ADDENDUM Addendum No. C1573M Date February 1, 2006 Manuals Affected C1572M, C1555M-F, C1566M-C Manual Update The front and rear mounting rails and the mounting brackets are no longer supplied with the CM9700-CC1. Disregard the CM9700-CC1 mounting information in the above referenced manuals. To mount the CM9700-CC1 into a standard 19-inch EIA rack follow these instructions: 1. Insert the CM9700-CC1 into the rack. 2. Tighten the CM9700-CC1 to the rack using the four supplied Phillips screws with washers.
INSTALLATION/OPERATION System 9760® Video Matrix Switching Control System C1572M (9/05)
Contents Important Safety Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 Regulatory Notices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8 System Overview . . . . . . . . . . . . . . . . . . . . . . . . . .
Setting and Adjusting System Time in a Single-Node System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58 Setting and Adjusting System Time in a Multi-Node System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62 DOS Filename Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
List of Illustrations 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 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 C1572M (9/05) Basic Components of a 9760 System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Mounting the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 ACD DB9 to CM9700-CC1 DB9 Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .110 ACD DB9 to CM9700-CC1 RJ-45 Connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111 Sideframing: 736 x 16 Configuration . . . . . .
Important Safety Instructions 1. Read these instructions. 2. Keep these instructions. 3. Heed all warnings. 4. Follow all instructions. 5. Do not use this apparatus near water. 6. Clean only with dry cloth. 7. Do not block any ventilation openings. Install in accordance with the manufacturer’s instructions. 8. Do not install near any heat sources such as radiators, heat registers, stoves, or other apparatus (including amplifiers) that produce heat. 9.
Regulatory Notices CM9700-CC1 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. RADIO AND TELEVISION INTERFERENCE This equipment has been tested and found to comply with the limits of a Class B digital device, pursuant to Part 15 of the FCC Rules.
System Overview This section provides an overview of the System 9760® video matrix switching control system, hereinafter referred to simply as the 9760 system. The following information is provided: • Description of the basic components of the 9760 system • Summary listing of 9760 system device models and compatible equipment DESCRIPTION The 9760 system allows control and monitoring of up to 2,048 video input devices (for example, cameras) and 512 video output devices (for example, monitors).
Note the following: • • • To ensure uninterrupted operation, the 9760 system can be equipped with a backup CM9700-CC1 by means of a CM9760-HS hot switch. For detailed information about the CM9760-HS, refer to the CM9760-HS Hot Switch Installation/Operation manual. The CM9700-NW1, commonly referred to as the network interface unit (NIU), can be used to connect two or more CM9700-CC1 units to create a networked system. Each CM9700-CC1 unit and attached devices comprise a node in the network.
NETWORK INTERFACE UNIT CM9700-NW1 Network CPU and software necessary for joining two or more independent systems together. Allows multiple systems to share video and control. Commonly referred to as the network interface unit (NIU). OPTIONAL COMPONENTS CM9760-ALM Alarm interface unit. Connects directly to each system. Each unit can monitor up to 64 alarms. Up to four units can be connected in a series from one SERCOM port. CM9760-CDU-T Code distribution unit.
System Setup This section provides information about the following: • Overview of tasks necessary to set up a 9760 system • Unpacking the CM9700-CC1 controller and CM9760-MXB matrix bay • Installing the CM9700-CC1 controller • Installing CM9760-MXB matrix bay(s) • Verifying system operation SYSTEM SETUP OVERVIEW The following provides an overview of the tasks necessary to set up a 9760 system and prepare the system for operation.
UNPACKING Various items are supplied with the CM9700-CC1 and with the CM9760-MXB. Refer to the Unpacking the CM9700-CC1 and Unpacking the CM9760-MXB sections for a list of items supplied with the units.
INSTALLING THE CM9700-CC1 CONTROLLER Installation of the CM9700-CC1 includes the following tasks: • Selecting a location for the CM9700-CC1 in a standard EIA rack • Mounting the CM9700-CC1 • Connecting the CM9700-CC1 • Powering on the CM9700-CC1 To perform each of the above tasks, refer to the sections that follow. SELECTING A LOCATION FOR THE CM9700-CC1 The CM9700-CC1 is designed to be mounted into a standard 19-inch (48.26 cm) EIA rack.
(8) SCREWS, 10-32 X 0.375-INCH FLAT HEAD REAR MOUNTING SUPPORT RAIL FRONT MOUNTING SUPPORT RAIL (6) SCREWS, 8-32 X 0.375-INCH PAN HEAD WITH WASHERS RACK (4) SCREWS 10-32 X 0.375-INCH FLAT HEAD BRACKET (SIDE VIEW) CM9700-CC1 (6) SCREWS, 8-32 X 0.250-INCH PAN HEAD (3 EACH SIDE) (4) SCREWS, 10-32 X 0.750-INCH PHILLIPS, PAN HEAD WITH WASHERS SLOTTED HOLES TOWARDS FRONT OF UNIT TAPERED ENDS TOWARDS REAR OF UNIT Figure 2.
CONNECTING THE CM9700-CC1 System 9760 devices and other equipment connect to the rear panel of the CM9700-CC1 (refer to Figure 3). CM9700-MGR PC VGA MONITOR CM9700-CC1 POWER CORD PRINTER COM1 COM2 36 28 20 12 35 27 19 11 34 26 18 10 33 25 17 9 32 24 16 8 31 23 15 7 30 22 14 6 29 21 13 5 RS-422 SERCOM PORT CONNECTIONS PS/2 KEYBOARD Figure 3.
TO CM9700-CC1 COM 1/COM 2 PORT TO CM9700-MGR PC COM 1/COM 2 PORT PIN 3 (TX) PIN 2 (RX) PIN 2 (RX) PIN 3 (TX) PIN 5 (GND) PIN 5 (GND) NULL MODEM CABLE (RS-232) DB9 FEMALE DB9 FEMALE Figure 4.
Using the System 9760 Port Assignment Table The System 9760 port assignment table, titled “System 9760 Factory Default Port Settings,” lists the CM9700-CC1 port numbers (1-36) and each device that has been assigned to a particular CM9700-CC1 port and configured for your system at the factory. Figure 5 illustrates a sample port assignment table for a system containing a CM9700-MGR (System Manager) PC, three CM9760-MXBs, and one CM9760-KBD.
In the sample port assignment table shown in Figure 5, note the following: • CM9700-CC1 port 1 (COM 1) is assigned and configured for the System Manager; therefore, the System Manager PC should be connected to COM 1 on the CM9700-CC1. NOTE: For all systems configured at the factory, COM 1 is always configured as the port to be used with the System Manager PC. • CM9700-CC1 port 2 (COM 2) is not assigned or configured for any device.
Table B. RS-422 SERCOM Port Connections in a Single-Node System without a CM9760-HS Hot Switch Device SERCOM Port Connection CM9760-MXB(s) Port 5 and next sequential ports as necessary Other devices Any available ports—connections do not have to be in sequential ports CM9700-MGR Device Tree Port Assignments Table C.
POWERING ON THE CM9700-CC1 After all system devices have been connected to the CM9700-CC1 and all system devices have been powered on, power on the CM9700-CC1. To power on the unit, place the power switch in the On (I) position. If, for some reason, you must power off the unit, place the power switch in the Off (0) position. INSTALLING CM9760-MXB MATRIX BAY(S) Your System 9760 installation may include one or multiple CM9760-MXB matrix bays.
MOUNTING THE CM9760-MXB DANGER: Always install equipment starting from the bottom of the rack. Installing equipment starting from the top of the rack can cause the rack to topple. To mount a CM9760-MXB into a rack, install the CM9760-MXB into the desired location and secure the unit using the supplied mounting hardware (refer to Figure 6). Figure 6.
CM9760-MXB BAY 1 Alarm Black Out RS-422 CAMS 1-256 RS-422 RPC SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL CM9760-MXB BAY 2 Alarm RPC OR Black Out RS-422 RS-422 DFC DFL Figure 7. Sample Downframe Cable Connections VERIFYING CM9760-MXB COMPONENT INSTALLATION Up to 16 CM9760-VCC video input cards, one CM9760-VMC video output card, and up to two power supplies are installed in a matrix bay at the factory as ordered. Verify component installation as follows: 1.
Removing the CM9760-MXB Front Panel To remove the front panel of the CM9760-MXB, loosen the eight captive panel screws indicated in Figure 8. CAPTIVE PANEL SCREW (4) FRONT PANEL CAPTIVE PANEL SCREW (4) Figure 8. CM9760-MXB Front Panel WARNING: Although the CM9760-MXB will function properly with the front panel removed, the front panel must be attached during system operation to meet safety standards. To reattach the front panel, tighten the eight captive panel screws.
CONNECTING THE CM9760-MXB TO THE CM9700-CC1 Connect a CM9760-MXB to the CM9700-CC1 using the 10-foot (3.05 meters) reversed cable supplied with the CM9760-MXB. If you must create a longer cable, it is recommended that you use a 24-gauge twisted pair cable. As illustrated in Figure 10, connect the female RJ-45 serial communications data port labeled RS-422 on the rear of the CM9760-MXB to the appropriate female RJ-45 serial communications port (RS-422) on the rear of the CM9700-CC1.
CONNECTING POWER TO THE CM9760-MXB NOTE: A CM9760-MXB operates on 120 VAC, 60 Hz. A CM9760-MXB-X operates on 230 VAC, 50 Hz. To connect power to a CM9760-MXB, plug the supplied power cord into the power input receptacle on the rear of the matrix bay for each power supply installed (refer to Figure 11). Then plug the power cord for each installed power supply into an approved power source.
2. With the front panel of the CM9760-MXB removed, check the LEDs on the CM9760-VCC video input cards and on the CM9760-VMC video output card as follows (refer to Figure 12): a. Verify that all +10 VDC and –10 VDC power LEDs are lit (green). If a power LED is not lit, remove the card and inspect the fuses (refer Figure 13 for fuse locations on CM9760-VCC and CM9760-VMC cards). Replace fuse(s) if necessary. If the condition continues, replace the card.
.7ASB FUSES CM9760-VCC VIDEO INPUT CARD .7ASB FUSES CM9760-VMC VIDEO OUTPUT CARD Figure 13.
CONNECTING VIDEO INPUTS AND VIDEO OUTPUTS Connect all video inputs (up to 256) and all video outputs (up to 16) to the rear panel BNC cards (refer to Figure 14). 1 Alarm 241 1 256 16 Black Out RS-422 RS-422 16 Figure 14. CM9760-MXB Video Input and Output Connections Note the following: • To provide adequate ground and signal connections, use crimp-on BNCs rather than screw-on BNCs. • Allow enough slack in a cable to act as a strain relief between the cable and the BNC connectors.
VERIFYING SYSTEM OPERATION After installation of the 9760 system is complete, verify system operation. To do so, perform the following from a CM9760-KBD: 1. Verify that the CM9760-KBD LCD displays the following: SYSTEM 97XX NOTE: Depending on the version of the CM9760-KBD software, the LCD displays SYSTEM 9760 or SYSTEM 9700. 2.
CM9700-CC1 Component Installation or Replacement WARNINGS: • Installation or replacement of CM9700-CC1 components should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when installing or replacing CM9700-CC1 components. Always wear a grounding strap connected to an approved grounding source when working on or near exposed electronic equipment.
INSTALLING OR REPLACING A CM9700-SER CARD WARNINGS: • CM9700-SER card installation or replacement should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when installing or replacing a CM9700-SER card. Always wear a grounding strap connected to an approved grounding source when working on or near exposed electronic equipment.
W1 IRQ SELECT IRQ 15 IRQ 14 IRQ 12 IRQ 11 IRQ 10 IRQ 9 IRQ 7 IRQ 6 IRQ 5 PIN 21 IRQ 4 PIN 22 PIN 1 IRQ 3 PIN 2 W2 ADDRESS SELECT PIN 2 PIN 4 PIN 1 PIN 3 Figure 17. Sample CM9700-SER Card Jumper Assignments Table E.
CM9760-MXB Component Installation or Replacement WARNINGS: • Installation or replacement of CM9760-MXB components should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when installing or replacing CM9760-MXB components. Always wear a grounding strap connected to an approved grounding source when working on or near exposed electronic equipment.
4. Slide the new card into the card guides (refer to Figure 19). 5. Push the card into place firmly. 6. Tighten the screw at the top and bottom of the card. 7. Connect BNC and downframe cables as applicable. UNTERMINATED TERMINATED JP1-JP16 Figure 18. Termination Jumpers on CM9760-RPC Rear Panel Input Card C1572M (9/05) Figure 19.
Replacing a CM9760-RPC Card WARNINGS: • Rear panel card replacement should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when replacing a rear panel card. Always wear a grounding strap connected to an approved grounding source when working on or near exposed electronic equipment.
INSTALLING OR REPLACING A CM9760-RPL REAR PANEL LOOPING CARD The CM9760-RPL rear panel looping card contains two rows of BNC connectors and therefore occupies two slot positions in the matrix bay. The CM9760-RPL card connects to one CM9760-VCC video input card, which is installed into the front of the matrix bay. Up to eight CM9760-RPL cards can be installed when a maximum of 128 video inputs is required in a system that also requires looping. If necessary, a CM9760-RPL card can be replaced.
3. Remove the blank cover plate by loosening the screw at the top and bottom of the plate. 4. Slide the new card into the card guides (refer to Figure 21). Figure 21. CM9760-RPL Rear Panel Looping Card Installation 5. Push the card into place firmly. 6. Tighten the two screws at the top and bottom of the card. 7. Connect BNC and downframe cables as applicable. Replacing a CM9760-RPL Card WARNINGS: • Rear panel card replacement should be performed by qualified personnel only.
INSTALLING OR REPLACING A CM9760-DFC DOWNFRAME CARD The CM9760-DFC card is installed in every bay between the first and last bays in a downframe configuration. The card can also be used in the last bay if looping is not required. Up to 16 CM9760-DFC cards can be installed into 16 possible slot positions that are associated with the slot positions of the corresponding CM9760-VCC cards to be installed. If necessary, a CM9760-DFC card can be replaced.
Figure 23. CM9760-DFC Downframe Card Installation 5. Push the card into place firmly. 6. Tighten the screw at the top and bottom of the card. 7. Connect downframe cables as applicable. Replacing a CM9760-DFC Card WARNINGS: • Rear panel card replacement should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when replacing a rear panel card.
INSTALLING OR REPLACING A CM9760-DFL DOWNFRAME LOOPING CARD The CM9760-DFL downframe looping card is used in the last bay in a downframe configuration. Note the following: • In a CM9760-MXB(-X), the CM9760-DFL card connects to a CM9760-VCC video input card, which is installed into the front of the matrix bay. Up to 16 CM9760-DFL cards can be installed into 16 possible slot positions that are associated with the slot positions of the corresponding CM9760-VCC cards to be installed.
4. Slide the new card into the card guides (refer to Figure 25). Figure 25. CM9760-DFL Downframe Looping Card Installation 5. Push the card into place firmly. 6. Tighten the screw at the top and bottom of the card. 7. Connect BNC and downframe cables as applicable. Replacing a CM9760-DFL Card WARNINGS: • Rear panel card replacement should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when replacing a rear panel card.
INSTALLING OR REPLACING A CM9760-RPM REAR PANEL OUTPUT CARD Only one CM9760-RPM card can be installed into the rear of the matrix bay. The card must always be installed into the leftmost slot. From the rear of the bay, the leftmost slot provides the connection point for the CM9760-VMC video output card, which is always installed into slot 17 in the front of the bay. If necessary, a CM9760-RPM card can be replaced. To install or replace a CM9760-RPM card, refer to the sections that follow.
Figure 27. CM9760-RPM Rear Panel Output Card Installation 5. Push the card into place firmly. 6. Tighten the screw at the top and bottom of the card. 7. Connect BNC cables (or ribbon cable, if applicable). Replacing a CM9760-RPM Card WARNINGS: • Rear panel card replacement should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when replacing a rear panel card.
INSTALLING OR REPLACING A CM9760-VCC VIDEO INPUT CARD CM9760-VCC video input cards are installed into the front of the matrix bay behind the front panel. For an initial system installation, the cards are installed at the factory as ordered. CM9760-VCC cards (and associated rear panel cards) can be added to expand a system or can be replaced if necessary. To install or replace a CM9760-VCC card, refer to the sections that follow.
To install a CM9760-VCC card, do the following: 1. Remove the front panel of the matrix bay. 2. Insert the CM9760-VCC card into the desired slot (slots 1-16) as follows (refer to Figure 28): a. Align the top and bottom edges of the card with the top and bottom card guides of the matrix bay. b. Slide the card toward the rear of the matrix bay until the card is seated firmly with the connectors on the backplane and with the associated rear panel card connector.
REPLACING A CM9760-VCC CARD WARNINGS: • CM9760-VCC video input card replacement should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when replacing a CM9760-VCC card. Always wear a grounding strap connected to an approved grounding source when working on or near exposed electronic equipment. To replace a CM9760-VCC card, do the following: 1. Remove the front panel of the matrix bay. 2.
INSTALLING OR REPLACING A CM9760-VMC VIDEO OUTPUT CARD One CM9760-VMC4, CM9760-VMC8, CM9760-VMC12, or CM9760-VMC16 video output card can be installed in the CM9760-MXB. For an initial system installation, the CM9760-VMC card is installed at the factory as ordered. If additional matrix bays are ordered to expand an existing system, the CM9760-VMC card may need to be installed. If necessary, a CM9760-VMC card can be replaced. To install or replace a CM9760-VMC card, refer to the sections that follow.
To install a CM9760-VMC card, do the following: 1. Remove the front panel of the matrix bay. 2. Remove the blank cover plate of slot 17 by loosening the screw at the top and bottom of the plate. 3. Set the S2 DIP switch and the X55 and JP2 jumpers on the new card to be installed: a. Refer to Figure 29 for DIP switch and jumper locations on the CM9760-VMC card. b. Refer to Table G for S2 DIP switch functions and associated settings. c.
Table G. S2 DIP Switch Functions and Settings Function Options Switch Setting 1 Off 2 Off 1 Off 2 On 1 On 2 Off 1 On 2 On NTSC* 3 Off PAL* 3 On Enabled 4 On Disabled (default) 4 Off 2400 4800 Baud Rate 9600 19200 Video Standard Video Loss Detection *X55 jumper must also be set (refer to Table H). Table H.
4. Install the new card into slot 17 of the matrix bay as follows (refer to Figure 30): a. Align the top and bottom edges of the card with the top and bottom card guides of the matrix bay. b. Slide the card toward the rear of the matrix bay until the card is seated firmly with the connectors on the backplane and with the associated rear panel card connector. If the audible alarm on the power supply is enabled, the alarm stops beeping and the Frame Fault LED turns off. c.
REPLACING A CM9760-VMC CARD WARNINGS: • CM9760-VMC video output card replacement should be performed by qualified personnel only. • Electrostatic discharge (ESD) precautions must be observed when replacing a CM9760-VMC card. Always wear a grounding strap connected to an approved grounding source when working on or near exposed electronic equipment. Before replacing a CM9760-VMC card, note the following: • The CM9760-RPM card can be replaced while the matrix bay is powered on.
INSTALLING OR REPLACING A POWER SUPPLY Unless a backup power supply is ordered with the matrix bay, the unit is shipped from the factory with one power supply installed. A backup power supply can be added to the matrix bay to provide power redundancy to the unit. If necessary, a power supply can be replaced. Note the following: • The CM9760-MXB uses the CM9760-MPS power supply (120 VAC, 60 Hz). • The CM9760-MXB-X uses the CM9760-MPS-X power supply (230 VAC, 50 Hz).
REPLACING A POWER SUPPLY To replace a power supply, do the following: 1. Remove the power supply to be replaced as follows: a. Place the power switch in the Off (0) position. b. Disconnect the power cord from the power source. c. Remove the power supply from the power supply slot as follows: (1) Loosen the two captive panel screws at the top and bottom of the power supply. (2) Pull the power supply toward you. The power supply slides out of the slot. 2.
REPLACING A POWER SUPPLY FUSE The rear of the matrix bay provides a separate power input receptacle for each power supply. Each power input receptacle is equipped with a fuse holder (refer to Figure 33). Each fuse holder provides a spare fuse to be used when replacing a blown fuse. WARNING: Failure to replace a fuse with a fuse of the same rating can result in serious damage to the matrix bay. To replace the fuse in a power supply, do the following: 1. Remove the power cord from the power input receptacle.
ENABLING/DISABLING THE POWER SUPPLY ALARM The power supply provides an audible alarm that operates in conjunction with the Fault LEDs located on the front of the power supply. By default, the alarm is enabled. The X5 jumper on the power supply allows you to enable/disable the alarm (refer to Figure 34). To enable/disable the audible power supply alarm, do the following: 1. Place the power switch of the power supply in the Off (0) position. 2. Disconnect the power cord from the power source. 3.
System Programming Using DOS The CM9700-CC1 runs under Microsoft® DOS (Disk Operating System) 6.22, referred to as MS-DOS® 6.22 and also commonly referred to simply as DOS.
SETTING AND ADJUSTING SYSTEM TIME IN A SINGLE-NODE SYSTEM You can set system time in a single-node system using the PC keyboard that is connected to the AT-compatible keyboard port of the CM9700-CC1. Using the CM9700-CC1 PC keyboard, you can also adjust system time if the system clock is running fast (system lead time) or slow (system lag time). For detailed instructions to set and adjust system time, refer to the sections that follow.
Adjusting System Time in a Single-Node System To adjust system time in a single-node system, do the following: 1. Wait 24 hours—or a multiple of 24 hours if necessary—since the system time was set, and then compare the system time displayed on any monitor in the system with the RTC time. Note the difference in time for a 24-hour period and whether the system time is ahead of or behind RTC time.
NOTE: The time adjustment that was made to system time as displayed in step 6 above is a temporary time adjustment. If you reboot the CM9700-CC1 by pressing Ctrl+Alt+Del or exit the 9760 system by pressing Ctrl+Q, the time adjustment reverts to 0:0.0. As a result, you must edit the startup.bat file to permanently program the total time adjustment indicated in the System box after the final time adjustment is made. Instructions for editing the startup.bat file are provided in the Editing the Startup.
Editing the Startup.bat File to Permanently Adjust System Time To permanently adjust system time, you must edit the startup.bat file to include the total time adjustment indicated in the System box after the final adjustment is made to system time. To edit the startup.bat file to include the total time adjustment, do the following: 1. Press Ctrl+Q to exit the 9760 system. The C:\9700> prompt appears. 2. At the prompt, enter edit startup.bat and then press Enter. The startup.
SETTING AND ADJUSTING SYSTEM TIME IN A MULTI-NODE SYSTEM You can set system time in a multi-node system using the PC keyboard that is connected to the AT-compatible keyboard port of the CM9700-NW1. The CM9700-NW1 then provides system timing to the network. Using the CM9700-NW1 PC keyboard, you can also adjust system time if the system clock is running fast (system lead time) or slow (system lag time). For detailed instructions to set and adjust system time, refer to the sections that follow.
Adjusting System Time in a Multi-Node System To adjust system time in a multi-node system, do the following: 1. Wait 24 hours—or a multiple of 24 hours if necessary—since the system time was set, and then compare the system time displayed on any monitor in the system with the RTC time. Note the difference in time for a 24-hour period and whether the system time is ahead of or behind RTC time. For example, if system time is 2:02.
5. Press Enter. The adjustment is displayed. For example, for the adjustment of –02.30.00 that was made in step 4, the following line appears: Last Adj. –2:30.0 Total –2.30.0 where: Last Adj. displays the last time adjustment that was made in minutes, seconds, and hundredths of a second. In the example, the last adjustment that was made is –2:30:0. Total displays the total time adjustment that was made in minutes, seconds, and hundredths of a second.
Making Additional Adjustments to System Time To make an additional adjustment to system time, do the following: 1. Wait 24 hours—or a multiple of 24 hours if necessary—since the last time adjustment was made, and then compare the system time displayed on any monitor in the system with the RTC time. Note the difference in time for a 24-hour period and whether the system time is ahead of or behind RTC time. 2.
Editing the Net.bat File to Permanently Adjust System Time To permanently adjust system time, you must edit the net.bat file to include the total time adjustment indicated on the diagnostic screen after the final adjustment is made to system time. To edit the net.bat file to include the total time adjustment, do the following: 1. Press Ctrl+Q to stop operation of the CM9700-NW1. The screen displays the following: Program end. Vectors reset. 11:36:49.12 Mon 06-27-2005 C:\NETWORK>_ 2.
DOS FILENAME CONVENTIONS The naming convention for a DOS filename is a root name followed by a period followed by an extension: • The root name is limited to eight characters with no spaces. • The extension is three characters. For example, if the filename is NODE1.CAM, the root name is NODE1 and the extension is CAM. The following characters cannot be used in the root name or extension. The characters are reserved for particular uses as follows: \ (backslash) / (forward slash) : (colon) .
Table I. DOS Command Reference (Continued) Command† Switch†† Example(s)§¶ Description Directory Management Commands (Continued) DIR (Continued) /P Displays the contents of a directory one screen at a time. C:\>DIR/P Displays the contents of the root directory one screen at a time. /W/P Combines /W and /P switches to display the contents of a directory in wide format one screen at a time. C:\>DIR/W/P Displays the contents of the root directory in wide format one screen at a time.
Table I. DOS Command Reference (Continued) Command† Switch†† Example(s)§¶ Description File and Disk Management Commands (Continued) DEL Deletes a single file or a group of files from the specified location. NOTE: You can restore deleted files using the UNDELETE command. WARNING: Be careful that you do not delete necessary system or configuration files. C:\>DEL C:\9700\OLDFILE.MON Deletes the OLDFILE.MON file from the C:\9700 directory. C:\9700>DEL OLDFILE.MON Deletes the OLDFILE.
Table I. DOS Command Reference (Continued) Command† Switch†† Example(s)§¶ Description File and Disk Management Commands (Continued) TYPE Displays the contents of the specified text file on the screen. If the location of the file is in a directory other than the one you are in, you must specify the directory path. C:\9700>TYPE NODE1.MON Displays the contents of the NODE1.MON file located in the C:\9700 directory C:\>TYPE C:\9700\NODE1.MON Displays the contents of the NODE1.
Table I. DOS Command Reference (Continued) Command† Switch†† Example(s)§¶ Description Miscellaneous Commands (Continued) FASTHELP command Briefly describes the specified command. Provides less detail than the information provided by HELP command (see below). C:\FASTHELP DIR Displays brief information about the DIR command. HELP Starts the MS-DOS command reference, which provides detailed information about MS-DOS commands.
System Diagnostics The 9760 system provides diagnostic screens that allow you to monitor single-node and multi-node status.
VIEWING MONITOR BOX DIAGNOSTICS The monitor box on the CM9700-CC1 diagnostic screen provides information about the monitor, camera, auxiliary conditions, and alarms currently being displayed. Refer to Figure 36 for a sample monitor box. LOGICAL CAMERA NUMBER LOGICAL ALARM NUMBER FOCUS INDICATION LINES CAMERA AUXILIARIES LOGICAL MONITOR NUMBER ZOOM AND JOYSTICK CONTROL BOX Figure 36.
ALLOCATING MONITORS TO MONITOR BOXES When the diagnostic screen appears on the VGA monitor after the CM9700-CC1 is initialized, the first eight monitors are displayed in the eight monitor boxes. Using the PC keyboard connected to the AT-compatible keyboard port of the CM9700-CC1, you can allocate a different monitor to a monitor box by using the function keys F1 through F8.
ENTERING CM9700-CC1 PC KEYBOARD COMMANDS Using the PC keyboard connected to the AT-compatible keyboard port of the CM9700-CC1, you can enter commands to perform certain functions or to obtain system status information in the System box on the diagnostic screen. Refer to Table J for a list of CM9700-CC1 functions and associated PC keyboard commands. Table J.
Table J. CM9700-CC1 PC Keyboard Command Functions (Continued) 76 Function Keyboard Command System Box Display Message Toggle system error printing on/off Alt+R System Error Print ON or System Error Print OFF NOTE: Printer port is reserved for future use. Toggle system synchronization diagnostic trap on/off Alt+T Resynch Trap Offline or Resynch Trap Online Toggle system diagnostics on/off. When system diagnostics is off, the diagnostic screen is visible but is not updated.
VIEWING MULTI-NODE SYSTEM STATUS The CM9700-NW1 provides a diagnostic screen that displays multi-node system status during the initialization of the CM9700-NW1 and any changes in system status that occur after the initialization process. Refer to Figure 37 for a sample CM9700-NW1 diagnostic screen. PELCO CM9700 N.I.U. Ver xxx xxx Vector initialized 2nodes.
ENTERING CM9700-NW1 PC KEYBOARD COMMANDS Using the keyboard connected to the AT-compatible keyboard port of the CM9700-NW1, you can enter commands to perform certain functions. Refer to Table K for a list of CM9700-NW1 functions and associated keyboard commands. Table K.
Troubleshooting This section provides the following troubleshooting information for the 9760 system: • General troubleshooting guidelines • CM9700-CC1 hardware and system error troubleshooting • CM9760-MXB troubleshooting using the CM9760-MXB LEDs For additional troubleshooting information relating to other 9760 system devices, refer to the manual supplied with the device.
Table M. CM9700-CC1 System Error Troubleshooting 80 System Error Message Possible Cause Corrective Action Port x ERR Coms Framing Mismatched baud rate settings Correct the baud rate setting in the CM9700-MGR to match the settings in the device connected to the specified port. Port x ERR Coms Fatal Failure of communications line after power up and initialization Check and correct hardware fault.
TROUBLESHOOTING THE CM9760-MXB If a problem exists with the matrix bay, reset operation of the unit by pressing the Reset button located on the front of the CM9760-VMC video output card. All information, such as camera and monitor idents, is reloaded from the CM9700-CC1. If the problem still exists, refer to Table N for additional troubleshooting information. Table N.
CM9700-CC1 Controller This section provides detailed information about the CM9700-CC1. The following information is provided: • Description of the functions of the CM9700-CC1 • Front and rear views of the CM9700-CC1 • Description of the DOS directory structure of the CM9700-CC1 NOTE: For CM9700-CC1 installation information, refer to the System Setup and CM9700-CC1 Component Installation or Replacement sections. DESCRIPTION The CM9700-CC1 is the central processing unit (CPU) of the 9760 system.
FRONT VIEW Figure 38 illustrates the front of the CM9700-CC1. MOUNTING HANDLES KNOB DOOR CM9700-CC1 FRONT VIEW WITH DOOR CLOSED KEYBOARD PORT HARD DISK POWER DRIVE LED RESET (NOT USED) BUTTON LED FLOPPY DISK DRIVE CM9700-CC1 FRONT VIEW WITH DOOR OPEN Figure 38. CM9700-CC1 Front View Note the following: • The door of the CM9700-CC1 is secured by a Phillips-head screw on the knob. To open the door, loosen the screw on the knob.
REAR VIEW Figure 39 illustrates the rear of the CM9700-CC1. COM 1 COM 2 PORT PRINTER PORT PORT* (RS-232) (RS-232) PRINTER POWER POWER INPUT SWITCH COM1 SERCOM PORTS (RS-422) VGA PORT COM2 36 28 20 12 35 27 19 11 34 26 18 10 33 25 17 9 32 24 16 8 31 23 15 7 30 22 14 6 29 21 13 5 AT-COMPATIBLE KEYBOARD PORT *RESERVED FOR FUTURE USE Figure 39.
PIN 1 PIN 13 PIN 14 5-PIN “MINI-DIN” KEYBOARD CONNECTOR 25-PIN “D” TYPE CONNECTOR (PRINTER PORT) (FEMALE) (RESERVED FOR FUTURE USE) PIN 1 PIN 3 PIN 4 PIN 5 PIN 2 PIN 1 = KEYBOARD CLOCK PIN 2 = KEYBOARD DATA PIN 3 = NOT USED PIN 4 = GND PIN 5 = +5V PIN 25 COM 1 (MALE) PIN 5 PIN 9 COM 2 (MALE) PINOUTS SAME AS COM 1 8-PIN SERCOM PORT (FEMALE) PIN 1 = TX+ PIN 2 = TX- PIN 1 PIN 7 = RXPIN 8 = RX+ PIN 8 PIN 1 PIN 6 VGA PORT (FEMALE) PIN 10 PIN 15 WHEN A SERCOM PORT IS USED TO INTERFACE MULTIPLE
DIRECTORY STRUCTURE The directory structure of the CM9700-CC1 consists of the C:\ root directory, which contains several subdirectories and files. You can view the contents of the root directory by entering dir and then pressing Enter at the C:\ prompt (refer to Figure 41). 11:16:15.
9700 DIRECTORY The 9700 directory is the working directory of the CM9700-CC1. From the root directory, you can navigate to the 9700 directory by entering cd 9700 and then pressing Enter. The C:\9700 prompt appears. To view the contents of the 9700 directory, enter dir and then press Enter (refer to Figure 41). 11:24:32.17 Tue 07-19-2005 C:\9700>dir Volume in drive C has no label Volume Serial Number is 1B13-0FD8 Directory of C:\9700 .
07-19-05 10:54a ..TESTPORT DIRECTORY The TESTPORT directory contains files that can be used to test whether the RJ-45 communication ports on the rear of the CM9700-CC1 are functioning. From the root directory, you can change to the TESTPORT directory by entering cd testport and then pressing Enter. The C:\TESTPORT prompt appears. To view the contents of the TESTPORT directory, enter dir and then press Enter (refer to Figure 43). 14:29:02.
CM9760-MXB Matrix Bay This section provides detailed information about the CM9760-MXB.
VIDEO OUTPUT BUS VIDEO INPUT CARD REAR PANEL VIDEO INPUT CARD 16x16 CROSSPOINT PATH TO VIDEO CARD AND TO DOWNFRAME CONNECTOR VIDEO SIGNAL IN SIGNAL ON BACKPLANE ON INPUT BUFFER WAY TO VIDEO OUTPUT CARD OUTPUT TITLING MODULE VIDEO SIGNAL OUT VIDEO OUTPUT CARD REAR PANEL BNC CARD Figure 44. Video Signal Flow through the Matrix Bay As illustrated in Figure 44, a video signal enters the matrix bay through the rear panel input card where it is terminated with 75 ohms.
FRONT VIEW Figure 45 illustrates the CM9760-MXB with the front panel removed. CM9760-VCC VIDEO INPUT CARDS (SLOTS 1-16) CM9760-VMC VIDEO OUTPUT CARD (SLOT 17) +10V -10V FRAME SUPPLY FAULT FAULT POWER SUPPLY BLANK PLATE FOR UNOCCUPIED POWER SUPPLY SLOT POWER SUPPLY Figure 45. CM9760-MXB Front View (Front Panel Removed) As illustrated in Figure 45, the front of the matrix bay accommodates the following: • Up to 16 CM9760-VCC video input cards in slots 1-16.
As illustrated in Figure 46, the rear of the matrix bay in a single-bay configuration accommodates the following: • Up to 16 CM9760-RPC rear panel input cards, providing connection to up to 256 video inputs. For additional information about CM9760-RPC cards, refer to the CM9760-RPC Rear Panel Input Card section. Note that CM9760-RPL rear panel looping cards can also be used. For detailed information, refer to the CM9760-RPL Rear Panel Looping Card section.
VIDEO INPUT AND OUTPUT CARDS The CM9760-MXB accommodates up to 16 CM9760-VCC video input cards and one CM9760-VMC video output card. The cards are installed into the front of the matrix bay (behind the front panel). CM9760-VCC VIDEO INPUT CARD The CM9760-VCC video input card (refer to Figure 48) accepts up to 16 video input signals and performs the actual video switching in the bay.
CM9760-VMC VIDEO OUTPUT CARD The CM9760-VMC video output card (refer to Figure 49) routes up to 16 video signals from the video bus, adds idents (if applicable), and routes the signals to video outputs (for example, monitors). The CM9760-VMC card contains up to 16 CM9760-VMM video output modules—each of which provides one video output with titling—and is available in the following models: • CM9760-VMC4 contains 4 CM9760-VMM modules, providing support for 4 video outputs.
CM9760-VMC Card Guidelines The following guidelines apply to the CM9760-VMC card: • The CM9760-VMC card must be installed into slot 17 in the front of the matrix bay. The matrix bay is shipped from the factory with the card installed in the unit according to the system order. • The CM9760-VMC card connects to the CM9760-RPM card, which is installed into the associated slot in the rear of the matrix bay. For information about the CM9760-RPM card, refer to the CM9760-RPM Rear Panel Output Card section.
As illustrated in Figure 50, the CM9760-RPC card includes the following: • BNC Connectors (16): Provide the physical connection point for coaxial cable • Termination Jumpers JP1-JP16: Determine whether video is to be terminated (jumper positions 1 and 2) or unterminated (jumper positions 2 and 3): – In a single-bay configuration (up to 256 cameras and 16 monitors), the setting of the jumpers depends on whether video is to be looped to another device (for example, a DVR, VCR, or matrix switcher): • When l
TERMINATED UNTERMINATED IN OUT 16 BNC PAIRS JP1-JP16 Figure 51. CM9760-RPL Rear Panel Looping Card As illustrated in Figure 51, the CM9760-RPL card includes the following: • BNC Connectors (16 pairs): Provide the physical connection point for coaxial cable. For each pair of BNC connectors, one connector connects to a video source and the other connector connects to the video output device to which the video is looped.
CM9760-RPM REAR PANEL OUTPUT CARD The CM9760-RPM rear panel output card (refer to Figure 52) passes up to 16 video signals from the CM9760-VMC video output card to video output devices such as monitors, VCRs, and matrix switchers. The CM9760-RPM card provides 16 BNCs that connect to video output devices. UNTERMINATED TERMINATED 16 VIDEO OUTPUT BNCs JP1-JP16 SIDEFRAME CONNECTOR Figure 52.
CM9760-DFC REAR PANEL DOWNFRAME CARD The CM9760-DFC rear panel card (refer to Figure 53) is used in a downframe configuration. The card is installed in every bay between the first and last bay to connect the associated intermediate bays. The card can also be used in the last bay if looping is not required. NOTE: Unlike the CM9760-DFL downframe card, the CM9760-DFC downframe card does not provide the ability to loop out video.
CM9760-DFL REAR PANEL DOWNFRAME LOOPING CARD The CM9760-DFL rear panel card (refer to Figure 54) is used in the last CM9760-MXB(-X) or CM9760-MXBL bay in a downframe configuration. The CM9760-DFL card provides the capability to loop out video—the card provides 16 BNCs that can connect to video output devices such as monitors, VCRs, and matrix switchers.
CM9760-DFL Card Guidelines The following guidelines apply to the CM9760-DFL card: • When used in the CM9760-MXB(-X), note the following: – Up to 16 CM9760-DFL cards can be inserted into 16 possible slot positions that are associated with the slot positions of the corresponding CM9760-VCC cards. – The CM9760-DFL card must be installed before the associated CM9760-VCC video input card is installed into the front of the matrix bay. • When used in the CM9769-MXBL, up to 16 CM9760-DFL cards can be installed.
SIDEFRAMING AND DOWNFRAMING Sideframing, downframing, or a combination of both sideframing and downframing is required for installation of multiple matrix bays in a 9760 system: • When expanding video inputs beyond 256 as provided by a single matrix bay, the expansion of video inputs occurs in a horizontal manner using a sideframing configuration. As a result, additional matrix bays must be installed in nearby racks. For detailed information, refer to the Sideframing section.
SIDEFRAMING If more than 256 video inputs are required, multiple matrix bays must be installed in a sideframe configuration. Sideframing allows the video outputs of a bay to be connected to the video inputs of another bay to which the video output devices (for example, monitors, VCRs, and so on) are connected. The bay to which the video output devices are connected is referred to as the output bay. A maximum of eight matrix bays can be sideframed and connected to an output bay.
Note the following: • In an initial system installation, multiple matrix bays are labeled to identify the location of the sideframed bays in the installation, for example, 2A, 12A, 22A, and so on. Figure 56 illustrates a two-bay configuration in which bay 12A (output bay) is sideframed to bay 2A (bay 1). For additional examples of sideframe configurations, refer to Appendix B. • Video outputs of a bay connect to the video inputs in the output bay by means of BNC coaxial cables.
DOWNFRAMING If more than 16 video outputs are required, multiple matrix bays must be installed in a downframe configuration. Downframing allows the video inputs of one bay to be connected to the video inputs of one or more additional bays, providing an additional 16 video outputs for each additional bay that is downframed. The inputs in the first bay become available to the downframed bays and any video input can be switched to the additional 16 monitor outputs provided in each downframed bay.
Note the following: • In a new system installation, multiple matrix bays are labeled to identify the location of the downframed bays in the installation, for example, 2A, 2B, 2C, and so on. Figure 57 illustrates a two-bay configuration in which bay 2A (bay 1) is downframed to bay 2B (bay 2). For additional examples of downframe configurations, refer to Appendix B. • Downframe cables are coaxial ribbon cables used to connect bays in a downframe configuration.
USING A COMBINATION OF SIDEFRAMING AND DOWNFRAMING When expanding video inputs beyond 256 and video outputs beyond 16, a combination of sideframing and downframing must be used. Sideframing allows video inputs to be expanded beyond 256. Downframing allows video outputs to be expanded beyond 16. The maximum capacity of a single-node system is 2,048 video inputs and 128 video outputs. NOTE: When using CM9760-MDA units, you can increase the video output capacity to a maximum of 512.
DOWNFRAMING TO THE CM9760-MXBL When more than 128 video inputs and a maximum of 16 video outputs are required in a system that also requires looping, the CM9760-MXBL must be used to loop out the video. The CM9760-MXBL is a downframed matrix bay that does not require power. The CM9760-MXBL accommodates up to sixteen CM9760-DFL cards to loop out video. Note that front panel video input and output cards are not used in the CM9760-MXBL.
Specifications CM9700-CC1 SPECIFICATIONS ELECTRICAL Input Voltage 120 VAC, 60 Hz or 230 VAC, 50 Hz, autoranging Power Consumption 57 watts Processor Pentium® class CPU Clock Speed 733 MHz Memory 64 MB RAM Disk Drive 3.5-inch, 1.
Appendix A. CM9700-CC1 ASCII Protocol Communication The CM9700-CC1 provides support of ASCII communication. ASCII data ports, referred to as IDT ports on the CM9700-CC1, interface to ASCII communication devices (ACDs) such as access control systems. NOTE: When operating in ASCII mode, the KBD200A and KBD300A keyboards can interface to an IDT port of the CM9700-CC1. When an ACD sends ASCII commands through a CM9700-CC1 IDT port, the CM9700-CC1 executes the commands.
CONNECTING AN ACD DB9 PORT TO A CM9700-CC1 RJ-45 PORT To connect an ACD DB9 port to a CM9700-CC1 RJ-45 port, refer to Figure 61 and do the following: 1. Connect the 9-pin side of the PV140 converter to a DB9 port of the ACD. 2. If necessary, connect the +12 VDC power supply to the PV140 converter; otherwise, proceed to step 3. (The power supply allows the PV140 converter to communicate serial port data over wire pairs for distances up to 4,000 feet [1,219 m] on the RS-422 side.) a.
ASCII PROTOCOL COMMANDS SUPPORTED BY THE CM9700-CC1 The ASCII protocol consists of a basic ASCII character set used to transmit and receive commands between an ASCII communication device (ACD) and the CM9700-CC1. Each command is identified by an ASCII character. Commands that require a numeric value must transmit the ASCII representation of that value in front of the command identifier. Most of the commands are terminated with the lowercase letter a.
Table O.
Table O.
Table P. ASCII Command Descriptions Action Command* Command Description Pan and Tilt Commands C1572M (9/05) Pan Left [1-64]La Moves the currently selected pan and tilt device to the left at the speed indicated. The speed ranges from 1-64: 1 is the slowest speed and 64 activates Turbo mode. Note the following: • If the speed is omitted, some devices move at their default speed and other devices move at their slowest speed.
Table P. ASCII Command Descriptions (Continued) Action Command* Command Description Camera Control Commands Focus Near Na Causes the currently selected camera to adjust the focus range nearer to the camera. Stop Focus Near ~Na Stops the focusing of the currently selected camera. Focus Far Fa Causes the currently selected camera to adjust the focus range farther from the camera. Stop Focus Far ~Fa Stops the focusing of the currently selected camera.
Table P. ASCII Command Descriptions (Continued) Action Command* Command Description Advanced Commands (Continued) C1572M (9/05) Start Macro [1-9999]Sa Starts the selected macro. A value ranging from 1 to 9999 equals the logical macro number. Stop Macro [1-9999]Ha Stops the selected macro. Start a Sequence [1-9999]qa Performs the same operation as the Start Macro command, that is, starts the selected macro. A value ranging from 1 to 9999 equals the logical macro number.
Table P. ASCII Command Descriptions (Continued) Action Command* Command Description Advanced Commands (Continued) GPI Auxiliary ON [9-20008]Aa Turns on the designated auxiliary (relay output) at the General Purpose Interface (GPI). A value ranging from 9-20008 equals the GPI auxiliary number. GPI Auxiliary OFF [9-20008]Ba or [9-20008]~Aa Turns off the GPI auxiliary.
Table P. ASCII Command Descriptions (Continued) Action Command* Command Description Multiplexer Commands Digital Zoom ym Displays a full-screen view of the selected multiplexer input. Issuing the command again results in a 2X magnification and then again in a 4X magnification. You can toggle through all 16 screens one at a time by issuing the Select Multiplexer Input command ([1-16]#m) followed by the Digital Zoom (ym) command.
Table Q. ASCII Command Examples 120 Action Command Switch camera 3 to monitor 1. 1Ma3#a Go to camera 2, preset 3 on monitor 5. 5Ma2#a3\a Pan right at speed 47, tilt down at speed 33. 47Ra33Da Stop tilt down only. ~Da Run macro 10 on monitor 1. 1Ma10Sa Stop macro 10 on monitor 1. 1Ma10Ha Trigger alarm 945. 945Ea Stop alarm 945.
Appendix B. CM9760-MXB Sideframe and Downframe Configuration Examples This appendix provides examples of the following types of CM9760-MXB configurations: • Sideframe-only configurations: – 736 x 16 (refer to Figure 62) – 976 x 16 (refer to Figure 63) NOTE: For an illustration of a 496 x 16 sideframe-only configuration, refer to Sideframing in the CM9760-MXB Matrix Bay section.
SIDEFRAME-ONLY CONFIGURATION EXAMPLES Figure 62 and Figure 63 illustrate sideframe-only configurations. 16 1 VIDEO TIE LINES X16 721 513 Black Out Alarm 497 257 Black Out Alarm CAMS 513-736 RS-422 RS-422 CAMS 257-512 RS-422 CM9760-MXB 1 Black Out Alarm RS-422 RS-422 241 CAMS 1-256 RS-422 CM9760-MXB CM9760-MXB Figure 62.
DOWNFRAME-ONLY CONFIGURATION EXAMPLES Figure 64 to Figure 67 illustrate downframe-only configurations. 16 1 241 Alarm 1 Black Out RS-422 CAMS 1-256 RS-422 CM9760-MXB 32 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out RS-422 RS-422 CM9760-MXB 48 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2C Alarm Black Out RS-422 RS-422 CM9760-MXB Figure 64.
16 1 241 1 Black Out Alarm RS-422 CAMS 1-256 RS-422 CM9760-MXB 32 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Black Out Alarm RS-422 RS-422 CM9760-MXB 48 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2C CAM 1 LOOP-OUT Black Out Alarm RS-422 RS-422 CAMS 1-256 OUT SYSTEM LOOPED OUTPUTS ARE NOT TERMINATED CAM 16 LOOP-OUT CM9760-MXB Figure 65.
16 1 241 1 2A Alarm Black Out RS-422 CAMS 1-256 RS-422 CM9760-MXB 32 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2B Alarm Black Out RS-422 RS-422 CM9760-MXB 48 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2C Alarm Black Out RS-422 RS-422 CM9760-MXB 64 49 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2D Alarm Black Out RS-422 RS-422 CM9760-MXB Figure 66.
16 1 241 1 2A Alarm Black Out RS-422 CAMS 1-256 RS-422 CM9760-MXB 32 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2B Alarm Black Out RS-422 RS-422 CM9760-MXB 48 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2C Alarm Black Out RS-422 RS-422 CM9760-MXB 64 49 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 2D Alarm CAM 1 LOOP-OUT Black Out RS-422 RS-422 CAMS 1-256 OUT SYSTEM LOOPED OUTPUTS ARE NOT TERMINATED CAM 16 LOOP-OUT CM9760-MXB Figure 67.
SIDEFRAME AND DOWNFRAME COMBINATION CONFIGURATION EXAMPLES Figure 68 to Figure 84 illustrate configurations using a combination of sideframing and downframing.
16 1 481 Alarm 257 Black Out 241 Black Out Alarm RS-422 1 RS-422 CAMS 257-496 RS-422 CM9760-MXB 32 CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 Black Out CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 12C 12C Alarm Black Out 2C Alarm RS-422 RS-422 RS-422 RS-422 CM9760-MXB Black Out CM9760-MXB Figure 69.
16 1 481 Alarm Black Out 257 241 Alarm RS-422 1 Black Out RS-422 CAMS 257-496 RS-422 CM9760-MXB 32 CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 Black Out CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 12C 12C Alarm 2C Black Out Alarm RS-422 RS-422 CAM 1 LOOP-OUT Black Out RS-422 CAMS 257-496 OUT RS-422 CAMS 1-256 OUT SYSTEM LOOPED OUTPUTS ARE NOT TERMINA
16 1 481 Alarm Black Out 257 241 1 Black Out Alarm RS-422 RS-422 CAMS 257-496 RS-422 CM9760-MXB 32 CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 Black Out CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 12C 12C Alarm 2C Black Out Alarm RS-422 RS-422 RS-422 RS-422 CM9760-MXB 64 Black Out CM9760-MXB 49 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 12D 12D
16 1 481 Alarm Black Out 257 241 Black Out Alarm RS-422 1 RS-422 CAMS 257-496 RS-422 CM9760-MXB 32 CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 Black Out CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 12C 12C Alarm 2C Black Out Alarm RS-422 RS-422 RS-422 RS-422 CM9760-MXB 64 CM9760-MXB 49 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL 12D 12D Alarm 2D
16 1 VIDEO TIE LINES X16 721 Alarm Black Out 513 497 Alarm RS-422 257 Black Out Alarm RS-422 CAMS 513-736 RS-422 CM9760-MXB 32 241 1 Black Out RS-422 CAMS 257-512 RS-422 CM9760-MXB CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 CM9760-MXB CM9760-MXB Black Out CM9760-MXB Figure 73.
Figure 74.
16 1 VIDEO TIE LINES X16 721 Alarm Black Out 513 497 Alarm RS-422 257 Black Out CM9760-MXB 32 1 Black Out Alarm RS-422 CAMS 513-736 RS-422 241 RS-422 CAMS 257-512 RS-422 CM9760-MXB CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 CM9760-MXB Black Out CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm Black
16 1 VIDEO TIE LINES X16 721 Alarm Black Out 513 497 Alarm RS-422 257 Black Out CAMS 513-736 CM9760-MXB 32 1 Black Out Alarm RS-422 RS-422 241 RS-422 CAMS 257-512 RS-422 CM9760-MXB CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 CM9760-MXB Black Out CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL CAM 1 LOOP-OUT Alarm Black Ou
16 1 VIDEO TIE LINES X16 721 Alarm Black Out 513 497 Alarm RS-422 257 Black Out CAMS 513-736 CM9760-MXB 32 1 Black Out Alarm RS-422 RS-422 241 RS-422 CAMS 257-512 RS-422 CM9760-MXB CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Black Out Alarm Black Out Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 CM9760-MXB CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Black Out Alarm Black Out A
16 1 VIDEO TIE LINES X16 721 Alarm Black Out 513 497 Alarm RS-422 257 Black Out CAMS 513-736 CM9760-MXB 32 1 Black Out Alarm RS-422 RS-422 241 RS-422 CAMS 257-512 RS-422 CM9760-MXB CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Black Out Alarm Black Out t Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 CM9760-MXB CM9760-MXB 33 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Black Out t Alarm Black Ou
Figure 79.
Figure 80.
Figure 81.
Figure 82.
16 1 VIDEO TIE LINES X16 961 Alarm Black Out 769 753 Alarm RS-422 513 Black Out CM9760-MXB 32 257 Black Out Alarm RS-422 CAMS 769-976 RS-422 497 241 CM9760-MXB Black Out Alarm RS-422 CAMS 513-768 RS-422 1 RS-422 CAMS 257-512 RS-422 CM9760-MXB CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm Black Out Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 CM9760-MXB
16 1 VIDEO TIE LINES X16 961 Alarm Black Out 769 753 Alarm RS-422 513 Black Out CAMS 769-976 CM9760-MXB 32 257 Black Out Alarm RS-422 RS-422 497 CAMS 513-768 RS-422 CAMS 257-512 RS-422 CM9760-MXB CM9760-MXB 1 Black Out Alarm RS-422 RS-422 241 CAMS 1-256 RS-422 CM9760-MXB 17 SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL Alarm Black Out Alarm Black Out Alarm Black Out Alarm RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 RS-422 CM9760-MXB 48 CM9760-MXB
CM9760-MXBL DOWNFRAME CONFIGURATION EXAMPLES Figure 85 to Figure 87 illustrate CM9760-MXBL downframe configurations.
16 1 VIDEO TIE LINES X16 721 Alarm Black Out 513 497 Alarm RS-422 257 Black Out CM9760-MXB 1 Black Out Alarm RS-422 CAMS 513-736 RS-422 241 RS-422 CAMS 257-512 RS-422 CM9760-MXB CAMS 1-256 RS-422 CM9760-MXB SUPPLIED DOWNFRAMING CABLES 16X RIBBON COAXIAL CAM 1 LOOP-OUT Alarm Black Out Alarm RS-422 RS-422 Black Out Alarm RS-422 CAMS 513-736 OUT RS-422 Black Out RS-422 CAMS 257-512 OUT RS-422 CAMS 1-256 OUT SYSTEM LOOPED OUTPUTS ARE NOT TERMINATED CAM 16 LOOP-OUT CM9
Figure 87.
PRODUCT WARRANTY AND RETURN INFORMATION WARRANTY Pelco will repair or replace, without charge, any merchandise proved defective in material or workmanship for a period of one year after the date of shipment. Exceptions to this warranty are as noted below: • Five years on FT/FR8000 Series fiber optic products. • Three years on Genex ® Series products (multiplexers, server, and keyboard).
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