K amp 5 RJ45 A RJ45 B Using the breakout box hse A breakout box with a 3 CAT 5 patch cord supplied can be used to interface to the RJ45 D Phoenix system Pinouts are shown in the tables and figures below 21 RJ45 A Top CONTACT INPUTS CHANNELS A D RJ45 B CONTACT INPUTS CHANNELS E H Contact Signal i Contact Signal e IN To activate a relay provide a connection from an IN to GROUND GND Contact Input module channel sequence Slot 15 Slot 16 Slot 17 Slot 18 RJ45 A Ch 1 4 IN Ch 9 12 IN Ch 17 20 IN Ch 25 28 IN RJ45 B Ch 5 8 IN Ch 13 16 IN Ch 21 24 IN Ch 29 32 IN RJ45 C Ch 1 4 OUT Ch 9 12 OUT Ch 17 20 OUT Ch 25 28 OUT RJ45 D Ch 5 8 OUT Ch 13 16 OUT Ch 21 24 OUT Ch 29 32 OUT 22 Configuring the
12. GE Security Phoenix Fiber Optic Communication System A8950CC installation instructions 2 ry 9 n o n a n o o o o CLI MM am am um um um MI MI AA EEA A mar t ATM MP MMM AD MI D m D ED ME ME AD LT UR D i ARR eee ny I imagination at work Installation Instructions Phoenix Fiber Optic Communication System BEFORE YOU BEGIN 1 GETTING STARTED 2 Overview 2 Determine Mounting Configuration 2 nstalling Power Supply 2 INSTALLING THE OPTICAL TRANSCEIVER MODULE 3 Point to Point Repeater Self Healing Ring Diagrams 4 LED Operating Status 5 INSTALLING THE DATA MODULE 6 Configuring the Data Module 6 nstall Data Module 7 Connect Data Module 7 Channel Mapping 7 Connection Instructions 8 RS 232 TTL RS 422 RS 485 Manchester Biphase Interface 9 RS 485 Sensornet Test Mode 9 Data Module Channel Sequence 10 INSTALLING THE ETHERNET MODULE 11 nstall Ethernet Module 11 Connect Ethernet Module 12 INSTALLING THE VIDEO MODULE 13 nstall Video Input Module 13 nstall Video Output Module 13 Connection Instructions 14 Video Module Channel Sequence 15 INSTALLING THE AUDIO MODULE 16 Configuring the Audio Module 16 Audio Input Termination Diagrams 17 Audio Input Output Charts 18 Audio Module Channel Sequence 19 INSTALLING THE CONTACT CLOSURE MODULE 20 Install Contact Closure Module 20 Connection Instructions 21 RJ45 Contact Input Contact Output Charts 22 Contact Input Contact Output Channel Sequence 22 CONFIGU
13. If a mapping does not exist for this input and output channel pair then the lines next to speaker and the arrow are not displayed Please refer to the Video Input Mapping Menu described earlier for important notes regarding channel mapping and instructions on how to enable mappings Main Local Audio Output Mapping This screen allows you to select which optic port is being reviewed for each of the 16 audio output channels The number under the speaker icon indicates which audio channel is selected The letters under the microphone icons indicate at which optic port the selected output channel will be looking Arrows to the left and right of the speaker icon indicate that the mapping is enabled If the output channel is not mapped to a fiber then the corresponding arrow is not shown Please refer to the Video Output Mapping Menu described earlier for important notes regarding channel mapping and instructions on how to enable mappings 38 Main Local Audio Test This menu allows the user to initiate a 1KHz test tone for a specified channel The first line of this menu shows the currently selected audio channel The second line indicates the status of the test tone Off or 1 0 KHz respectively An input audio module does not have to be installed to hear the test tone at the output audio module The test pattern will only be audible if the corresponding input channels output channels and optic ports are mapped
14. O INPUT TERMINATION Note One switch per channel ON S1 High Z gt 600 ON S2 High Z gt 600 The A8920A units are shipped with the input impedance set at high Z To select a 600 input impedance in place of the high Z input set switches SW1 and SW on the audio to 6000 Figure 2 Audio Level Switch Positions 2 Installing audio modules AUDIO INPUT RANGE Note Two switches per channel ON ia Low High S3 ON Ha i Low 3 High ON B Low lt gt High S5 ON E Ch C ia Low High AUDIO OUTPUT RANGE Note One switch per channel ON S7 Low 3 High ON S8 Low High If a low audio level causes the output audio signal to degrade the input sensitivity of the A8920A can be increased by switching to the 8 dBu maximum scale You can set the transmitter input to 8 dBu and the receiver output to 18 dBu to add 10 dB of gain to the system however this also increases system signal to noise ratio S N Audio modules must be installed in slots 15 16 17 or 18 color coded black Up to four Audio modules can be installed per Phoenix node The channel sequence is as follows Slot 15 top RJ45 connector is assigned to Channel Inputs 1 and 2 The second RJ45 connector gets assigned to Channel Inputs 3 and 4 The third RJ45 connector gets assigned to Channel Outputs 1 and 2 The bottom RJ45 connector gets ass
15. RING THE PHOENIX FIBER OPTIC COMMUNICATION SYSTEM 23 Turn on power and check status 23 Select the system topology 24 26 Set the node ID 26 FRONT PANEL MENU TREE AND DESCRIPTIONS 27 Main Menu Options 28 31 Menu Options Video 31 33 Menu Options Data 34 36 Menu Options Ethernet 37 Menu Options Audio 38 39 Menu Options Contact Closure 39 41 MAIN LOCAL POWER MAIN LOCAL TEST MAIN LOCAL ABOUT 41 42 MAIN REMOTE MAIN ABOUT 42 43 BLANK PANEL SPECIFICATIONS AND LIMITED WARRANTY 44 OPTICAL TRANSCEIVER MODULE SPECIFICATIONS 45 DATA MODULE SPECIFICATIONS 46 ETHERNET MODULE SPECIFICATIONS 47 VIDEO MODULE SPECIFICATIONS 48 AUDIO MODULE SPECIFICATIONS 49 CONTACT CLOSURE MODULE SPECIFICATIONS 50 CUSTOMER SUPPORT 50 Before You Begin Read these instructions before installing or operating this product Note This installation should be made by a qualified service person and should conform to local codes This manual provides installation and operation information To use this document you must have the following minimum qualifications A basic knowledge of CCTV systems and components A basic knowledge of electrical wiring and low voltage electrical hookups Intended Use Use this product only for the purpose for which it was designed refer to the product specification and user documentation Customer Support For assistance in installing operating maintaining and troubleshooting this product refer to this document and any other docu
16. S 422 Single ended to differential conversion RS232 Handshaking bit is used to indicate Tri state 2 Install data module Up to four data modules can be installed in the Phoenix node From left locate and insert data modules into slot 1 2 5 or 4 color keyed red and secure INSERT DATA CARDS IN SLOTS 1 4 Red 3 Connect Each data module is shipped with four RJ45 cables and four breakout boxes to aid in connecting to the Phoenix Use the tables below to determine pinout information for your application GE Security recommends using shielded cable for all single ended applications and twisted shielded cable for all differential formats Wire gauge is dependent on copper run length Refer to manufacturer of data equipment for specific recommendations Once the data equipment has been connected confirmation of data activity can be verified on the front panel LCD The channel order is sequential beginning with the top RJ45 in slot 1 as Channel 1 working vertically such that the bottom RJ45 in slot 1 is Channel 4 and the top RJ45 in slot 2 is Channel 5 This continues to the bottom RJ45 in slot 4 which is mapped to Channel 16 Figure 1 Fiber Link Data Connections DATA EQUIPMENT FIBER LINK DATA OUT DATA IN DATA IN DATA OUT Figure 1 Terminal Block Pin Assignments Figure 2 RJ45 Socket Viewed from the rear of the unit Pin RJ45 A RJ45 B Using the breakout box RE A breakout box
17. annel is capable of transmitting and receiving serial data throughout the Phoenix system The card is not limited to any single data type so that various formats can be mixed on a single card As with other GE Security MPD products data translation capabilities are included Tools and materials required The data modules are held in place with simple thumbscrews with screwdriver slots The only tool recommended is a small flat blade screwdriver Installation instructions 1 Configure data module Prior to installation you must specify the appropriate data format using the rotary switches on the module For each channel on the data module rotate the dial switch to the desired format If you want to select the data format from the front panel leave the switch in position O Setting Mode Setting Mode 0 Software selectable factory preset 8 RS 485 2 wire 2 V 1 RS 232 3 wire 9 RS 485 4 wire standard 2 RS 232 handshake A RS 485 4 wire 1 V 3 TTL B RS 485 4 wire 2 V 0 4 RS 422 2 wire C Reserved E 2 5 Manchester biphase D Reserved D 6 RS 485 2 wire standard Sensornet E Reserved C 4 7 RS 485 2 wire 1V F Test Mode NOTE The DATA SELECT switches are shipped in the Software Selectable setting As with all GE Security MPD products data translation can easily be accomplished using the table information below Translation Comment TTL RS 232 3 wire Signal level conversion RS 232 3 wire TTL Signal level conversion TTL gt R
18. d blue and secure Up to four modules may be installed per Phoenix node Up to four outgoing video signals for monitoring or recording can be installed per module by connecting to BNC mounts four on each card INSERT VIDEO OUTPUT MODULES IN SLOTS 11 14 Blue 15 Connection instructions Video Inputs Connect video source equipment such as cameras or matrix switcher outputs to the video input modules using the BNCs on the back of the panel Confirmation of video presence can be confirmed on the front panel LCD The channel order is sequential beginning with the top BNC in slot 5 as Channel 1 working vertically such that the bottom BNC in slot 5 is assigned Channel 4 and the top BNC in slot 6 is assigned Channel 5 This continues to the bottom BNC in slot 8 which is mapped to Channel 16 Video Outputs Connect video monitoring equipment including monitors and recording devices to the video output cards using the BNCs on the back of the panel Confirmation of video output can be confirmed on the front panel LCD As with the inputs cards the channel order is sequential beginning with the top BNC in slot 11 as Channel 1 working vertically such that the bottom BNC in slot 11 is assigned Channel 4 and the top BNC in slot 12 is assigned Channel 5 This continues to the bottom BNC in slot 14 which is Channel 16 14 Video Input module channel sequence BNCD Slot 5 Slot 6 Slot 7 Slot
19. dshake A RS 485 4 wire 1 V 3 TTL B RS 485 4 wire 2 V 0 4 RS 422 2 wire C Reserved E 2 5 Manchester biphase D Reserved D 6 RS 485 2 wire standard Sensornet E Reserved C 4 Vi RS 485 2 wire 1V F Test Mode A NOTE The DATA SELECT switches are shipped in the Software Selectable setting Use and to change selections at each line in the menu Press left to exit this screen When leaving this menu with test patterns enabled a warning message comes up alerting that test patterns have been disabled to allow real data to pass 56 Main Local Ethernet Port configurations status and traffic statistics can be accessed from these submenus Main Local Ethernet Port Status This screen allows you to monitor the link status of each port of an Ethernet module Use the arrow keys to move back and forth between the slot and port selections The and buttons increment and decrement the slot and port selections Port A is the top port Port B is the middle port and Port C is the bottom port The link status is indicated as either Up or Down If the Link is up the negotiated speed and duplex are indicated Press enter to leave this menu Main gt Local gt Ethernet Port Control This screen allows you to control the link parameters for each port of an Ethernet mod ule Use the arrow keys to navigate around the screen The and buttons increment and decrement the slot and port selec
20. ent which GE Security determines was defective due to faulty material or workmanship and coordinate the replacement of the failed equipment provided that GE Security was responsible for the original installation of the equipment GE Security will warrant that equipment shall be free from defects in material and workmanship and will substantially conform to the relevant specifications published by GE Security for a period of one year from delivery During this period GE Security will at its option repair or replace any defective item of equipment or part or component of equipment which GE Security determines was defective due to faulty material or workmanship Customer will pay transportation and insurance costs to ship the equipment GE Security will pay the return costs if the equipment is determined to have been defective Arrow symbol N in upper right hand corners of blank panels represent direction panels are to be attached to chassis 1 Slot Panel A8957RP1 4 Slot Panel A8957RP4 Specifications Product ordering Model A8957RP1 A8957RP4 Size 0 74 in W x 3 30 in H 19 x 84 mm 2 99 in W x 3 30 in H 77 x 84 mm 1 Slot Panel A8957RP1 Weight 2 oz 5 7 g 8 oz 22 85 g 4 Slot Panel A8957RP4 Optical Transceiver Module Specifications Model A8972FLC module A8974FLC module Mechanical Size 1 50 in W x 3 30 in H x 8 20 in L 38 x 84 x 208 mm Weight 8 0 oz 227 gl Connections one or tw
21. esence of a video signal for the selected channel If the camera has an X through it video is not present on this channel If the camera does not have an X through it then video is present The number under the camera icon indicates the currently selected input channel The numbers under the monitor icons to the left and or right of the camera represent the output channel numbers The arrows to the left and or right of the camera labeled A and B respectively indicate over which fibers this mapping is enabled If the selected input channel is mapped to the output channel then a black square is shown in the middle of the monitor icon and the arrow is displayed If a mapping does not exist for this input and output channel pair then the monitor icon is blank and the arrow is not shown Use the left and right button to move the cursor at the bottom of the screen Use and to increment and decrement the channel numbers Incrementing the input channel automatically increments both output channels Press enter while the cursor is at an output channel to enable a mapping Move the cursor to Exit and press enter to leave this screen All channel mapping are saved when you leave this menu 31 When a Phoenix node is initially configured or if Load Defaults is selected from the Node Menu every input channel is mapped to the output channel of the same number e g input channel 1 is mapped to output channel 1 etc on both fiber ports
22. for SHR or just fiber port A for Linear IMPORTANT In Linear mode mappings on fiber ports A and B are independent For example you could map input channel 1 to output channel 7 on fiber port A but then map input channel 1 to output channel 12 on fiber port B This allows you to have a total of 32 channels enabled in a system simultaneously 16 in one direction and 16 in the other However in Self Healing Ring mode mappings on fiber ports A and B are identical For example if you map input channel 1 to output channel 7 on fiber port A then the same mapping is made to output channel 7 over fiber B Therefore the maximum number of enabled channels in a Self Healing Ring is 16 Channel mapping behaves the same way for Data and Audio channels Main Local Video Output Mapping This screen allows you to select which optic port is being reviewed for each of the 16 video output channels The number under the monitor icon indicates which output channel is selected The letters under the camera icons indicate at which optic port the selected output channel will be looking Arrows to the left and right of the monitor icon indicate that the mapping is enabled If the output channel is not mapped to a fiber then the corresponding arrow is not shown The status of the output video signal is depicted on the screen of the monitor icon All channel mapping are saved when you leave this menu e Blank If there is no output mapping i e
23. g SHR A new screen will appear asking you to confirm your choice for topology Note that SHR is an acronym for Self Healing Ring used throughout the menus The next screen will ask you whether or not you would like to load defaults IMPORTANT If you choose to load defaults the node ID will be set to zero and all channel mapping information for this node will be lost Select cancel if you do not wish to load defaults If you chose Linear then you are returned to the Node Menu after you confirm your selection If you chose Self Healing Ring then you must also specify the length of fiber used in the entire ring The key increments the length by 10km The key decrements the length by 10km Round up when selecting the ring length Press enter when you are done You must confirm your selection before continuing 29 Main Local Node Load Defaults This feature sets the node ID back to zero and clears all channel mapping information for this node The topology is retained Main Local Optics Information about the fiber optic transceivers can be accessed from the sub menus Main Local Optics Transmit A This screen shows the optical launch power of the selected optic transceiver Use the button to select the next transceiver Use the button to select the previous transceiver The launch power is displayed in milliwatts mW Values around 4mW are normal Additionally the transcei
24. g brackets are adjustable Choose the best location to fit your application and position brackets using the supplied hardware Remove screws holding front mounting bracket move to top bottom back or front and refasten Installing Power Supplies All installation should be from rear of rack unit To install power supply slide power supply in slot A and secure with hardware Remove center support panel and use to cover open slot if redundant power supply is not used Optional Redundant Power Supply When using the redundant power supply remove panel and insert second power supply in slot B and secure poso REESE e Rw WH o eco i ie d RD i ee A Sean f i p XX Spare fuse Active fuse a A Slot B 4 A8960AC Rey Optional Redundant Power Supply Specifications Model A8960AC Electrical Input power 100 V to 240 V 60 to 50 Hz Size 1 65 in W x 3 30 in H x 8 00 in D 42 x 84 x 203 mm e Current requirement 2A Power consumption 40 W Weight 1 25 Ib 5 67 g Protection 250 V 2 A fuse Module Installation The Optical Transceiver is the first module to be installed Installing the Optical Transceiver Module Overview The Phoenix optical transceiver module is used to provide connectivity to the fiber connections between nodes The A8972FLC optical transceiver module contains a single optical transceiver with dual LC connectors and is used as an end n
25. hassis to route information over its fiber links correctly it must know the topology of the entire system A chassis can be part of either a Linear or Self Healing Ring topology If you are configuring a Self Healing Ring topology then each node must also know the total length of optical fiber used in the ring Once set the topology and ring length will be remembered if the chassis loses power 24 The topology and node ID are set using the front panel LCD display The LCD displays a menu from which sub menus or features can be selected The push buttons allow you to navigate through the menus A small black arrow is used as a cursor The up and down buttons move the cursor up or down one line in the menu respectively The enter button selects the sub menu or feature at which the cursor is pointing The left button takes you back up one level in the menu hierarchy The remaining three buttons right and are menu specific and are described later A E 3 v A brief initialization routine is displayed on the LCD when the chassis powers up A splash screen showing the GE logo and Phoenix product name is displayed after the routine completes After approximately one minute of inactivity the LCD display will turn off The display can be re enabled by pressing any of the seven buttons on the front panel If the splash screen is displayed or if the display is blank press the enter button one time This will bring up the Mai
26. he arrows to the left and or right of the middle icon labeled A and B respectively indicate over which fibers this mapping is enabled If the selected input channel is mapped to the output channel then a square wave is displayed on the oscilloscope icon and the arrow is displayed If a mapping does not exist for the selected input and output channel pair then the square wave and the arrow are not displayed The status of the input data signal is depicted on the screen of the middle icon e Z A high impedance condition is detected at the data input i e no equipment is driving an active signal H A high level is detected at the data input i e a logic 1 e L A low level is detected at the data input i e a logic 0 54 e Square Wave Active data is detected at the data input Please refer to the Video Input Mapping Menu described earlier in this manual for impor tant notes regarding channel mapping and instructions on how to enable mappings Main Local Data Output Mapping This screen allows you to select which optic port is being reviewed for each of the 16 data output channels The number under the middle oscilloscope icon indicates which data channel is selected The letters under the oscilloscope icons to the left and right indicate at which optic port the selected output channel will be looking Arrows to t he left and right of the middle icon indicate that the mapping is enabled If the output channe
27. he push buttons and LCD display The LCD shows menus from which sub menus or features can be selected A small black arrow is used as a cursor The up and down buttons move the cursor up or down one line in the menu respectively The enter button selects the sub menu or feature at which the cursor is pointing The left button takes you back up one level in the menu hierarchy The remaining three buttons right and are menu specific and are described later ef Main Menu The menus accessible from the front panel are shown in the menu tree below Pressing any key from the opening screen will take you to the Main Menu Main Local There are nine selections available to configure and monitor the local node Some of the choices show information regarding the node or the modules installed 1 Node Shows node ID topology and ring length if SHR 2 Optics Shows optic ports that have transceivers installed 3 Video I O Shows the number of input and output video channels installed 4 Data Shows the number of installed data channels 5 Audio Shows the number of installed audio channels 6 Contacts Shows the number of installed contact channels 7 Power Shows which power supplies are installed 8 Test 9 About Only three of the menu choices are visible on the LCD at one time Pressing the down button when the cursor is at the bottom of the screen will display the next three menu choices Similarl
28. igned to Channel Outputs 3 and 4 Subsequent modules placed in slots 16 17 and 18 are assigned to Channels 5 8 9 12 and 13 16 respectively 17 INSERT AUDIO CARDS IN SLOTS 15 18 Black 3 Connecting to audio modules GE Security recommends connecting to the terminal block using high quality shielded twisted pair wire for best audio performance The I O for the audio inputs and outputs are as follows RJ45 A Top AUDIO INPUTS CHANNELS A B RJ45 B AUDIO INPUTS CHANNELS C D Pin Audio Signal i Audio Signal INC GND SHIELD GND SHIELD ND G GND NOL RJ45 C AUDIO OUTPUTS CHANNELS A B RJ45 D Bottom AUDIO OUTPUTS CHANNELS C D Pin Audio Signal Pin Audio Signal GND SHIELD GND SHIELD GND GN 7 18 Figure 1 Terminal Block Pin Assignments 5 s o 7 gt lt 2 8 gt lt i Using the breakout box A breakout box with a 3 CAT 5 patch cord supplied can be used to interface to the Phoenix system Pinouts are shown in the tables and figures above Audio module channel sequence Figure 2 RJ45 Socket Viewed from the rear of the unit Pin RJ45 A RJ45 B RJ45 C RJ45 D Slot 15 Slot 16 Slot 17 Slot 18 RJ45 A Ch 1 2 IN Ch 5 6 IN Ch 9 10 IN Ch 13 14 IN RJ45 B Ch 3 4 IN Ch 7 8 IN Ch 11 12 IN Ch 15 16 IN RJ45 C Ch 1 2 OUT Ch 5 6 OUT Ch 9 10 OUT Ch 13 14 OUT RJ45 D Ch 3 4 OUT Ch 7 8 OUT Ch 11 12 OUT Ch 15 16 OUT 19 Ins
29. king properly the corresponding LED will be green If the supply is installed but the power switch is off or a problem has been detected the LED will turn red If either power supply slot is empty then the corresponding LED will be off Optic A and Optic B If an optic transceiver is installed in one of the top two Optic Module transceiver slots the corresponding LEDs indicate the status of the following conditions 1 The transmit laser is working properly 2 The receive photodiode detects sufficient light over the fiber 3 The receiver detects another Phoenix node at the other end of the fiber If all three of these conditions are true then the LED will be green If any of these conditions is not true then the LED will be red If an optic transceiver module slot is empty then the LED will be off Optic C and Optic D These LEDs are unused After the power on test they will always be off Status This LED indicates the status of the ring when the Phoenix system is configured as a Self Healing Ring SHR If the ring is complete no fiber breaks the LED will be green If a single fiber break is detected the LED turns amber orange If a double fiber break is detected the LED turns red Note that a single fiber break will not result in a loss of video audio or data A double fiber break may result in lost video audio or data The LED is off if the system is a Linear topology 2 Select the system topology In order for a Phoenix c
30. l is not mapped to a fiber then the corresponding arrow is not shown The status of the output data signal is depicted on the screen of the middle icon e Z A high impedance condition is detected at the data input i e no equipment is driving an active signal H A high level is detected at the data input i e a logic 1 e L A low level is detected at the data input i e a logic O 39 e Square Wave Active data is detected at the data input Please refer to the Video Output Mapping Menu described earlier for important notes regarding channel mapping and instructions on how to enable mappings Main Local Data Format Select This menu allows the user to view and change the format for a specified data channel The first line of this menu shows the currently selected channel The second line shows the current data format If the switch on the Data Module for the corresponding data channel is set to position 0 then the data format can be modified If the switch is set to any other position then the format cannot be changed The third line indicates the status of a test pattern OFF or ON 1 0 Z The test pattern is generated at the specified output channel so an Input Data Module is not required and channel mappings will have no affect on the test pattern Setting Mode Setting Mode 0 Software selectable factory preset 8 RS 485 2 wire 2 V 1 RS 232 3 wire 9 RS 485 4 wire standard 2 RS 232 han
31. llows the user to select the format of the video test patterns and to initiate a test pattern for a specified channel The first and second lines of this menu show the currently selected video channel and the status of the test pattern Off or Ramp respectively An input video module does not have to be installed to view the pattern at the output video module The test pattern will only be visible if the corresponding input channels output channels and optic ports are mapped The third line indicates the video format NTSC or PAL The default is NTSC The video format is a global selection and affects all test patterns e g Ramp One Bar Two Bar etc on all video channels Use and to change selections at each line in the menu Press left to exit this screen When leaving this menu with test patterns enabled a warning message comes up alerting that test patterns have been disabled to allow real video to pass 53 Main Local Data Data Input and Data Output channel mapping monitoring format and tests can be accessed from the sub menus Main Local Data Input Mapping This screen allows you to assign a data input channel to a data output channel over a selected fiber port The number under the middle oscilloscope icon indicates the currently selected input channel The numbers under the oscilloscope icons to the left and or right of the middle oscilloscope icon represent the output channel numbers T
32. mentation provided If you still have questions please contact technical support during normal business hours Monday through Friday excluding holidays between 6 a m and 5 p m Pacific Time GE Security Call 888 437 3287 US including Alaska and Hawaii Puerto Rico Canada Outside the toll free area 503 885 5700 Fax 561 998 6224 Note You should be at the equipment and ready with details before calling Technical Support Conventions Used in this Manual Boldface or button icons highlight command entries The following WARNING CAUTION and Note statements identify potential hazards that can occur if the equipment is handled improperly WARNING Improper use of this equipment can cause severe bodily injury or equipment damage CAUTION Improper use of this equipment can cause equipment damage Note Notes contain important information about a product or procedure This symbol indicates electrical warnings and cautions This symbol indicates general warnings and cautions Getting Started CAUTION This product contains ESD sensitive components Although all precautions have been made to reduce ESD susceptibility use good grounding techniques when handling uninstalled modules Overview Installing the Phoenix chassis is a three step process 1 Install mounting hardware and power supplies 2 Install modules and connect cabling 3 Configure the system Determine Mounting Hardware Mountin
33. n Menu If any other menu is displayed then press the left button until the Main Menu is shown Du Use the up and down buttons to move the cursor to 1 Local Press the enter key to select the Local Menu 25 Press enter again to select the Node Menu If you are configuring a system with a linear topology and item 2 in the menu reads 2 Type Linear then you do not have to make any changes and can continue to Step 3 below Otherwise select item 2 from the menu This displays the Topology Menu Move the cursor to the topology of the system from the menu s choices Linear or Self Healing Ring SHR Press enter A new screen will appear asking you to confirm your choice for topology Move the cursor to Accept and press enter The next screen will ask you whether or not you would like to load defaults Move the cursor to Accept and press enter If you chose Linear then you can continue to Step 3 after you have been returned to the Node Menu If you chose Self Healing Ring then you must also specify the length of fiber used in the entire ring The key increments the length by 10km The key decrements the length by 10km Round up when selecting the ring length Press enter when you are done You must confirm your selection on the following screen by moving the cursor to Accept and pressing enter The topology is now set and you are returned to the Node Menu Note that the topology and ri
34. n a linear system connect the fiber to Optic A in the end node node with only one fiber transceiver to Optic B in the subsequent node Repeat until the headend node is reached where the fiber must go into Optic A In self healing ring systems simply connect Optic A from one node to Optic B on the next node throughout the ring Point to Point Connect A8972FLC A8972FLC Repeater Connect Tx B Rx B A8972FLC A8974FLC A8972FLC HEAD END MIDDLE NODES FIELD END NODE Self Healing Connect Tx A Rx A Tx B Rx B Tx A Rx A Tx B Rx B Tx A Rx A Tx B Rx B Tx A Rx A Tx B Rx B A8974FLC A8974FLC A8974FLC A8974FLC 3 Verify fiber connectivity Using the LEDs on the back of the unit adjacent to the optic module verify proper operation as shown in the table below Both optical launch power and optical receive power as well as transceiver status can be verified from the LCD front panel LED operating status Indicates faulty LASER or no module installed LASER operating within specifications Indicates sufficient power received and frame synchronization Optic LED RED TX OFF GREEN Rx OFF Indicates insufficient optical power Installing the Data Module Overview The Phoenix A8910MPD data module is capable of inserting extracting 4 channels of multiprotocol serial data MPD per module With a maximum of four cards per node the system capacity is 16 channels Each ch
35. neither fiber is selected then a blank monitor icon is shown e Two Bar If the output is mapped but video is not detected on any of the selected fibers then two bars are shown in the monitor 32 e One Bar If the input and output channels are both mapped but no input video signal is detected then one bar is shown in the monitor e Square If the input and output channels are both mapped and active video is detected then a black square is shown in the center of the monitor Press and to select an output channel while the cursor is under the middle icon Use left and right to move the cursor at the bottom of the screen To enable fiber port A move the cursor to the left and then press enter Similarly to select fiber B move the cursor to the right and press enter To leave this screen move the pointer to Exit and press enter All channel mapping are saved when you leave this menu When a Phoenix node is initially configured or if Load Defaults is selected from the Node Menu the default output mappings depend on the system topology In Linear mode every output channel is initially mapped to fiber port A In Self Healing Ring mode every output channel is initially mapped to both fiber ports IMPORTANT In Linear mode either A B or no optic port can be selected depending on what optics are installed In Self Healing Ring mode either both fiber ports are mapped or neither port is mapped This menu a
36. ng length is indicated on item 2 in the menu 3 Set the Node ID Every Phoenix node i e chassis in a system should have a unique node ID number The node ID is set to 0 the first time a Phoenix chassis is switched on This is an invalid ID it must be a number between 1 and 255 Once set the node ID will be remembered if the chassis loses power Navigate to the Node Menu if it is not currently displayed on the LCD Move the cursor to 1 ID and press enter The ID will increment by one if you press Similarly the ID will decrement by one if you press If you press and hold either of these buttons the node ID will slowly increment or decrement The rate will increase if you continue pressing the button Once you have the node ID set pres the enter button Another menu will ask you to confirm your selection Move the cursor to Accept and press enter The node ID is now set and you are returned to the Node Menu Note that the node ID is now shown after 1 ID in the menu Congratulations You have completed the basic configuration If your system requires non default settings e g channel mapping or PAL video or if you would like to learn more about the available menus and features refer to the following section 26 FRONT PANEL MENU TREE AND DESCRIPTIONS The menus accessible from the front panel are shown in the menu tree below Navigating through the menu tree is accomplished using t
37. ns RJ45 or factory supplied breakout box Contacts Relays e Contact inputs 8 Relay outputs 8 e Relay contact rating 0 5 A 20 VDC resistive Frequency 500 Hz Product Ordering Model Part number Contact closure module A8930C Customer Support For assistance in installing operating maintaining and troubleshooting this product refer to this document and any other documentation provided If you still have questions please contact technical support during normal business hours Monday through Friday excluding holidays between 6 a m and 5 p m Pacific Time GE Security Call 888 437 3287 US including Alaska and Hawaii Puerto Rico Canada Outside the toll free area 503 885 5700 Fax 561 998 6224 www gesecurity com US Asia Canada Latin America T 561 998 6100 T 852 2907 8108 T 519 376 2430 T 305 593 4301 G t Secu rity T 888 GE SECURITY F 852 2142 5063 F 519 376 7258 F 305 593 4300 888 437 3287 F 561 998 6224 Australia Europe E gesecuritycustserv ge com T 613 9239 1200 T 44 113 238 1668 www GESecurity com F 613 9239 1299 F 44 113 253 8121 As a company of innovation GE Security reserves the right to change product specifications without notice For the latest product specifications visit GE Security online at www GESecurity com or contact your GE Sales Representative 11 A8950CC E Released 20 APRIL 07 Copyright O 2006 General Electric Company All rights reserved 50
38. o duplex LC connectors Optical Mode Single mode Optical Budget 20 dB Operating distance 20 km Emitter Laser Wavelength 1310 nm e Transmitter launch power 2 dBm typical Receiver sensitivity 22 dBm typical Gain control OAGC Connector style Duplex LC Product ordering Model Part number Single optical input output module A8972FLC Dual optical input output module A8974FLC 45 Data Module Specifications Model A8910MPD duplex data module Mechanical Size 0 75 in W x 3 30 in H x 8 88 in L 19 x 84 x 226 mm Weight 4 0 oz 113 gl Connections RJ45 or factory supplied breakout box Data e Channels 4 duplex e Formats RS 232 3 wire 5 wire TTL RS 422 2 wire A wire RS 485 Manchester Biphase Sensornet e Baud rate DC to 512 kbps depending on data format Bit error rate 10 e Test signal Internally generated RS 485 signal Product Ordering Model Part number Duplex data module A8910MPD Ethernet Module Specifications Model A8911ETH Ethernet Module Mechanical Size 0 75 in W x 3 30 in H x 8 88 in L 19 x 84 x 226 mm Weight 4 0 oz 113 g Ethernet Ports 3 10 100BASE T e Auto Negotiation e Supports Full and Half Duplex e Throughput Module Port to Port Line Rate Between Nodes 25 Mbps e Auto MDI MDI X Product Ordering Model Part number Ethernet Module A8911ETH Video Module Specifications Model A8900VI Module A89
39. ode in either a point to point or linear system The A8974FLC optical transceiver module features two optical transceivers with two dual LC connectors and is used in repeating nodes within a linear system as well as all nodes in a self healing ring system Tools and materials required The optical module is held in place with simple thumbscrews with screwdriver slots The only tool recommended is a small flat blade screwdriver WARNING Insure main power is off when installing or removing Installation instructions 1 Install optical transceiver module in slots 9 and 10 color keyed white and secure CAUTION Use caution when inserting it into a slot adjacent to an existing module It is best to install this module in your node first to avoid potential damage to components on the back of this module INSERT OPTICAL TRANSCEIVER MODULES IN SLOTS 9 10 White 2 Connect fiber Connect single mode fiber optic cables by using LC connectors Each port connects to a pair of fibers The top fiber in a port is the laser output Tx and the bottom fiber is the photo diode input Rx In a point to point system connect the optic in port A from the first node to the optic in port A in the second node Remember that the two fibers need to be crossed so that the laser output on one node is connected to the photodiode input in the other node This can be verified by observing the corresponding LEDs as shown in the table below I
40. specified contact channel Use and to change selections at each line in the menu Press left to exit this screen The top line of this menu shows the currently selected channel The second line 1 Style shows the current contact format e Momentary Configures the selected input channel to behave like a momentary switch e Latched Configures the selected input channel to toggle each time the contact closes 40 The third line 2 Type allows system events to be mapped to contact closure output channels e Transmitted The contact behaves normally e Optic A A problem on optic port A closes the selected contact e Optic B A problem on optic port B closes the selected contact e Optic A or B A problem on either optic port closes the selected contact e Video X Loss of video on the specified video input channel where X is the video channel closes the selected contact e Video W X Y Z Loss of video on any of the specified video input channels where W XY Z are the video channels closes the selected contact The fourth line 3 Force allows a contact output to be forced into a known state for test None The test is disabled and the contact behaves normally e Open The contact is forced open e Closed The contact is forced closed When leaving this menu with test patterns enabled a warning message comes up alerting that the test states have been disabled to allow real contact closure information to pass
41. t slot Press to view the previous slot 42 Main Remote This option is not available An Under Construction message is displayed when selecting this menu Main About The Main About Menu displays the software version of the chassis 45 Blank Panel Installation and Specifications Overview The Phoenix blank panel s are available in one slot A8957RP1 and four slot A8957RP4 models and are designed and recommended for covering any open or unused card access points on the back of the Phoenix card rack Tools and materials required The blank panels are held in place with simple thumbscrews with screwdriver slots The only tool recommended is a small flat blade screwdriver Installation instructions From back of Phoenix card rack locate any unused module slots If they are one card slot wide use part number A8957RP1 for single slot openings and A8957RP4 if the opening is four slots wide Line up the thumbscrews with the threaded hole on the open panel and tighten top and bottom screws until panel fits snugly in empty slot Limited warranty GE Security warrants that equipment will be free from defects in material and workmanship and will substantially conform to the relevant specifications published by GE Security for a period of five years from delivery During this period GE Security will at its option repair or replace any defective item of equipment or part or component of equipm
42. talling the Contact Closure Module Overview The Phoenix A8930C contact closure module is capable of supporting up to 8 contact closure inputs and 8 contact closure outputs per module With up to 4 modules available per system up to 32 contact inputs and outputs can be transmitted Contact closure modules are color coded black and can be installed in slots 15 16 17 or 18 The input output interface is four ganged RJ45 connectors located on each card See contact closure pin out connection in Fig 2 Tools and materials required The contact closure modules are held in place with simple thumbscrews with screwdriver slots The only tool recommended is a small flat blade screwdriver Installation instructions 1 Install contact closure module Install contact closure modules in slots 15 16 17 or 18 color coded black and secure Up to four contact closure modules can be installed in each node Connect contact closure wires to terminal blocks on each card by using the RJ45 connectors The channel sequence is as follows Slot 15 top RJ45 connector is assigned to Channel Inputs 1 2 3 and 4 The second RJ45 connector gets assigned to Channel Inputs 5 6 7 and 8 The third RJ45 connector gets assigned to Channel Outputs 1 2 5 and 4 The bottom RJ45 connector gets assigned to Channel Output 5 6 7 and 8 Subsequent modules placed in slots 16 17 and 18 are mapped to Channels 9 16 17 24 and 25 32 respectively INS
43. tions and toggle the Auto Negotiation Speed and Duplex settings Port A is the top port Port B is the middle port and Port C is the bottom port Port A is the top port Port B is the middle port and Port C is the bottom port Press enter to leave this menu Main Local gt Ethernet gt Port Traffic This screen allows you to monitor the number of error free packets sent and received at each port of an Ethernet module The and buttons increment and decrement the slot and port selections Port A is the top port Port B is the middle port and Port C is the bottom port The packet counters wrap around to 0 once they reach 65 535 Press enter to leave this menu 37 Main Local Audio Audio Input and Audio Output mapping and tests can be accessed from the sub menus Main Local Audio Input Mapping This screen allows you to assign an audio input channel to an audio output channel over a selected fiber port The number under the microphone icon indicates the currently selected input channel The numbers under the speaker icons to the left and or right of the microphone represent the output channel numbers The arrows to the left and or right of the microphone labeled A and B respectively indicate over which fibers this mapping is enabled If the selected input channel is mapped to the output channel then three lines are displayed radiating out of the speaker icon and the arrow is displayed
44. ut range Based on the level of input signal you will be applying the specific channel you may choose to modify the input range selection switches By default the switches are set to high range 18dBu and will transmit any audio signal within the specifications of the unit If lower level input signals are expected you may change the input range to low 8dBu to increase the overall signal to noise ratio Clipping distortion however will occur if input levels exceed 8dBu Note that for each channel two switches must be thrown to change the input range c Output range To normalize the system you must switch the output range switch to the same setting as the CORRESPONDING input range switch Note this does not mean that the switches on the same board need to be the same just that the switches at the input node must match the switches at the output node If multiple outputs are mapped broadcast mode than all outputs must be set to the same gain range AUDIO OUTPUT AUDIO INPUT TERMINATION gu Low cin 0ES s 7 wis a3 m on PE 9 u AUDIO INPUT a tice E en 2E RANGE Fes cT ai 3er flics PANCE a 0 wa JS LOW M mr p fe po An PATEE O RANGE gt HIGH HE esi ms DI LES ON C ed f 8 f x i p ed s xo le t e ar PN qo e reat o nas S3 Z sa LOU VATES N a qa gt ia E T a na 2 of 3 eM i a bi au XXI mi 4 I c f I BANKS S6 Figure 1 Audio Level Switch Locations 16 AUDI
45. ver transmit TX status is displayed The status is reported as either Good Faulty or Not Found if the selected transceiver is not installed Main Local Optics Receive This screen shows the optical receive power of the selected optic transceiver Use the button to select the next transceiver Use the button to select the previous transceiver The power is displayed in milliwatts mW The receive power can be used to verify path loss if the transmit launch power at the other end of a fiber is known Sensitivity must be greater than 0 04 mW to insure enough optical power is being received Additionally the transceiver receive RX status is displayed The status is reported as Good Sync Loss Signal Loss or Not Found if the selected transceiver is not installed 30 Main Local Optics Info The Info Menu shows the wavelength normally 1310nM maximum distance normally 15km and optic transceiver vendor name Infineon for the selected optic transceiver Use the button to select the next transceiver Use the button to select the previous transceiver Main Local Video Video Input and Video Output mapping monitoring and tests can be accessed from the sub menus Main Local Video Input Mapping This screen allows you to assign a video input channel to a video output channel over a selected fiber port The camera icon in the middle of the screen indicates the pr
46. y pressing the up button when the cursor is at the top of the screen will display the previous three menu choices Main Local Node 28 The Node Menu shows the node ID and topology Main Local Node ID Every Phoenix node i e chassis in a system must have a unique node ID number The node ID is set to zero the first time a Phoenix chassis is switched on or if you Load Defaults Zero is an invalid node ID it must be a number between 1 and 255 Once set the node ID will be remembered if the chassis loses power The ID will increment by one if you press Similarly the ID will decrement by one if you press If you press and hold either of these buttons the node ID will slowly increment or decrement The rate will increase if you continue pressing the button Once you have the node ID set press the enter button You will be asked to confirm your selection Main gt Local gt Node gt Topology In order for a Phoenix chassis to route information over its fiber links correctly it must know the topology of the entire system A chassis can be part of either a Linear or Self Healing Ring topology If you are configuring a Self Healing Ring topology then each node must also know the total length of optical fiber used in the ring Once set the topology will be remembered if power to the chassis is lost Select the topology of the system from the menu s choices Linear and Self Healing Rin
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