I N S T A L L A T I O N / O P E R A T I O N
®
System 9760
VideoMatrixSwitching
Control System
C1572M (9/05)
Download from Www.Somanuals.com. All Manuals Search And Download.
Contents
Important Safety Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
Regulatory Notices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
System Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
Models . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
CPU Controller and Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Matrix Bay and Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Keyboards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Network Interface Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
Optional Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
Compatible Receivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
System Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
Unpacking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
Unpacking the CM9760-MXB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
Selecting a Location for the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
Mounting the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
Connecting the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Powering On the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Installing CM9760-MXB Matrix Bay(s) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Selecting a Location for the CM9760-MXB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Mounting the CM9760-MXB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
Verifying CM9760-MXB Component Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
Connecting Power to the CM9760-MXB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
Powering On the CM9760-MXB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
Checking Diagnostic LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
Connecting Video Inputs and Video Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29
CM9700-CC1 Component Installation or Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
Removing the CM9700-CC1 Top Cover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
Installing or Replacing a CM9700-SER Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32
CM9760-MXB Component Installation or Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34
Installing or Replacing Rear Panel Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34
Installing or Replacing a CM9760-RPC Rear Panel Input Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34
Installing or Replacing a CM9760-RPL Rear Panel Looping Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
Installing or Replacing a CM9760-DFC Downframe Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39
Installing or Replacing a CM9760-RPM Rear Panel Output Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43
Installing or Replacing a CM9760-VCC Video Input Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .45
Installing a CM9760-VCC Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .45
Replacing a CM9760-VCC Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47
Installing or Replacing a CM9760-VMC Video Output Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
Installing a CM9760-VMC Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
Installing a CM9760-VMM Video Output Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52
Installing a Backup Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53
Replacing a Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54
Enabling/Disabling the Power Supply Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .56
System Programming Using DOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .57
Copying Configuration Files from the CM9700-MGR to the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .57
C1572M (9/05)
3
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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 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67
DOS Command Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67
System Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .72
Monitoring CM9700-CC1 Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .72
Viewing Monitor Box Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .73
Allocating Monitors to Monitor Boxes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .74
Entering CM9700-CC1 PC Keyboard Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .75
Viewing Multi-Node System Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .77
Entering CM9700-NW1 PC Keyboard Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .78
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .79
General Troubleshooting Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .79
Troubleshooting the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .79
CM9700-CC1 Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .82
Front View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .83
TESTPORT Directory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .88
DOS Directory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .88
Functional System Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .89
Front View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91
Video Input and Output Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .93
Rear Panel Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .95
CM9760-DFC Rear Panel Downframe Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .99
Power Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101
Sideframing and Downframing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .102
Downframing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .105
Using a Combination of Sideframing and Downframing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .107
Downframing to the CM9760-MXBL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .108
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .109
CM9700-CC1 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .109
CM9760-MXB Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .109
Appendix A. CM9700-CC1 ASCII Protocol Communication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .110
ACD to CM9700-CC1 Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .110
Connecting an ACD DB9 Port to a CM9700-CC1 DB9 Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .110
Connecting an ACD DB9 Port to a CM9700-CC1 RJ-45 Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111
ASCII Protocol Commands Supported by the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .112
Downframe-Only Configuration Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .123
CM9760-MXBL Downframe Configuration Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144
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List of Illustrations
1 Basic Components of a 9760 System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
2 Mounting the CM9700-CC1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15
3 CM9700-CC1 Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
4 CM9700-MGR PC to CM9700-CC1 Null Modem Cable Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
5 Sample Port Assignment Table. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
6 Mounting the CM9760-MXB . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
7 Sample Downframe Cable Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
8 CM9760-MXB Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
9 Sample CM9760-MXB Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
10 CM9760-MXB to CM9700-CC1 Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
11 CM9760-MXB Power Connections (Two Power Supplies Installed) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
12 CM9760-VCC and CM9760-VMC Diagnostic LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27
13 Fuse Locations on CM9760-VCC and CM9760-VMC Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28
14 CM9760-MXB Video Input and Output Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29
15 CM9700-CC1 Top Cover Removal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
16 CM9700-CC1 with Top Cover Removed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32
17 Sample CM9700-SER Card Jumper Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33
18 Termination Jumpers on CM9760-RPC Rear Panel Input Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35
19 CM9760-RPC Rear Panel Input Card Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35
20 Termination Jumpers on CM9760-RPL Card. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
21 CM9760-RPL Rear Panel Looping Card Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38
22 Termination Jumpers on CM9760-DFC Downframe Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39
23 CM9760-DFC Downframe Card Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .40
24 Termination Jumpers on CM9760-DFL Card. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41
25 CM9760-DFL Downframe Looping Card Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
26 Termination Jumpers on CM9760-RPM Card. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43
27 CM9760-RPM Rear Panel Output Card Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44
28 CM9760-VCC Video Input Card Installation (Slots 1-16) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46
29 DIP Switch and Jumper Locations on CM9760-VMC Video Output Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .49
30 CM9760-VMC Video Output Card Installation (Slot 17). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51
31 CM9760-VMM Video Output Module Locations (CM9760-VMC8 Video Output Card) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52
32 CM9760-MXB Backup Power Supply Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53
33 CM9760-MXB Power Supply Fuse Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55
34 CM9760-MXB Power Supply Alarm Jumper Positions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .56
35 Sample CM9700-CC1 Diagnostic Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .72
36 Sample Monitor Box on CM9700-CC1 Diagnostic Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .73
37 Sample CM9700-NW1 Diagnostic Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .77
38 CM9700-CC1 Front View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .83
39 CM9700-CC1 Rear View . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .84
40 CM9700-CC1 Rear Connector Pinouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .85
41 CM9700-CC1 Root Directory. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .86
42 CM9700-CC1 9700 Directory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .87
43 CM9700-CC1 TESTPORT Directory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .88
44 Video Signal Flow through the Matrix Bay. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .90
45 CM9760-MXB Front View (Front Panel Removed) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91
46 CM9760-MXB Rear View (Single-Bay Configuration) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91
47 CM9760-MXB Alarm Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .92
48 CM9760-VCC Video Input Card. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .93
49 CM9760-VMC Video Output Card (CM9760-VMC16). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .94
50 CM9760-RPC Rear Panel Input Card. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .95
51 CM9760-RPL Rear Panel Looping Card. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .97
52 CM9760-RPM Rear Panel Output Card. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .98
53 CM9760-DFC Downframe Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .99
54 CM9760-DFL Downframe Looping Card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .100
55 Matrix Bay Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101
56 CM9760-MXB Sideframing Example: 496 Video Inputs and 16 Video Outputs (496 x 16) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .103
57 CM9760-MXB Downframing Example: 256 Video Inputs and 32 Video Outputs (256 x 32) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .105
58 CM9760-MXB Sideframing and Downframing Example: 496 Video Inputs and 32 Video Outputs (496 x 32) . . . . . . . . . . . . . . . . . . . . . . . .107
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60 ACD DB9 to CM9700-CC1 DB9 Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .110
61 ACD DB9 to CM9700-CC1 RJ-45 Connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111
62 Sideframing: 736 x 16 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .122
63 Sideframing: 976 x 16 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .122
64 Downframing: 256 x 48 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .123
65 Downframing: 256 x 48 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .124
66 Downframing: 256 x 64 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .125
67 Downframing: 256 x 64 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .126
68 Sideframing and Downframing: 496 x 32 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .127
69 Sideframing and Downframing: 496 x 48 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .128
70 Sideframing and Downframing: 496 x 48 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .129
71 Sideframing and Downframing: 496 x 64 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .130
72 Sideframing and Downframing: 496 x 64 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .131
73 Sideframing and Downframing: 736 x 32 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .132
74 Sideframing and Downframing: 736 x 32 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .133
75 Sideframing and Downframing: 736 x 48 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .134
76 Sideframing and Downframing: 736 x 48 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .135
77 Sideframing and Downframing: 736 x 64 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .136
78 Sideframing and Downframing: 736 x 64 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .137
79 Sideframing and Downframing: 976 x 32 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .138
80 Sideframing and Downframing: 976 x 32 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .139
81 Sideframing and Downframing: 976 x 48 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .140
82 Sideframing and Downframing: 976 x 48 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .141
83 Sideframing and Downframing: 976 x 64 Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .142
84 Sideframing and Downframing: 976 x 64 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .143
85 Downframing to CM9760-MXBL: 496 x 16 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144
86 Downframing to CM9760-MXBL: 736 x 16 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .145
87 Downframing to CM9760-MXBL: 976 x 16 Configuration, Looping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .146
List of Tables
SERCOM Port Connections in a Networked System with a CM9760-HS Hot Switch. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
DOS Command Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67
M CM9700-CC1 System Error Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .80
N Troubleshooting Using CM9760-MXB Diagnostic LEDs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .81
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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. Do not defeat the safety purpose of the polarized or grounding-type plug. A polarized plug has two blades with one wider than the other.
A grounding type plug has two blades and a third grounding prong. The wide blade or the third prong are provided for your safety. If the
provided plug does not fit into your outlet, consult an electrician for replacement of the obsolete outlet.
10. Protect the power cord from being walked on or pinched particularly at plugs, convenience receptacles, and the point where they exit from
the apparatus.
11. Only use attachments/accessories specified by the manufacturer.
12. Use only with the cart, stand, tripod, bracket, or table specified by the manufacturer, or sold with the apparatus. When a cart is used, use
caution when moving the cart/apparatus combination to avoid injury from tip-over.
13. Refer all servicing to qualified service personnel. Servicing is required when the apparatus has been damaged in any way, such as power-
supply cord or plug is damaged, liquid has been spilled or objects have fallen into the apparatus, the apparatus has been exposed to rain or
moisture, does not operate normally, or has been dropped.
14. Apparatus shall not be exposed to dripping or splashing and that no objects filled with liquids, such as vases, shall be placed on the
apparatus.
15. WARNING: To reduce the risk of fire or electric shock, do not expose this apparatus to rain or moisture.
16. Installation should be done only by qualified personnel and conform to all local codes.
17. Unless the unit is specifically marked as a NEMA Type 3, 3R, 3S, 4, 4X, 6, or 6P enclosure, it is designed for indoor use only and it must not
be installed where exposed to rain and moisture.
18. Use only installation methods and materials capable of supporting four times the maximum specified load.
19. A readily accessible disconnect device shall be incorporated in the building installation wiring.
20. The socket-outlet shall be installed near the equipment and shall be easily accessible.
21. A CCC-approved power cord must be used to power this equipment when used in China.
CAUTION: These servicing instructions are for use by qualified service personnel only. To reduce the risk of electric shock do not perform any
servicing other than that contained in the operating instructions unless you are qualified to do so.
CAUTION: Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type. Dispose of used batteries
according to the instructions provided by the battery manufacturer.
Only use replacement parts recommended by Pelco.
The product and/or manual may bear the following marks:
This symbol indicates that dangerous voltage constituting a risk of electric shock is
present within this unit.
CAUTION:
RISK OF ELECTRIC SHOCK.
DO NOT OPEN.
This symbol indicates that there are important operating and maintenance instructions
in the literature accompanying this unit.
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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. These limits
are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can
radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio
communications. However there is no guarantee that the interference will not occur in a particular installation. If this equipment does cause
harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try
to correct the interference by one or more of the following measures:
•
•
•
•
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and the receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
You may also find helpful the following booklet, prepared by the FCC: “How to Identify and Resolve Radio-TV Interference Problems.”
This booklet is available from the U.S. Government Printing Office, Washington D.C. 20402.
Changes and Modifications not expressly approved by the manufacturer or registrant of this equipment can void your authority to operate this
equipment under Federal Communications Commission’s rules.
In order to maintain compliance with FCC regulations shielded cables must be used with this equipment. Operation with non-approved
equipment or unshielded cables is likely to result in interference to radio and television reception.
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme NMB-003 du Canada.
CM9760-MXB
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 A digital device, pursuant to Part 15 of the FCC Rules. These limits
are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This
equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may
cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in
which case the user will be required to correct the interference at his own expense.
Changes and Modifications not expressly approved by the manufacturer or registrant of this equipment can void your authority to operate this
equipment under Federal Communications Commission’s rules.
In order to maintain compliance with FCC regulations shielded cables must be used with this equipment. Operation with non-approved
equipment or unshielded cables is likely to result in interference to radio and television reception.
This Class A digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada.
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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
•
•
•
•
CM9700-CC1 central processing unit (CPU): Controls system operation and therefore is also commonly referred to as the controller.
Connects to a wide variety of peripheral equipment. Detailed information about the CM9700-CC1 is provided in this manual.
CM9760-MXB matrix bay: Performs all video switching functions as directed from the CM9700-CC1. Connects to a maximum of 256 video
input devices and 16 video output devices. Detailed information about the CM9760-MXB is provided in this manual.
CM9760-KBD keyboard: Provides the user interface to system operations. Detailed information about the CM9760-KBD is provided in the
CM9760-KBD/KBR Keyboard Installation/Operation manual.
CM9700-MGR system management software: Allows easy system setup and configuration and therefore is also commonly referred to as
the System Manager. Requires installation on a PC that meets CM9700-MGR system requirements. Detailed information about the
CM9700-MGR software and PC system requirements is provided in the CM9700-MGR Software Guide.
CM9700-MGR
CM9760-KBD
CM9700-CC1
CAMERA 1
MONITOR 1
CM9760-MXB
MONITOR 16
CAMERA 256
Figure 1. Basic Components of a 9760 System
NOTE: If your 9760 system includes a CM9760-CC1 that is running version 8.03.xxx or earlier software and you are using CM9760-MGR
software, refer to the CM9760-CC1 and CM9760-MGR documentation provided with your system.
In addition to the basic components, you can also use peripheral devices in the 9760 system. Peripheral devices include equipment such as
KBD300A/KBD200A keyboards, CM9760-MDA master distribution amplifiers, CM9760-ALM alarm interface units, CM9760-REL relay interface
units, Genex® multiplexers, and Pelco® VCRs.
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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. For detailed information about
the CM9700-NW1, refer to the System 9760 Networking Guide.
•
You can increase video output capacity of a single node from 128 to a maximum of 512 by using CM9760-MDA units. For detailed
information about the CM9760-MDA, refer to the CM9760-MDA Master Distribution Amplifier Installation/Operation manual.
MODELS
The following provides a list of models of 9760 system devices and compatible equipment.
CPU CONTROLLER AND COMPONENTS
CM9700-CC1
CM9700-SER
CPU controller. Operates on 120 VAC, 60 Hz or 230 VAC, 50 Hz.
Serial communication (SERCOM) card (RS-422). Provides 8 SERCOM ports to interface peripheral equipment (4 cards
maximum per CM9700-CC1).
CM9700-SER-32
Port expansion unit. Provides 32 SERCOM ports. Includes interconnecting cables and adapters for DB9 and RJ-45
connectors. Data interface can be RS-232 or RS-422. Up to 3 units can be added to a CM9700-CC1. (Check with Pelco
Systems Applications Department before adding to an existing CM9700-CC1.)
MATRIX BAY AND COMPONENTS
CM9760-MXB
CM9760-MXB-X
CM9760-MXBL
CM9760-MPS
CM9760-MPS-X
CM9760-RPC
CM9760-RPL
CM9760-DFC
CM9760-DFL
CM9760-VCC
Video matrix bay equipped with CM9760-MPS power supply. Operates on 120 VAC, 60 Hz.
Same as CM9760-MXB except operates on 230 VAC, 50 Hz.
Video matrix bay for use with CM9760-DFL downframe looping cards. No power required.
Matrix bay power supply (spare). Operates on 120 VAC, 60 Hz.
Matrix bay power supply (spare). Operates on 230 VAC, 50 Hz.
Rear panel input card. Provides 16 BNC connectors to connect video inputs to matrix bay.
Double-wide rear panel card for single-bay looping. Reduces maximum number of inputs to 128.
Downframe rear panel card and cable assembly. Connects multiple matrix bays for expansion purposes.
Downframe rear panel card and cable assembly with BNC connectors for looping video.
Video input card capable of accepting up to 16 video inputs. Also requires a rear panel card (CM9760-DFC,
CM9760-DFL, or CM9760-RPC, or CM9760-RPL).
CM9760-RPM
Rear panel output card. Provides 16 BNCs to connect video outputs to matrix bay. Also interfaces video output
signals from CM9760-VMC4, CM9760-VMC8, CM9760-VMC12, or CM9760-VMC16 video output card.
CM9760-VMC4
CM9760-VMC8
CM9760-VMC12
CM9760-VMC16
CM9760-VMM
Video output card providing 4 video outputs. Requires CM9760-RPM.
Video output card providing 8 video outputs. Requires CM9760-RPM.
Video output card providing 12 video outputs. Requires CM9760-RPM.
Video output card providing 16 video outputs. Requires CM9760-RPM.
Video output module. Expands outputs of CM9760-VMC4, CM9760-VMC8, and CM9760-VMC12 video output cards.
KEYBOARDS
CM9760-KBD*
CM9760-KBD-X*
CM9760-KBR*
CM9760-KBR-X*
KBD300A
Full-function desktop variable-speed keyboard. Operates on 120 VAC, 60 Hz.
Same as CM9760-KBD except operates on 230 VAC, 50 Hz.
Full-function 19-inch EIA rack mount keyboard. Operates on 120 VAC, 60 Hz.
Same as CM9760-KBR except operates on 230 VAC, 50 Hz.
Desktop keyboard with full switching capabilities plus joystick control of PTZ functions. Operates on 12 VAC or
12 VDC. (Requires KBDKIT for power.)
KBD200A
Desktop keyboard with full switching capabilities plus push-button control of PTZ functions. Operates on 12 VAC or
12 VDC. (Requires KBDKIT for power.)
*Software version 8.03 or higher is required.
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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
CM9760-CDU-T
CM9760-CXTA
CM9760-DMR
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.
Code distribution unit. Sixteen-channel RS-422 transmit-only (two data wires and ground) distributor. Primarily used
for wiring up to 16 pan/tilt/zoom receivers in a “star” configuration.
Coaxitron® translator. Generates Coaxitron signals for Pelco Coaxitron receivers. Each translator supports up to
16 receivers.
Data merger and port expander unit. Allows multiple CM9700-CC1 units to control multiple pan/tilt/zoom cameras
and allows multiple keyboards to communicate through one CM9700-CC1 port.
CM9760-DMR-X
CM9760-HS
Same as CM9760-DMR except operates on 230 VAC, 50 Hz.
Hot switch interface unit. Changeover unit that monitors the status of a primary CM9700-CC1 in the system.
CM9760-MDA
Master distribution amplifier. Inserts master time and date from the CM9700-CC1 and a programmable title of up to
24 characters on 1 to 16 video signals.
CM9760-MDA-X
CM9760-REL
Same as CM9760-MDA except operates on 230 VAC, 50 Hz.
Relay interface unit. Connects directly to each system and provides dry contact switching for direct or automatic
control of peripheral equipment. Each unit provides up to 64 SPST contact outputs.
CM9760-VCRC Series
Genex Multiplexers
VCR controllers capable of controlling 64 VCRs.
Genex Series MX4009 (9-channel) and MX4016 (16-channel) multiplexers.
VMX200 and
VMX300 Series
Video management systems. Graphical map/icon-based user interface for mouse-driven operator control from
external PC.
COMPATIBLE RECEIVERS
Spectra® Series
ERD97P21-U
LRD41C21-1/-2/-3
LRD41C22-1/-2/-3
Esprit®
Spectra dome multiple protocol receiver.
Pelco P-protocol receiver.
Legacy® fixed speed receiver with presets.
Same as LRD41C21 Series except variable speed receiver.
Integrated pan/tilt positioning receiver.
ExSite™
Integrated pan/tilt explosionproof positioning receiver.
Coaxitron translator allows Coaxitron control of PTZ cameras.
Coaxitron
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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. It is recommended that
you perform the tasks in the order listed below.
NOTE: For detailed instructions to perform the tasks listed below for setup of the CM9700-CC1 and CM9760-MXB, refer to the Unpacking,
Installing the CM9700-CC1 Controller, and Installing CM9760-MXB Matrix Bay(s) sections in this manual. For detailed instructions to perform the
tasks listed below for setup of all other devices in your system, refer to the manual provided for the device.
1. Unpack all equipment. Verify delivery according to the packing slip. Keep all manuals and cables with the associated equipment.
2. Select a location within a standard 19-inch (48.26 cm) EIA rack for each device to be mounted.
3. Mount each device into the selected location within a rack.
DANGER: When mounting equipment into a rack, 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.
4. Verify that the correct number of cards and power supplies have been installed in each CM9760-MXB in the system according to the system
order.
5. Install the CM9700-MGR software on a PC, and then do the following:
a. Copy the startconfig.psm file from the CM9700 Factory Configuration Data CD.
b. Open the startconfig.psm file using the CM9700-MGR.
NOTES:
•
The CM9700-MGR software is contained on the CM9700 Resource CD, which is provided in the System 9760 binder. For CM9700-MGR
software installation instructions, refer to the CM9700-MGR Software Guide, which is also provided in the System 9760 binder.
•
•
The CM9700 Factory Configuration Data CD is provided in the System 9760 binder.
Do not modify the system using the CM9700-MGR until after you have verified system operation in step 12 below.
6. Connect all system devices to the CM9700-CC1 according to the CM9700-CC1 port assignments listed in the System 9760 port assignment
table.
NOTE: The System 9760 port assignment table, titled “System 9760 Factory Default Port Settings,” is provided in the System 9760 binder.
Detailed information about the System 9760 port assignment table is provided in the Installing the CM9700-CC1 Controller section in this
manual.
7. Connect power cabling to all devices.
8. Power on all devices connected to the CM9700-CC1.
9. Power on the CM9700-CC1.
10. Check diagnostic LEDs on devices to ensure that the devices are operating properly.
11. Connect all other cabling—for example, video input and output cabling—to all devices as appropriate.
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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.
UNPACKING THE CM9700-CC1
The following items are supplied with the CM9700-CC1:
1
1
1
1
1
1
2
2
CM9700-CC1 unit, with front rack ears installed
120 VAC, 60 Hz power cord (USA standard)
230 VAC, 50 Hz power cord (European standard)
Keyboard, PS/2
PS/2-to-AT keyboard adapter
BNC extraction tool
Brackets with a set of 6 screws, 8-32 x 0.250-inch, pan head
Adjustable support rail sets (each set includes 1 front-mounting rail and 1 rear-mounting rail) and the following sets of screws:
6
Screws, 8-32 x 0.375-inch, pan head with washers
12 Screws, 10-32 x 0.375-inch, flat head
4
6
Screws, 10-32 x 0.750-inch, Phillips, pan head with washers
Screws, 8-32 x 0.250-inch, Phillips, pan head
UNPACKING THE CM9760-MXB
The following items are supplied with the CM9760-MXB:
1
1
CM9760-MXB matrix bay, with front rack ears installed
Power cord:
–
–
For the CM9760-MXB: 120 VAC, 60 Hz power cord (USA standard)
For the CM9760-MXB-X: 230 VAC, 50 Hz power cord (European standard)
NOTE: If the matrix bay is shipped with two power supplies installed, then two 120 VAC or 230 VAC power cords are supplied.
1
8
1
RJ-45 reversed data cable
Screws and washers for mounting the bay
Sheet of video input number labels that can be affixed to the rear panel BNC cards to correspond to video input numbers
In addition, one CM9760-VMC video output card, the appropriate number of CM9760-VCC video input cards, associated rear panel cards, and up
to two power supplies are installed in the matrix bay according to your system order.
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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. When selecting a location in a rack for the
CM9700-CC1, note the following:
•
•
•
The CM9700-CC1 occupies 4 RUs or 7 inches (17.78 cm) of vertical rack space.
The maximum distance allowable between the CM9700-CC1 and a CM9760-MXB is 4,000 feet (1,219 meters).
Allow at least 1 RU or 1.75 inches (4.5 cm) of space above the CM9700-CC1 for air circulation.
MOUNTING THE CM9700-CC1
Brackets and support rails are provided to mount the CM9700-CC1 into a rack. The brackets and support rails are provided for your convenience
but are not required.
To mount the CM9700-CC1 without the brackets and support rails, fasten each rack ear of the CM9700-CC1 to the rack using two 10-32 x
0.750-inch Phillips pan head screws and washers for each ear.
1. Attach one bracket to each side of the CM9700-CC1 using three 8-32 x 0.250-inch pan head screws for each side. Attach each bracket so
that the slotted holes in the bracket are positioned toward the front of the CM9700-CC1 and the tapered ends of the bracket are positioned
toward the rear of the CM9700-CC1.
2. For each set of support rails, attach the front-mounting support rail to the rear-mounting support rail using three 8-32 x 0.375-inch pan head
screws and washers for each set. Leave the screws loose until the support rails are attached to the rack.
3. Attach one set of support rails to the equipment rack in the desired location as follows:
a. Position the ear of the front-mounting support rail against the front of the equipment rack and align the holes in the ear of the rail
with the threaded holes in the rack. Attach the ear of the rail to the rack using two 10-32 x 0.375-inch flat head screws.
b. Adjust the support rails to the correct depth of the equipment rack by sliding the rear-mounting support rail to the back of the
equipment rack.
c. Attach the ear of the rear-mounting support rail to the rear of the equipment rack using four 10-32 x 0.375-inch flat head screws.
(The holes in the ear of the rail should align with the threaded holes in the equipment rack.)
4. Tighten the three 8-32 x 0.375-inch pan head screws and washers that were attached to the front- and rear-mounting support rails in step 2
above.
5. Repeat steps 3 and 4 for the second set of support rails.
6. Place the CM9700-CC1 onto the support rails and slide the unit into the rack. The CM9700-CC1 should slide in and out of the rack easily.
DANGER: When sliding the CM9700-CC1 out of the rack, be careful not to let the unit fall out of the rack.
7. Fasten each rack ear of the CM9700-CC1 to the equipment rack using two 10-32 x 0.750-inch Phillips pan head screws and washers for
each ear.
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(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. Mounting the CM9700-CC1
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CONNECTING THE CM9700-CC1
CM9700-MGR PC
VGA MONITOR
CM9700-CC1
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
RS-422 SERCOM PORT
CONNECTIONS
8
7
6
5
POWER CORD
PRINTER
COM1
COM2
PS/2 KEYBOARD
Figure 3. CM9700-CC1 Connections
•
•
•
•
•
CM9700-MGR PC (RS-232 serial communication)
VGA monitor
PS/2 keyboard (supplied)
System devices for RS-422 serial communication (for example, matrix bays, keyboards, and pan/tilt or dome receivers)
Power cord (supplied)
For detailed information about each of the above connections, refer to the sections that follow.
NOTE: For detailed information about connecting ASCII communication devices to the CM9700-CC1, refer to Appendix A.
Connecting the CM9700-MGR PC to the CM9700-CC1
NOTES:
•
It is recommended that you install the CM9700-MGR software on the PC before connecting the PC to the CM9700-CC1. For CM9700-MGR
software installation instructions, refer to the CM9700-MGR Software Guide.
•
If your system is a networked system containing a CM9700-NW1 network interface unit, the CM9700-MGR PC connects to the
CM9700-NW1 rather than to a CM9700-CC1.
1. Using a null modem cable (not provided), connect one end of the cable to the COM 1 or COM 2 DB9 port on the CM9700-MGR PC.
2. Connect the other end of the cable to the COM1 DB9 port on the CM9700-CC1.
NOTE: Either COM 1 or COM 2 on the CM9700-CC1 can be used for connection to the CM9700-MGR PC. COM 1 is configured at the factory
for use with the CM9700-MGR PC and RS-232 communication.
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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. CM9700-MGR PC to CM9700-CC1 Null Modem Cable Connections
Connecting a VGA Monitor to the CM9700-CC1
When connected to the CM9700-CC1, a VGA monitor displays the CM9700-CC1 diagnostic screen (refer to Monitoring CM9700-CC1 Functions in
Connecting a PS/2 Keyboard to the CM9700-CC1
A PS/2 keyboard is supplied with the CM9700-CC1. To connect the keyboard to the CM9700-CC1, refer to Figure 3 and do the following:
1. Connect the supplied PS/2-to-AT keyboard adapter to the keyboard.
2. Connect the other end of the adapter to the AT-compatible keyboard port on the CM9700-CC1.
NOTE: An AT-compatible keyboard port also exists on the front of the CM9700-CC1 behind the front door. Both keyboard ports cannot be used at
the same time.
Connecting Devices to CM9700-CC1 RS-422 Serial Communication Ports
RS-422 serial communication ports 5-36, commonly referred to as SERCOM ports, are provided on the CM9700-CC1 for communication with
devices such as matrix bays, keyboards, and pan/tilt or dome receivers. Before connecting devices to the SERCOM ports, note the following:
•
For a new system installation, refer to the System 9760 port assignment table titled “System 9760 Factory Default Port Settings” that is
provided in the System 9760 binder. The port assignment table lists the CM9700-CC1 ports and the particular device that should be
connected to each port as configured at the factory for your system. For additional information about the port assignment table, refer to the
•
Certain devices must be connected to SERCOM ports in a particular order based on device priority. In a new system installation that has
been configured at the factory, connecting devices according to the port assignments provided in the System 9760 port assignment table
ensures that you connect the correct device to the correct port.
If you add devices to an existing system, it is recommended that you configure your system using the CM9700-MGR software before
connecting devices to SERCOM ports. The CM9700-MGR software automatically assigns devices to SERCOM ports in the correct order.
By connecting devices according to the port assignments in CM9700-MGR, you ensure that you connect the correct device to the correct
port. For detailed information about SERCOM port device priorities, refer to the SERCOM Port Device Priority Connections section.
To connect a device to a SERCOM port, attach an RJ-45 data cable from the device to the appropriate SERCOM port. An RJ-45 data cable is
included with each 9760 system device for connection to the CM9700-CC1. For detailed information about connecting a matrix bay to the
CM9700-CC1, refer to the Installing CM9760-MXB Matrix Bay(s) section. For detailed information about connecting an ASCII communication
device to the CM9700-CC1, refer to Appendix A. For detailed information about connecting other devices to the CM9700-CC1, refer to the manual
supplied with the device.
NOTE: Shielded cabling is required to comply with CE emissions guidelines.
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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. Note that the port
system.
System 9760 Factory Default Port Settings
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
PRINTER COM 1
COM2
5
Note: The number of ports on your system may differ from the
above drawing. Connect System 9760 components as follows:
PORT
1(RS-232)
DESCRIPTION
SYSTEM MANAGER
PORT
DESCRIPTION
19
2(RS-232)
20
3
4
NOT AVAILABLE
NOT AVAILABLE
CM9760-MXB (2A) (OUTPUTS 1-16)
CM9760-MXB (2B) (OUTPUTS 17-32)
CM9760-MXB (2C) (OUTPUTS 33-48)
CM9760-KBD (PIN 1111)
5
23
24
25
26
27
28
29
30
31
32
33
34
35
36
6
7
8
9
10
11
12
13
14
15
16
17
18
Figure 5. Sample Port Assignment Table
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•
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.
Because CM9700-CC1 ports 3 and 4 are not present on the CM9700-CC1, ports 3 and 4 are grayed out and are described as NOT
AVAILABLE.
•
•
•
•
•
CM9700-CC1 port 5 is assigned and configured for the CM9760-MXB labeled 2A containing video outputs 1-16; therefore, the
CM9760-MXB labeled 2A should be connected to port 5 on the CM9700-CC1.
CM9700-CC1 port 6 is assigned and configured for the CM9760-MXB labeled 2B containing video outputs 17-32; therefore, the
CM9760-MXB labeled 2B should be connected to port 6 on the CM9700-CC1.
CM9700-CC1 port 7 is assigned and configured for the CM9760-MXB labeled 2C containing video outputs 33-48; therefore, the
CM9760-MXB labeled 2C should be connected to port 7 on the CM9700-CC1.
CM9700-CC1 port 8 is assigned and configured for the CM9760-KBD having a pin number of 1111; therefore, the CM9760-KBD should be
connected to port 8 on the CM9700-CC1.
Because no additional devices are included in the system, CM9700-CC1 ports 9-36 are not assigned or configured for any device.
SERCOM Port Device Priority Connections
The CM9760-HS hot switch, CM9700-NW1 network interface unit (required in a networked system), and CM9760-MXB matrix bays must be
connected to SERCOM ports in a particular order based on device priority. The CM9760-HS has the highest priority and, if present in the system,
always connects to SERCOM port 5. The CM9700-NW1 has the next highest priority if present in the system, followed by CM9760-MXBs. If
neither a CM9760-HS nor a CM9700-NW1 is present, then CM9760-MXBs have the highest priority and must be connected to the CM9700-CC1
starting at port 5. As a result, the order of connections depends on whether the system includes a CM9760-HS hot switch, a CM9700-NW1, or
both. Note that CM9760-MXBs must be connected in sequential order. After all CM9760-MXBs have been connected, all other devices—such as
keyboards—can then be connected in any order.
Table A, Table B, Table C, and Table D provide a list of the appropriate order of device connections to SERCOM ports in various types of systems.
The tables also include the device tree view portion of the CM9700-MGR Main window. The device tree identifies the appropriate port number
assigned to each device in the system.
Table A. RS-422 SERCOM Port Connections in a Single-Node System with a CM9760-HS Hot Switch
Device
SERCOM Port Connection
CM9700-MGR Device Tree Port Assignments
CM9760-HS
CM9760-MXB(s)
Port 5
Port 6 and next sequential ports as necessary—
connected through the hot switch
Other devices
Any available ports connected through the hot
switch—connections do not have to be in
sequential ports
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Table B. RS-422 SERCOM Port Connections in a Single-Node System without a CM9760-HS Hot Switch
Device
SERCOM Port Connection
CM9700-MGR Device Tree Port Assignments
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
Table C. SERCOM Port Connections in a Networked System with a CM9760-HS Hot Switch
Device
SERCOM Port Connection
CM9700-MGR Device Tree Port Assignments
CM9760-HS
Port 5
CM9700-NW1
Port 6—connected through the hot switch
network interface unit
Matrix bay(s)
Other devices
Port 7 and next sequential ports as necessary—
connected through the hot switch
Any available ports connected through the hot
switch—connections do not have to be in
sequential ports
Table D. SERCOM Port Connections in a Networked System without a CM9760-HS Hot Switch
SERCOM Port Connection CM9700-MGR Device Tree Port Assignments
Device
CM9700-NW1network Port 5 on each CM9700-CC1 in the network
interface unit
Matrix bay(s)
Other devices
Port 6 and next sequential ports as necessary
Any available ports—connections do not have
to be in sequential ports
NOTE: If you add matrix bays to an existing system, you may need to change existing port connections to be able to connect each additional
matrix bay to the lowest sequential port possible.
Connecting Power to the CM9700-CC1
To connect power to the CM9700-CC1, connect the supplied 120 VAC or 230 VAC power cord to the power input receptacle on the CM9700-CC1
and to an approved power source.
NOTE: Do not power on the CM9700-CC1 until all system devices have been connected to the CM9700-CC1 and all system devices have been
powered on.
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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. Installation of a CM9760-MXB includes the following
tasks:
•
•
•
•
•
•
•
•
Selecting a location for the CM9760-MXB in an EIA standard rack
Mounting the CM9760-MXB
Verifying CM9760-MXB component installation
Connecting the CM9760-MXB to the CM9700-CC1
Connecting power to the CM9760-MXB
Powering on the CM9760-MXB
Checking diagnostic LEDs
Connecting video inputs and outputs
To perform each of the above tasks, refer to the sections that follow.
SELECTING A LOCATION FOR THE CM9760-MXB
The CM9760-MXB is designed to be mounted into a standard 19-inch (48.26 cm) EIA rack. When selecting a location in a rack for a
CM9760-MXB, note the following:
•
•
The CM9760-MXB occupies 6 RUs or 10.5 inches (26.7 cm) of vertical rack space.
Allow at least 1 RU or 1.75 inches (4.5 cm) of space above the CM9760-MXB for air circulation. In a high-temperature environment, it may
also be necessary to provide forced air cooling. Contact Product Support for additional information.
•
The maximum distance allowable between a CM9760-MXB and the CM9700-CC1 is 4,000 feet (1,219 meters). Note that a 10-foot
(3.05 meters) reversed cable is supplied with the CM9760-MXB for connection to the CM9700-CC1. If you install a CM9760-MXB farther
than 10 feet from the CM9700-CC1, you must create your own cable.
In addition, if you are installing multiple matrix bays, note the following:
•
•
•
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, each additional matrix bay should be installed at the same level in a nearby rack.
When installing a new system containing multiple matrix bays to be sideframed, note that the rear of each matrix bay is labeled to identify
the location of each matrix bay in the sideframe configuration. For example, the matrix bays are labeled 2A, 12A, 22A, and so on.
When expanding video outputs beyond 16 as provided by a single matrix bay, the expansion of video outputs occurs in a vertical manner
using a downframing configuration. As a result, multiple matrix bays must be installed in the same rack.
When installing a new system containing multiple matrix bays to be downframed, note that the rear of each matrix bay is labeled to
identify the location of each matrix bay in the downframe configuration. For example, the matrix bays are labeled 2A, 2B, 2C, and so on.
When expanding video inputs beyond 256 and video outputs beyond 16, a combination of sideframing and downframing is used.
When installing a new system containing multiple matrix bays to be sideframed and downframed, note that the rear of each matrix bay is
labeled to identify the location of each matrix bay in the sideframe and downframe configuration. For example, matrix bays to be side-
framed are labeled 2A, 12A, 22A, and so on; and matrix bays to be downframed are labeled 2B, 12B, 22B, and so on.
To help you determine the location of multiple matrix bays in your system, refer to Appendix B for sample illustrations of matrix bay
configurations. Note the labeling of the matrix bays shown in the sample illustrations. In addition, for detailed information about sideframing and
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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
Figure 6. Mounting the CM9760-MXB
If you are mounting multiple matrix bays, note the following:
•
If you are installing a new system, be sure to mount the matrix bays in a horizontal (sideframe) or vertical (downframe) manner according to
the bay location label provided on the rear of each matrix bay (refer to the Selecting a Location for the CM9760-MXB section for additional
information.)
•
After mounting matrix bays in a downframe configuration, connect each supplied coaxial ribbon cable, referred to as a downframe cable, to
downframe connectors on rear panel cards as appropriate. The downframe cables are required to connect the video inputs from one matrix
bay to another. Figure 7 illustrates sample downframe cable connections between a CM9760-RPC card and a CM9760-DFC card and
between a CM9760-RPC card and a CM9760-DFL card in a configuration containing one downframed bay. For additional information, refer
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CM9760-MXB
BAY 1
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
RPC
RPC
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
OR
CM9760-MXB
BAY 2
Alarm
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. Remove the front panel of the matrix bay to view the video input and output cards.
2. Verify that the correct number of cards and power supplies are installed. In addition, verify that each installed card and power supply is
properly seated in the matrix bay.
Refer to the following sections for detailed information.
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Removing the CM9760-MXB Front Panel
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.
Verifying Input Card, Output Card, and Power Supply Installation
The CM9760-MXB accepts up to 16 CM9760-VCC video input cards in slots 1-16, one CM9760-VMC card in slot 17, and up to two power supplies
(refer to Figure 9). With the front panel removed, verify that the correct number of cards are installed as ordered and that they are firmly seated
in the appropriate slots. In addition, verify that the correct number of power supplies are installed as ordered and that each installed power
supply is firmly seated in the power supply slot.
+10V
-10V
FRAME SUPPLY
FAULT FAULT
+10V
-10V
FRAME SUPPLY
FAULT
FAULT
CM9760-VMC
VIDEO OUTPUT
CARD
CM9760-VCC
VIDEO INPUT
CARDS
(SLOT 17)
(SLOTS 1-16)
Figure 9. Sample CM9760-MXB Configuration
cards and power supplies ordered. If your configuration contains only one power supply, a blank plate covers the lower power supply slot.
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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.
connected to port 5 on the CM9700-CC1.
8-PIN SERCOM PORT (FEMALE)
PIN 1=Tx+
PIN 1
PIN 2=Tx–
.
.
.
CM9760-MXB (FULLY LOADED)
PIN 7=Rx–
PIN 8
PIN 8=Rx+
CM9700-CC1
REVERSED DATA CABLE (SUPPLIED)
RS-422
DATA CABLE CONNECTIONS
CM9760-MXB
CM9700-CC1
RJ-45
CONNECTOR
RJ-45
CONNECTOR
PIN 1=Tx+
PIN 2=Tx–
PIN 1=Tx+
PIN 2=Tx–
.
.
.
.
.
.
.
.
PIN 7=Rx–
PIN 8=Rx+
PIN 7=Rx–
PIN 8=Rx+
Figure 10. CM9760-MXB to CM9700-CC1 Connection
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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
Alarm
Black
Out
RS-422
RS-422
POWER CORD CONNECTION
TO UPPER POWER SUPPLY
POWER SWITCH FOR
UPPER POWER SUPPLY
POWER SWITCH FOR
LOWER POWER SUPPLY
POWER CORD CONNECTION
TO LOWER POWER SUPPLY
Figure 11. CM9760-MXB Power Connections (Two Power Supplies Installed)
POWERING ON THE CM9760-MXB
NOTE: Do not power on the CM9760-MXB until after it is connected to the CM9700-CC1.
To power on a CM9760-MXB, place the corresponding power switch of each installed power supply in the On (I) position. If, for some reason, you
must power off the CM9760-MXB, place the corresponding power switch of each installed power supply in the Off (0) position.
CHECKING DIAGNOSTIC LEDS
Checking the diagnostic LEDs on a CM9760-MXB allows you to ensure that the unit is operating properly. It is recommended that you check the
LEDs on the CM9760-MXB before connecting video inputs and outputs to the unit.
With the CM9760-MXB powered on, check the LEDs as follows:
1. For each power supply installed, do the following:
a. Verify that the +10V and –10V power LEDs are lit (green).
If a power LED is not lit, ensure that the power supply is seated properly. If the condition persists, inspect the power supply fuse and
replace the fuse if necessary (refer to Replacing a Power Supply Fuse in the CM9760-MXB Component Installation or Replacement
section for detailed instructions).
b. Verify that the Frame Fault and the Supply Fault LEDs are not lit.
If the Frame Fault LED is lit (red), one or more video input/output cards has failed. Continue with step 2 for troubleshooting
information.
If the Supply Fault LED is lit (red), replace the power supply (refer to Replacing a Power Supply in the CM9760-MXB Component
Installation or Replacement section for detailed instructions).
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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
a. Verify that all +10 VDC and –10 VDC power LEDs are lit (green).
cards). Replace fuse(s) if necessary. If the condition continues, replace the card. For instructions to replace a CM9760-VCC or
CM9760-VMC card, refer to Replacing a CM9760-VCC Card or to Replacing a CM9760-VMC Card in the CM9760-MXB Component
Installation or Replacement section as applicable.
b. Verify that all Comm Fail LEDs are not lit:
•
•
•
If the LED is lit (red) on any video input card, reseat the card. If the condition continues, replace the card.
If the Comm Fail LED is lit (red) on the video output card only, check the communication to the CM9700-CC1.
continues, replace the video output card.
For a summary of troubleshooting information relating to the CM9760-MXB, refer to Troubleshooting the CM9760-MXB in the Troubleshooting
section.
After you have verified that the CM9760-MXB is operating properly, reattach the front panel of the CM9760-MXB. Then connect video inputs and
COMM FAIL
COMM FAIL
+10 VDC
-10 VDC
NO ASSIGNMENT
+10 VDC
-10 VDC
RESET BUTTON
CM9760-VCC
VIDEO INPUT CARD
CM9760-VMC
VIDEO OUTPUT CARD
Figure 12. CM9760-VCC and CM9760-VMC Diagnostic LEDs
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CONNECTING VIDEO INPUTS AND VIDEO OUTPUTS
1
241
1
Alarm
Black
Out
RS-422
RS-422
16
256
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.
Be sure each connection is secure.
Label all cabling to minimize system downtime if troubleshooting becomes necessary and cabling needs to be disconnected.
Video output from the CM9760-VMC video output card is not terminated. Terminate the video signal at the output device (for example,
monitor,VCR, or matrix switcher). If you are looping to other devices, terminate the last device only.
•
•
The endpoint of any video cable run must be teminated in 75 ohms.
For information about sideframing video inputs and downframing video outputs, refer to Sideframing and Downframing in the
CM9760-MXB Matrix Bay section.
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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. Enter the default operator password on the CM9760-KBD keypad: The default password for operator 1 is 0101; the default password for
operator 2 is 0202; the default password for operator 3 is 0303, and so on. The passwords are defined in the Operator PIN field in
CM9700-MGR.
The LCD displays the following:
ENTER MONITOR #
3. Enter the number of the monitor you are viewing—for example, 1—and then press the MON key.
4. Enter a camera number, and then press the CAM key.
5. Press the FWD key to advance through cameras and verify switching.
For detailed information about 9760 system operation using the CM9760-KBD, refer to the CM9760-KBD/KBR Keyboard Installation/Operation
manual.
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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.
This section provides information about the following:
•
Removing the top cover of the CM9700-CC1 (the top cover must be removed before CM9700-CC1 components can be installed or
replaced)
•
Installing or replacing a CM9700-SER card
For information about replacing the VGA card (CM9700-CC1-VID) in the CM9700-CC1, refer to the CM9700-CC1-VID VGA Video Card
Installation manual. For information about adding CM9700-SER-32 port expander units to the CM9700-CC1, refer to the CM9700-SER-32
Port Expander Installation/Operation manual.
REMOVING THE CM9700-CC1 TOP COVER
1. Power off the CM9700-CC1.
WARNING: Failure to power off the CM9700-CC1 can result in serious damage to the equipment.
2. Remove the ten screws that hold the top cover in place.
3. Tilt the top cover up at a slight angle as indicated by the dotted line in Figure 15, and then pull the cover backwards to remove the cover
from the front edge of the CM9700-CC1 chassis.
Figure 15. CM9700-CC1 Top Cover Removal
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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.
The CM9700-CC1 is shipped from the factory with a minimum of two CM9700-SER cards installed on the motherboard in ISA slots 1 and 2 (refer
to Figure 16). You can install additional CM9700-SER cards into ISA slots 3 and 4, totaling a maximum of four cards. You can also replace an
existing card. When installing or replacing a CM9700-SER card, you must set the interrupt and address jumpers on the new card.
CM9700-SER CARD
ACCESS SLOTS (SLOT
COVERS REMOVED)
CC1 CHASSIS, REAR
ISA SLOTS (DEFAULT
CM9700-SER CARDS SUPPLIED IN
ISA SLOTS 1 AND 2)
CC1 CHASSIS, FRONT
Figure 16. CM9700-CC1 with Top Cover Removed
To install or replace a CM9700-SER card, do the following:
1. Power off the CM9700-CC1.
WARNING: Failure to power off the CM9700-CC1 can result in serious damage to the equipment.
3. If replacing an existing CM9700-SER card, remove the card from the ISA slot.
4. On the new CM9700-SER card, set the W1 interrupt (IRQ) and W2 address select jumpers (refer to Figure 17 and to Table E). Note that the
jumper settings vary depending on the ISA slot into which the card is to be installed. If you are replacing a card, the jumper settings should
match the settings on the card being replaced.
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W1 IRQ SELECT
PIN 2
PIN 1
PIN 22
PIN 21
W2 ADDRESS
SELECT
PIN 2
PIN 4
PIN 1
PIN 3
Figure 17. Sample CM9700-SER Card Jumper Assignments
Table E. CM9700-SER Card Jumper Assignments
ISA Slot Number
W1 IRQ Setting
IRQ 10
W2 Address Setting
Pins 1 to 2 and 3 to 4
Pins 1 to 2 only
1
2
IRQ 11
3
IRQ 12
Pins 3 to 4 only
4*
IRQ 5
No jumpers
*The jumper assignments shown for ISA slot 4 are applicable to the CM9700-CC1 but are
not applicable to the CM9700-NW1. A maximum of three CM9700-SER cards can be
installed into the CM9700-NW1 (ISA slots 1, 2, and 3). The CM9700-NW1 is shipped from
the factory with a minimum of one CM9700-SER card installed into ISA slot 1.
5. Install the new CM9700-SER card into the desired slot.
6. Reattach the front cover of the CM9700-CC1.
7. Power on the CM9700-CC1.
Note the following:
•
You can cycle through the IRQ/address settings by toggling the ALT+A key combination on the PC keyboard associated with the
CM9700-CC1 diagnostic screen. (For information about the CM9700-CC1 diagnostic screen, refer to the System Diagnostics section.)
•
When connecting system devices to the serial communication ports of the CM9700-SER card, shielded cabling is required to comply with
CE emissions guidelines.
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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.
This section provides information about the following:
•
•
•
•
•
•
Installing or replacing rear panel cards (CM9760-RPC, CM9760-RPL, CM9760-DFC, CM9760-DFL, and CM9760-RPM)
Installing or replacing a CM9760-VCC video input card
Installing or replacing a CM9760-VMC video output card
Installing a CM9760-VMM module on a CM9760-VMC video output card
Installing or replacing a power supply
Replacing a power supply fuse
In addition, this section also provides information about enabling/disabling the power supply alarm.
INSTALLING OR REPLACING REAR PANEL CARDS
CM9760-RPC, CM9760-RPL, CM9760-DFC, CM9760-DFL, and CM9760-RPM cards are installed into the rear of the matrix bay. For an initial
system installation, the cards are installed at the factory as ordered. Rear panel cards (and associated front panel cards) can be added to expand
a system or can be replaced if necessary.
NOTE: Rear panel cards must be installed before the associated CM9760-VCC video input card or CM9760-VMC video output card is installed
into the front of the matrix bay.
INSTALLING OR REPLACING A CM9760-RPC REAR PANEL INPUT CARD
Up to 16 CM9760-RPC 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-RPC card can be replaced. To install or replace a CM9760-RPC card, refer to the
sections that follow.
Installing a CM9760-RPC Card
WARNINGS:
•
•
Rear panel card installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed when installing a rear panel card. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: A CM9760-RPC card must be installed before the associated CM9760-VCC video input card is installed.
To install a CM9760-RPC card, do the following:
•
In a single-bay configuration, 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 looping is not required, set the jumpers in the terminated position (jumper positions 1 and 2) (default setting).
When looping is required, set the jumpers in the unterminated position (jumper positions 2 and 3).
•
In multiple-bay configurations, set the jumpers in the unterminated position.
2. Locate the desired slot position at the rear of the bay.
NOTE: The physical number of a video input is determined by the position of the CM9760-VCC card, which is installed into the front of the
matrix bay. Viewed from the rear of the matrix bay, slot 1 is located on the right and corresponds to physical input numbers 1-16, slot 2
corresponds to physical input numbers 17-32, and so on. As a result, if you do not install CM9760-RPC cards in sequential order, be sure to
use the correct physical input number when programming the system using the CM9700-MGR.
3. Remove the blank cover plate by loosening the screw at the top and bottom of the plate.
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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
Figure 19. CM9760-RPC Rear Panel Input Card Installation
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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.
NOTE: Before replacing a CM9760-RPC card, you must remove the front panel of the matrix bay and disconnect the associated CM9760-VCC
video input card from the connectors on the backplane and from the connector on the CM9760-RPC card that is to be replaced. To disconnect the
CM9760-VCC card, grasp the two card handles and firmly pull the card toward you until the card is disconnected (refer to the Installing or
Replacing a CM9760-VCC Video Input Card section for additional information).
To replace a CM9760-RPC card, do the following:
1. Ensure that the associated CM9760-VCC video input card is disconnected as noted above.
2. Disconnect BNC and downframe cables, as applicable, from the CM9760-RPC card being replaced.
3. Remove the CM9760-RPC card by loosening the screw at the top and bottom of the card and then pulling the card toward you until it is out
of the frame.
4. Install the new CM9760-RPC card (refer to the Installing a CM9760-RPC Card section). Note that you should set the termination jumpers on
the new card to match the jumper positions on the card being replaced.
After the CM9760-RPC card has been replaced, reconnect the associated CM9760-VCC card by sliding the card toward the rear of the matrix bay
until the card is seated firmly with the backplane connectors and the CM9760-RPC connector. Note that, unless the audible alarm on the power
supply has been disabled, the alarm beeps twice and the Frame Fault LED flashes red twice. Then reattach the front panel of the matrix bay.
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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. To install or replace a CM9760-RPL card, refer to the sections that follow.
Installing a CM9760-RPL Card
WARNINGS:
•
•
Rear panel card installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed when installing a rear panel card. Always wear a grounding strap con-
nected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: A CM9760-RPL card must be installed before the associated CM9760-VCC video input card is installed.
To install a CM9760-RPL card, do the following:
•
•
When looping functions are required, set the jumpers in the unterminated position (positions 2 and 3).
When looping functions are not required, set the jumpers in the terminated position (positions 1 and 2).
TERMINATED
UNTERMINATED
JP1-JP16
Figure 20. Termination Jumpers on CM9760-RPL Card
2. Locate the desired slot position at the rear of the bay.
NOTE: In a bay that is to be fully populated with CM9760-RPL cards, each card must be installed into an odd slot position only.
The corresponding CM9760-VCC cards must also occupy odd slot positions.
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3. Remove the blank cover plate by loosening the screw at the top and bottom of the plate.
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.
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.
NOTE: Before replacing a CM9760-RPL card, you must remove the front panel of the matrix bay and disconnect the associated CM9760-VCC
video input card from the connectors on the backplane and from the connector on the CM9760-RPL card that is to be replaced. To disconnect the
CM9760-VCC card, grasp the two card handles and firmly pull the card toward you until the card is disconnected (refer to the Installing or
Replacing a CM9760-VCC Video Input Card section for additional information).
To replace a CM9760-RPL card, do the following:
1. Ensure that the associated CM9760-VCC video input card is disconnected as noted above.
2. Disconnect BNC and downframe cables, as applicable, from the CM9760-RPL card being replaced.
3. Remove the CM9760-RPL card by loosening the two screws at the top and bottom of the card and then pulling the card toward you until it
is out of the frame.
4. Install the new card (refer to the Installing a CM9760-RPL Card section). Note that you should set termination jumpers on the new card to
match the jumper positions on the card being replaced.
After the CM9760-RPL card has been replaced, reconnect the associated CM9760-VCC card by sliding the card toward the rear of the matrix bay
until the card is seated firmly with the backplane connectors and CM9760-RPL connector. Note that, unless the audible alarm on the power
supply has been disabled, the alarm beeps twice and the Frame Fault LED flashes red twice. Then reattach the front panel of the matrix bay.
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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. To install or replace a
CM9760-DFC card, refer to the sections that follow.
Installing a CM9760-DFC Card
WARNINGS:
•
•
Rear panel card installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed when installing a rear panel card. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: A CM9760-DFC card must be installed before the associated CM9760-VCC video input card is installed.
To install a CM9760-DFC card, do the following:
•
•
When CM9760-DFC cards are to be installed in intermediate bays, set the jumpers in the unterminated position (jumper positions
2 and 3).
When CM9760-DFC cards are to be installed in the last bay, set the jumpers in the terminated position (jumper positions 1 and 2).
JP
16
UNTERMINATED
3
2
1
JP
1
TERMINATED
Figure 22. Termination Jumpers on CM9760-DFC Downframe Card
2. Locate the desired slot position at the rear of the bay.
3. Remove the blank cover plate by loosening the screw at the top and bottom of the plate.
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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. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: Before replacing a CM9760-DFC card, you must remove the front panel of the matrix bay and disconnect the associated CM9760-VCC
video input card from the connectors on the backplane and from the connector on the CM9760-DFC card that is to be replaced. To disconnect the
CM9760-VCC card, grasp the two card handles and firmly pull the card toward you until the card is disconnected (refer to the Installing or
Replacing a CM9760-VCC Video Input Card section for additional information).
To replace a CM9760-DFC card, do the following:
1. Ensure that the associated CM9760-VCC video input card is disconnected as noted above.
2. Disconnect downframe cables, as applicable, from the CM9760-DFC card being replaced.
3. Remove the CM9760-DFC card by loosening the screw at the top and bottom of the card and then pulling the card toward you until it is out
of the frame.
4. Install the new card (refer to the Installing a CM9760-DFC Card section). Note that when setting the termination jumpers on the new card,
the jumper positions should match the jumper positions on the card being replaced.
After the CM9760-DFC has been replaced, reconnect the associated CM9760-VCC card by sliding the card toward the rear of the matrix bay until
the card is seated firmly with the backplane connectors and CM9760-DFC connector. Note that, unless the audible alarm on the power supply has
been disabled, the alarm beeps twice and the Frame Fault LED flashes red twice. Then reattach the front panel of the matrix bay.
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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.
•
In a CM9760-MXBL, up to 16 CM9760-DFL cards can be installed into slot positions that correspond to the video input slot positions in the
bay above. In the CM9760-MXBL, the CM9760-DFL cards do not connect to CM9760-VCC cards.
If necessary, a CM9760-DFL card can be replaced. To install or replace a CM9760-DFL card, refer to the sections that follow.
Installing a CM9760-DFL Card
WARNINGS:
•
•
Rear panel card installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed when installing a rear panel card. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: When a CM9760-DFL card is to be connected to a CM9760-VCC video input card, the CM9760-DFL card must be installed before the
associated CM9760-VCC card is installed.
To install a CM9760-DFL card, do the following:
•
•
When looping to another device is required, set the jumpers in the unterminated position (jumper positions 2 and 3). Termination must
occur at the final device.
When looping is not required, set the jumpers in the terminated position (jumper positions 1 and 2).
UNTERMINATED TERMINATED
JP1-JP16
Figure 24. Termination Jumpers on CM9760-DFL Card
2. Locate the desired slot position at the rear of the bay.
3. Remove the blank cover plate by loosening the screw at the top and bottom of the plate.
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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. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: Before replacing a CM9760-DFL card in a CM9760-MXB(-X), you must remove the front panel of the matrix bay and disconnect the
associated CM9760-VCC video input card from the connectors on the backplane and from the connector on the CM9760-DFL card that is to be
replaced. To disconnect the CM9760-VCC card, grasp the two card handles and firmly pull the card toward you until the card is disconnected
(refer to the Installing or Replacing a CM9760-VCC Video Input Card section for additional information).
To replace a CM9760-DFL card, do the following:
1. CM9760-MXB(-X) only: Ensure that the associated CM9760-VCC video input card is disconnected as noted above.
2. Disconnect BNC and downframe cables, as applicable, from the CM9760-DFL card being replaced.
3. Remove the CM9760-DFL card by loosening the screw at the top and bottom of the card and then pulling the card toward you until it is out
of the frame.
4. Install the new card (refer to the Installing a CM9760-DFL Card section). Note that when setting the termination jumpers on the new card,
you should match the jumper positions on the card being replaced.
CM9760-MXB(-X) only: After the CM9760-DFL has been replaced, reconnect the associated CM9760-VCC card by sliding the card toward the rear
of the matrix bay until the card is seated firmly with the backplane connectors and CM9760-DFL connector. Note that, unless the audible alarm
on the power supply has been disabled, the alarm beeps twice and the Frame Fault LED flashes red twice. Then reattach the front panel of the
matrix bay.
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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.
Installing a CM9760-RPM Card
WARNINGS:
•
•
Rear panel card installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed when installing a rear panel card. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: A CM9760-RPM card must be installed before the associated CM9760-VMC video input card is installed.
To install a CM9760-RPM card, do the following:
UNTERMINATED
TERMINATED
JP1-JP16
Figure 26. Termination Jumpers on CM9760-RPM Card
2. Locate the desired slot position at the rear of the bay.
3. Remove the blank cover plate by loosening the screw at the top and bottom of the plate.
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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. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
NOTE: Before replacing a CM9760-RPM card, you must remove the front panel of the matrix bay and disconnect the associated CM9760-VMC
video output card from the connectors on the backplane and from the connector on the CM9760-RPM card that is to be replaced. To disconnect
the CM9760-VMC card, grasp the two card handles and firmly pull the card toward you until the card is disconnected.
Unless the audible alarm on the power supply has been disabled, the alarm beeps and the Frame Fault LED flashes red when the CM9760-VMC
card is disconnected (refer to the Installing or Replacing a CM9760-VMC Video Output Card section for additional information).
To replace a CM9760-RPM card, do the following:
1. Ensure that the associated CM9760-VMC video output card is disconnected as noted above.
2. Disconnect BNC cables (or ribbon cable, if applicable) from the CM9760-RPM card being replaced.
3. Remove the CM9760-RPM card by loosening the screw at the top and bottom of the card and then pulling the card toward you until it is out
of the frame.
After the CM9760-RPM card has been replaced, reconnect the associated CM9760-VMC card by sliding the card toward the rear of the matrix
bay until the card is seated firmly with the backplane connectors and CM9760-RPM connector. If the audible alarm on the power supply is
enabled, the alarm stops beeping and the Frame Fault LED turns off.
To ensure proper operation of the CM9760-VMC card, reset the card by pressing the Reset button on the card. For about five seconds, the audible
alarm on the power supply beeps and the Frame Fault LED flashes red. Then reattach the front panel of the matrix bay.
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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.
INSTALLING A CM9760-VCC CARD
WARNINGS:
•
•
CM9760-VCC video input card installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed when installing a CM9760-VCC card. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
Before installing a CM9760-VCC card, note the following:
•
•
A CM9760-VCC card can be installed while the matrix bay is powered on.
A CM9760-VCC card can be installed into any available slot ranging from slot 1 to slot 16, totaling a maximum of 16 CM9760-VCC cards.
A CM9760-VCC card cannot be installed into slot 17—slot 17 is reserved for the CM9760-VMC video output card.
•
Each slot position (slots 1-16) into which a CM9760-VCC card can be installed corresponds to a specific range of physical inputs; for
example, slot position 1 corresponds to physical inputs 1-16, slot position 2 corresponds to physical inputs 17-32, and so on. Physical input
numbers are used when programming the CM9760-MXB using the CM9700-MGR; therefore, if you do not install CM9760-VCC cards in
sequential order, be sure to use the correct physical input numbers when programming the CM9760-MXB.
Table F. CM9760-VCC Slot Positions and Corresponding Physical Input Range
Slot
Physical
Slot
Physical
Position
Input Range
Position
Input Range
1
2
3
4
5
6
7
8
1-16
17-32
33-48
49-64
65-80
81-96
97-112
113-128
9
129-144
145-160
161-176
177-192
193-208
209-224
225-240
241-256
10
11
12
13
14
15
16
•
The CM9760-VCC card requires a rear panel input card: CM9760-RPC, CM9760-RPL, CM9760-DFC, or CM9760-DFL. The associated rear
panel input card should be installed into the correct slot in the rear of the matrix bay before a CM9760-VCC card is installed.
For instructions to install rear panels cards, refer to the Installing or Replacing Rear Panel Cards section.
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To install a CM9760-VCC card, do the following:
1. Remove the front panel of the matrix bay.
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. Note that, unless the audible alarm on the power supply has been disabled, the alarm beeps
twice and the Frame Fault LED flashes red twice.
The LEDs on the CM9760-VCC card indicate proper operation.
3. Reattach the front panel of the matrix bay.
SLOT 17 (RESERVED FOR
VIDEO OUTPUT CARD)
VIDEO INPUT CARDS (SLOTS 1-16)
CARD HANDLE
FRAME
FAULT
LED
CARD
HANDLE
CARD
GUIDE
Figure 28. CM9760-VCC Video Input Card Installation (Slots 1-16)
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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. Remove the CM9760-VCC card to be replaced by grasping the two card handles and firmly pulling the card out of the connectors on the
backplane and associated rear panel card. The card slides out of the slot.
3. Install the new card into the slot of the card being replaced (refer to the Installing a CM9760-VCC Card section for installation instructions).
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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.
INSTALLING A CM9760-VMC CARD
WARNINGS:
•
•
CM9760-VMC video output card installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed when installing a CM9760-VMC card. Always wear a grounding strap
connected to an approved grounding source when working on or near exposed electronic equipment.
Before installing a CM9760-VMC card, note the following:
•
•
•
The CM9760-VMC card can be installed while the matrix bay is powered on.
The CM9760-VMC card must always be installed into slot 17 in the front of the matrix bay.
The CM9760-VMC card requires the CM9760-RPM rear panel video output card. The CM9760-RPM card should be installed in the correct
slot in the rear of the matrix bay before the CM9760-VMC card is installed. For instructions to install a CM9760-RPM card, refer to the
Installing a CM9760-RPM Card section.
•
When installed in the matrix bay at the factory according to your system order, the S2 DIP switch and X55 and JP2 jumper settings on the
CM9760-VMC card are set in the proper position. You must, however, set DIP switch and jumper settings on a new card as instructed in the
procedure below.
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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:
d. Ensure that the JP2 jumper is installed in the two-pin header. The JP2 jumper must always be installed for proper operation.
S2
JP2
X55
Figure 29. DIP Switch and Jumper Locations on CM9760-VMC Video Output Card
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Table G. S2 DIP Switch Functions and Settings
Function
Options
Switch
Setting
Off
Off
Off
On
1
2
1
2
1
2
1
2
3
3
4
4
2400
4800
9600
Baud Rate
On
Off
On
19200
On
NTSC*
PAL*
Off
On
Video Standard
Enabled
On
Video Loss
Detection
Disabled (default)
Off
Table H. X55 Video Standards and Associated Jumper Positions
Jumper Positions
Video
Oscillator
Standard
Frequency
Pins 1 to 2
Pins 3 to 4
Pins 5 to 6
Pins 7 to 8
SECAM1
SECAM2
624
5.0 MHz
On
On
On
On
On
On
On
On
On
On
Off
Off
On
On
Off
Off
On
Off
On
Off
On
Off
On
Off
On
On
On
On
Off
Off
Off
Off
5.0 MHz
5.0 MHz
PAL/CCIR
NTSC1
NTSC2
524
5.0 MHz
5.034964 MHz
5.034964 MHz
5.034964 MHz
5.034964 MHz
PAL-M
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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. To ensure proper operation of the CM9760-VMC card, reset the card by pressing the Reset button on the card.
For about five seconds, the audible alarm on the power supply beeps and the Frame Fault LED flashes red. The LEDs on the video
output card then indicate proper operation.
5. Reattach the front panel of the matrix bay.
VIDEO OUTPUT CARD
(SLOT 17)
CARD
GUIDE
CARD
HANDLE
FRAME
FAULT
LED
LEDs
RESET
BUTTON
CARD
HANDLE
CARD
GUIDE
Figure 30. CM9760-VMC Video Output Card Installation (Slot 17)
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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.
When installed in the matrix bay at the factory according to your system order, the S2 DIP switch and X55 and JP2 jumper settings on the
CM9760-RPM card are set in the proper position. You must, however, set DIP switch and jumper settings on a new card as instructed in the
procedure below.
To replace the CM9760-VMC card, do the following:
1. Remove the front panel of the matrix bay.
2. Remove the CM9760-VMC card to be replaced by grasping the two card handles and firmly pulling the card out of the connectors on the
backplane and associated rear panel card. The card slides out of the slot.
NOTE: Unless the audible alarm on the power supply has been disabled, the alarm beeps and the Frame Fault LED flashes red when the
CM9760-VMC card is removed.
3. Install the new CM9760-VMC card (refer to the Installing a CM9760-VMC Card section). Note that you should set the S2 DIP switch and the
X55 and JP2 jumpers on the new card to match the settings on the card being replaced.
INSTALLING A CM9760-VMM VIDEO OUTPUT MODULE
WARNINGS:
•
•
CM9760-VMM video output module installation should be performed by qualified personnel only.
Electrostatic discharge (ESD) precautions must be observed. Always wear a grounding strap connected to an approved grounding
source when working on or near exposed electronic equipment.
•
When installing a CM9760-VMM module, exercise caution to prevent bending any of the pins on the module.
To install a CM9760-VMM module into an empty slot on a CM9760-VMC4, CM9760-VMC8, or CM9760-VMC12 card, align the pins on the
module with the three sockets on the card (refer to Figure 31) and push the card down carefully until the pins are firmly seated into the sockets.
VIDEO
OUTPUT
MODULES
EMPTY
SLOTS
Figure 31. CM9760-VMM Video Output Module Locations (CM9760-VMC8 Video Output Card)
NOTE: CM9760-VMM slot locations on the CM9760-VMC card are numbered OUTPUT 0 to OUTPUT 15—not OUTPUT 1 to OUTPUT 16.
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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).
A 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. You can disable the alarm if desired. For additional information, refer to the Enabling/Disabling the Power
Supply Alarm section.
INSTALLING A BACKUP POWER SUPPLY
NOTE: You can install a backup power supply while the matrix bay is powered on. You do not need to turn off power to the unit.
To install a backup power supply, do the following:
1. Remove the blank plate from the unoccupied power supply slot.
3. Press firmly on the front of the power supply until it is firmly seated into the rear connector.
4. Tighten the two captive panel screws at the top and bottom of the power supply.
5. Plug the power cord into the power input receptacle of the power supply.
6. Plug the other end of the power cord into the power source.
7. Place the power switch of the power supply in the On (I) position.
Figure 32. CM9760-MXB Backup Power Supply Installation
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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. Install the new power supply as follows:
a. Align the power supply in the mounting rails and then slide the power supply into the slot.
b. Press firmly on the front of the power supply until it is firmly seated into the rear connector.
c. Tighten the two captive panel screws at the top and bottom of the power supply.
d. Plug the power cord into the power source.
e. Place the power switch of the power supply in the On (I) position.
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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
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.
2. Using a small screwdriver, pry the fuse holder out of the socket. The fuse holder comes out of the unit.
3. Replace the fuse with a fuse of the same rating. If using the spare fuse, be sure to replace it with a fuse of the same rating.
4. Install the fuse holder back into the socket.
5. Plug the power cord into the power input receptacle.
STORAGE DRAWER
FOR SPARE FUSE
FUSE
HOLDER
Figure 33. CM9760-MXB Power Supply Fuse Replacement
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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,
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. Remove the power supply from the power supply slot as follows:
a. Loosen the two captive panel screws at the top and bottom of the power supply.
b. Pull the power supply toward you. The power supply slides out of the slot.
X5
ALARM
DISABLED
ALARM
ENABLED
Figure 34. CM9760-MXB Power Supply Alarm Jumper Positions
6. Install the power supply back into the power supply slot as follows:
a. Align the power supply in the mounting rails and then slide the power supply into the slot.
b. Press firmly on the front of the power supply until it is firmly seated into the rear connector.
c. Tighten the two captive panel screws at the top and bottom of the power supply.
7. Plug the power cord into the power source.
8. Place the power switch of the power supply in the On (I) position.
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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. This section provides information about the following:
•
•
•
System 9760 programming tasks that are performed using DOS operations
DOS filename conventions
DOS commands that are commonly used when managing 9760 system files
NOTES:
•
•
For an overview of the DOS directory structure of the CM9700-CC1, refer to Directory Structure in the CM9700-CC1 Controller section.
For detailed information about programming the 9760 system using the CM9700-MGR, refer to the CM9700-MGR Software Guide.
PERFORMING SYSTEM 9760 DOS PROGRAMMING TASKS
Using DOS operations, you can perform the following tasks:
•
•
•
Copy configuration files from the CM9700-MGR to the CM9700-CC1
Set and adjust system time in a single-node system
Set and adjust system time in a multi-node system
To perform each of the above tasks, refer to the sections that follow.
COPYING CONFIGURATION FILES FROM THE CM9700-MGR TO THE CM9700-CC1
NOTE: Before copying configuration files from the CM9700-MGR to the CM9700-CC1, it is recommended that you save a copy of the existing
CM9700-CC1 configuration files.
To copy configuration files from the CM9700-MGR to the CM9700-CC1, do the following:
1. Export configuration files from the CM9700-MGR to a floppy disk using the Export to Configuration Files option of the CM9700-MGR.
For detailed instructions, refer to the CM9700-MGR Software Guide.
2. Insert the floppy disk into the disk drive of the CM9700-CC1.
3. Using the keyboard connected to the AT-compatible keyboard port of the CM9700-CC1, press Ctrl+Q to exit the 9760 system.
The VGA monitor displays the C:\9700> prompt.
4. At the prompt, copy all configuration files from the floppy disk to the CM9700-CC1 by entering the following:
copy a:filename.*
where filename is the root name of the configuration files. For example, if the root name is NODE1, enter the following:
copy a:node1.*
5. Press Enter.
Either of the following occurs:
•
•
The configuration files are copied to the CM9700-CC1. Skip step 6 and proceed to step 7.
If the previous configuration files exist in the C:\9700 directory, the following message appears:
Files Already Exist, Over Write? Y/N/A
Continue with step 6.
6. Enter A to overwrite all existing files on the CM9700-CC1 with the files contained on the floppy disk.
NOTE: Entering Y for Yes requires that you confirm on a file-by-file basis that you wish to overwrite the existing file. Entering N for No
requires that you confirm on a file-by-file basis that you do not wish to overwrite the existing file.
7. Remove the floppy disk from the disk drive of the CM9700-CC1.
8. Press Ctrl+Alt+Delete to reboot the CM9700-CC1. Note that you must press the Del key on the numeric keypad of your keyboard in order to
reboot the system.
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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.
NOTE: System time can also be set using the CM9760-KBD rather than the CM9700-CC1 PC keyboard; however, to adjust system time, the
CM9700-CC1 PC keyboard must be used.
Setting System Time in a Single-Node System
Before setting system time, note the following:
•
•
•
Begin the process of setting system time close to the top of the hour.
When setting system time, you must synchronize the system clock to a reference time clock (RTC).
In a configuration having a CM9760-HS hot switch, setting and adjusting time on one CM9700-CC1 synchronizes the time between both
CM9700-CC1s. (For detailed information about the CM9760-HS hot switch, refer to the CM9760-HS Hot Switch Installation/Operation
manual.)
To set the system time using the CM9700-CC1 PC keyboard, do the following:
1. From the CM9700-CC1 diagnostic screen, press Alt+N to display the current configuration filename.
The configuration filename is displayed in the System box. You will need to enter the name later in this procedure when directed.
2. Press Ctrl+Q to exit the 9760 system.
The C:\9700> prompt appears.
3. At the prompt, enter time and then press Enter.
The currently set time is displayed and the following prompt appears:
Enter new time:
4. Do the following:
a. Enter a time equaling the top of the hour in the xx:xx:xx.xx format followed by the letter a for AM or p for PM (for example,
2:00:00.00p for 2:00 PM). Do not press Enter.
b. Wait for the RTC to approach the top of the hour.
c. When the RTC equals the top of the hour, press Enter.
5. At the C:\9700> prompt, invoke the system executable by entering startup and then pressing Enter.
After the CM9700-CC1 initializes, the CM9700-CC1 diagnostic screen appears. In addition, the system time entered in step 4 is displayed
on all monitors in the system.
After the system has run 24 hours or a multiple of 24 hours, you can adjust system time if the system clock is running fast or slow when
compared to the RTC. To adjust system time, refer to the Adjusting System Time in a Single-Node System section.
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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. For example, if system time is 2:02:30 PM and RTC time is 2 PM after a 24-hour period, then system time is ahead of RTC
time by 2 minutes and 30 seconds.
If the amount of time over which you are comparing system time to RTC time is a multiple of 24 hours, perform steps a-c that follow to
determine the difference in time per 24-hour period; otherwise, proceed to step 2.
a. Convert the time difference noted between system time and RTC time to seconds.
b. Divide the total number of seconds by the elapsed time in hours to determine the seconds per hour rate of change. For example, if a
90-second time difference had occurred over a time interval of 3 days or 72 hours, then the rate of change in seconds per hour is 1.25
(90 divided by 72 = 1.25).
c. Multiply the seconds per hour rate of change by 24 to obtain the time difference in seconds for a 24-hour period. For example,
multiplying 1.25 by 24 equals a time difference of 30 seconds per 24-hour period.
2. Using the CM9760-KBD, set system time at the top of the hour in 24-hour format. For example, if RTC time equals 2:00 PM, enter the
following:
14 00 00
3. At the CM9700-CC1 diagnostic screen, press Alt+L using the CM9700-CC1 PC keyboard.
The System box displays the following:
System :-Last Adj 0:0.0 Total 0:0.0
4. Enter the time difference noted in step 1 in the following format:
–mm.ss.hh or mm:ss.hh
where:
•
– = minus sign. A minus sign must be entered if system time is ahead of RTC time and must be slowed for synchronization with
RTC time.
•
•
•
mm = minutes
ss = seconds
hh = hundredths of a second
For example, to enter the time difference of 2 minutes and 30 seconds noted in step 1 in order to slow system time over the next 24 hours,
enter the following:
–02:30.00
5. Press Enter.
6. Press Alt+L to display the adjustment you have made to system time.
The adjustment is displayed in the System box on the diagnostic screen. For example, for the time difference of 2 minutes and 30 seconds
that was entered in step 4 above, the System box displays the following:
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. In the example, the total
adjustment that was made is –2:30.0.
After the system has run 24 hours or a multiple of 24 hours after the time adjustment was made, you can adjust the system time again if
necessary. To make additional adjustments to system time, refer to the Making Additional Adjustments to System Time section.
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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.bat File to Permanently Adjust System Time section.
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. Using the CM9760-KBD, set system time at the top of the hour in 24-hour format when the RTC reaches the top of the hour.
3. At the CM9700-CC1 diagnostic screen, press Alt+L.
The System box displays the latest time adjustment values. For example, if a time adjustment of –2:30.00 was entered to slow system time
2 minutes and 30 seconds, the System box displays the following:
Last Adj. –2:30.0 Total –2.30.0
4. Enter a new time adjustment based on adding or subtracting time from the last time adjustment that was made. For example, when
comparing system time with RTC time after five 24-hour periods have passed since the last time adjustment was made and determining
that system time is running 10 seconds slow—an average of 2 seconds slower for each 24 hours of elapsed time—you can change the last
time adjustment by adding 2 seconds. If the last time adjustment was –02:30.00, the following time adjustment must be entered as follows
to add 2 seconds:
–02:28.0
Note that –02.28.0 is derived from the following equation: [(–02:30.0) + (00:02.0)] = –02.28.0
5. Press Enter.
The System box displays the last time adjustment and total time adjustment values. In the example, the System box displays the following:
Last Adj. –2:28.0 Total –4.58.0
Note that the total time adjustment is –4.58.0.
6. If necessary, continue to make additional time adjustments until the system clock and RTC are synchronized.
NOTE: The time adjustments that are made to system time are temporary time adjustments. If you reboot the CM9700-CC1 by pressing
Ctrl+Alt+Del or exit the 9760 system by pressing Ctrl+Q, the time adjustment values revert 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.bat File to Permanently Adjust System Time section.
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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.bat file opens and appears as follows:
CM9700 NODEx
where:
x is the node number:
•
•
NODE1 is the default configuration filename for a single-node system.
Default configuration filenames for each node within a multi-node system are numbered sequentially according to the CM9700-NW1
port number to which each CM9700-CC1 is connected, for example, NODE5 and NODE6 in a two-node system.
3. Edit the startup.bat file to include the total time adjustment as follows:
CM9700 NODEx /T:–mm:ss:hh
or
CM9700 NODEx /T:mm:ss:hh
where:
•
•
/T = time adjustment switch command
– = minus sign. A minus sign must be entered if system time is ahead of RTC time and must be slowed for synchronization with
RTC time.
•
•
•
mm = minutes
ss = seconds
hh = hundredths of a second
For example, to enter the total time adjustment of 4 minutes and 58 seconds to slow the system clock in a 24-hour period, edit the
startup.bat file as follows:
CM9700 NODEx /T:-04:58:00
4. Press Alt+F and then type the letter s to save the file.
5. Press Alt+F and then type the letter x to exit the file.
6. At the C:\9700 prompt, enter startup and then press Enter to restart the system.
The time adjustment is now permanent. If you reboot the CM9700-CC1 by pressing Ctrl+Alt+Del or exit the 9760 system by pressing Ctrl+Q,
the time adjustment remains in system memory and does not revert to 0:0.0.
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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.
NOTE: System time can also be set using the CM9760-KBD rather than the CM9700-NW1 PC keyboard; however, to adjust system time, the
CM9700-NW1 PC keyboard must be used.
Setting System Time in a Multi-Node System
Before setting system time, note the following:
•
•
•
Begin the process of setting system time close to the top of the hour.
When setting system time, you must synchronize the system clock to a reference time clock (RTC).
If the CM9700-NW1 goes offline, each node reverts to its own internal system time.
To set system time using the CM9700-NW1 PC keyboard, do the following:
1. Press Ctrl+Q to exit the CM9700-NW1 diagnostic screen.
The screen provides a display similar to the following:
Program end. Vectors reset.
11:36:49.12 Mon 06-22-2005 C:\NETWORK>_
2. At the prompt, enter time and then press Enter.
The currently set time is displayed and the following prompt appears:
Enter new time:
3. Do the following:
a. Enter a time equaling the top of the hour in the xx:xx:xx.xx format followed by the letter a for AM or p for PM (for example,
2:00:00.00p for 2:00 PM). Do not press Enter.
b. Wait for the RTC to approach the top of the hour.
c. When the RTC equals the top of the hour, press Enter.
4. At the C:\NETWORK> prompt, invoke the system executable by entering net and then press Enter.
The system time entered in step 3 is displayed on all monitors in the system.
After the system has run 24 hours or a multiple of 24 hours, you can adjust system time if the system clock is running fast or slow when
compared to the RTC. To adjust system time, refer to the Adjusting System Time in a Multi-Node System section.
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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 2:02.30 PM and RTC time is 2 PM after a 24-hour period, then system time is ahead of RTC
time by 2 minutes and 30 seconds.
If the amount of time over which you are comparing system time to RTC time is a multiple of 24 hours, perform steps a-c that follow to
determine the difference in time per 24-hour period; otherwise, proceed to step 2.
a. Convert the time difference noted between system time and RTC time to seconds.
b. Divide the total number of seconds by the elapsed time in hours to determine the seconds per hour rate of change. For example, if a
90-second time difference had occurred over a time interval of 3 days or 72 hours, then the rate of change in seconds per hour is 1.25
(90 divided by 72 = 1.25).
c. Multiply the seconds per hour rate of change by 24 to obtain the time difference in seconds for a 24-hour period. For example,
multiplying 1.25 by 24 equals a time difference of 30 seconds per 24-hour period.
2. Using the CM9760-KBD, set system time at the top of the hour in 24-hour format. For example, if RTC time equals 2:00 PM, enter the
following:
14 00 00
3. At the CM9700-NW1 diagnostic screen, press Alt+L using the CM9700-NW1 PC keyboard.
The screen provides a display similar to the following:
**********TIME ADJUSTMENT*********
Last Time Adjustment 0:0.0
Total Time Adjustment 0:0.0
Format Example
+10:20.5 Adds 10 min 20.5 seconds per day
-5:10.61 Subtracts 5 min 10.61 seconds per day
***********ESC TO CANCEL**********
=>
4. At the => system prompt, enter the time difference noted in step 1 in the following format:
–mm.ss.hh or mm:ss.hh
where:
•
– = minus sign. A minus sign must be entered if system time is ahead of RTC time and must be slowed for synchronization with
RTC time.
•
•
•
mm = minutes
ss = seconds
hh = hundredths of a second
For example, to enter the time difference of 2 minutes and 30 seconds noted in step 1 in order to slow system time over the next 24 hours,
enter the following:
–02:30.00
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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. In the example, the total
adjustment that was made is –2:30.0.
6. If desired, press Alt+N to check the system time.
The line containing the system time appears similar to the following:
Fri June 24 15:40:23 2005 CM9700 NIU Ver xxx xxx Setup file:2nodes.niu
After the system has run 24 hours or a multiple of 24 hours since a time adjustment was made, you can adjust the system time again if
necessary. To make additional adjustments to system time, refer to the Making Additional Adjustments to System Time section.
NOTE: The time adjustment that was made to system time as displayed in step 5 above is a temporary time adjustment. If you reboot the
CM9700-NW1 by pressing Ctrl+Alt+Del or stop operation of the CM9700-NW1 by pressing Ctrl+Q, the time adjustment reverts to 0:0.0. As a
result, you must edit the net.bat file to permanently program the total time adjustment indicated on the diagnostic screen after the final time
adjustment is made. Instructions for editing the net.bat file are provided in the Editing the Net.bat File to Permanently Adjust System Time
section.
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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. Using the CM9760-KBD, set system time at the top of the hour in 24-hour format when the RTC reaches the top of the hour.
3. At the CM9700-NW1 diagnostic screen, press Alt+L.
The screen displays the latest time adjustment that was made. For example, if a time adjustment of –2:30.0 was entered to slow system
time 2 minutes and 30 seconds, the screen displays the following:
**********TIME ADJUSTMENT*********
Last Time Adjustment –2:30.0
Total Time Adjustment –2:30.0
Format Example
+10:20.5 Adds 10 min 20.5 seconds per day
-5:10.61 Subtracts 5 min 10.61 seconds per day
***********ESC TO CANCEL**********
=>
4. At the => system prompt, enter a new time adjustment based on adding or subtracting time from the original time adjustment. For example,
when comparing system time with RTC time after five 24-hour periods have passed since the original time adjustment was made and
determining that system time is running 10 seconds slow—an average of 2 seconds slower for each 24 hours of elapsed time—you can
change the original time adjustment by adding 2 seconds. If the original time adjustment was –02:30.00, the following time adjustment
must be entered as follows to add 2 seconds:
–02:28.0
Note that –02.28.0 is derived from the following equation: [(–02:30.0) + (00:02.0)] = –02.28.0
5. Press Enter.
The adjustment is displayed. For example, for the adjustment of –02.28.0 that was made in step 4, the following line appears:
Last Adj. –2:28.0 Total –4.58.0
Note that the total time adjustment is –4.58.0.
6. If desired, press Alt+N to check the system time.
The line containing the system time appears similar to the following:
Sat June 25 15:40:18 2005 CM9700 NIU Ver xxx xxx Setup file:2nodes.niu
7. If necessary, continue to make additional time adjustments until the system clock and RTC are synchronized.
NOTE: The time adjustments that are made to system time are temporary time adjustments. If you reboot the CM9700-NW1 by pressing
Ctrl+Alt+Del or stop operation of the CM9700-NW1 by pressing Ctrl+Q, the time adjustment values revert to 0:0.0. As a result, you must edit the
net.bat file to permanently program the total time adjustment indicated on the diagnostic screen after the final time adjustment is made.
Instructions for editing the net.bat file are provided in the Editing the Net.bat File to Permanently Adjust System Time section.
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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. At the prompt, enter edit net.bat and then press Enter.
The net.bat file opens and appears as follows:
9700NIU xNODES
where x equals the number of nodes in the network when the CM9700-NW1 is shipped as part of a system order, for example,
2NODES.NIU for a two-node system, 3NODES.NIU for a three-node system, and so on. The default configuration file name is 2NODES.NIU
when the CM9700-NW1 is shipped as a standalone unit.
3. Edit the net.bat file to include the total time adjustment as follows:
9700NIU xNODES /T:-mm:ss:hh
or
9700NIU xNODES /T:mm:ss:hh
where:
•
•
/T = time adjustment switch command
– = minus sign. A minus sign must be entered if system time is ahead of RTC time and must be slowed for synchronization with
RTC time.
•
•
•
mm = minutes
ss = seconds
hh = hundredths of a second
For example, to enter the total time adjustment of 4 minutes and 58 seconds to slow the system clock in a 24-hour period, edit the net.bat
file as follows:
9700NIU xNODES /T:-04:58:00
4. Press Alt+F and then type the letter s to save the file.
5. Press Alt+F and then type the letter x to exit the file.
6. At the C:\NETWORK prompt, enter net and then press Enter to restart the system.
The time adjustment is now permanent. If you reboot the CM9700-NW1 by pressing Ctrl+Alt+Del or stop operation of the CM9700-NW1,
the time adjustment remains in memory and does not revert to 0:0.0.
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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)
Used for directory navigation
Used as a delimiter in command line options
Used for a command prompt
. (dot)
* (asterisk)
? (question mark)
Used as a separator between root and extension
Used as a wildcard character
Used as a wildcard character
> (greater than symbol) Used as a command prompt
< (less than symbol) Used as a command prompt
DOS COMMAND REFERENCE
Table I. DOS Command Reference
Command†
Switch††
Description
Directory Management Commands
Example(s)§¶
CD
Displays the current
directory.
C:\>CD
Displays the root directory as
the current directory: C:\>
Changes the current
directory.
C:\>CD 9700
Changes from the root direc-
tory (C:\) to the 9700 directory:
C:\9700>
C:\>CD 9700\BKUP
C:\9700>CD..
Changes from the root direc-
tory to the BKUP directory
within the 9700 directory:
C:\9700\BKUP>
Moves up one level in the
directory structure. In the
example, moves from the 9700
directory to the root directory.
C:\9700\BKUP>CD\
Changes to the root directory.
In the example, changes from
the C:\9700\BKUP directory to
the root directory.
C:\>CD A:
C:\>DIR
Changes from the root
directory to the A drive.
DIR
Displays a list of files
and subdirectories
within the specified
directory.
Displays a list of files and
subdirectories within the root
directory (C:\).
/W
Displays the contents of C:\>DIR/W
a directory in wide
Displays the contents of the
root directory in wide format.
format. Up to five file-
names or directory
names are displayed on
one line.
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Table I. DOS Command Reference (Continued)
Description
Example(s)§¶
Command†
Switch††
Directory Management Commands (Continued)
DIR (Continued)
/P
Displays the contents of C:\>DIR/P
a directory one screen at
a time.
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.
MD
Creates a directory
C:\9700>MD FACTORY
Creates a directory named
FACTORY within the 9700
directory.
RD
or
Removes the specified
directory. The directory
C:\>RD NETWORK
or
Removes the NETWORK
directory if empty.
RMDIR
to be removed must not C:\>RMDIR NETWORK
contain any files or sub-
directories—the direc-
tory must be empty
except for the single-dot
(.) and double-dot (..)
entries.
TREE
COPY
Displays the directory
structure of the
specified directory and
those below it.
C:\TREE
Displays the directories in the
root directory and any
associated subdirectories.
File and Disk Management Commands
Copies a single file or a
C:\>COPY A:\NODE1.MON C:\9700
Copies the NODE1.MON file
from the floppy disk in drive A
to the C:\9700 directory.
group of files from one
location to another
location.
C:\>COPY A:\NODE1.* C:\9700
Copies all files with the
NODE1 root name from the
floppy disk in drive A to the
C:\9700 directory.
C:\9700>COPY A:NODE1.*
A:\>COPY NODE1.* C:\9700
Copies all files with the
NODE1 root name from the
floppy disk in drive A to the
C:\9700 directory.
Copies all files with the
NODE1 root name from the
floppy disk in drive A to the
C:\9700 directory.
C:\>COPY A:\*.* C:\9700
Copies all files from the floppy
disk in drive A to the C:\9700
directory.
C:\9700>COPY NODE1.* A:
Copies all files with the
NODE1 root name from the
C:\9700 directory to the A
drive.
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Table I. DOS Command Reference (Continued)
Description
Example(s)§¶
Command†
Switch††
File and Disk Management Commands (Continued)
DEL
Deletes a single file or a C:\>DEL C:\9700\OLDFILE.MON
group of files from the
Deletes the OLDFILE.MON file
from the C:\9700 directory.
specified location.
NOTE: You can restore
deleted files using the
C:\9700>DEL OLDFILE.MON
Deletes the OLDFILE.MON file
from the C:\9700 directory.
UNDELETE command.
WARNING: Be careful
that you do not delete
C:\>DEL A:OLDFILE.MON
Deletes the OLDFILE.MON file
from the floppy disk in drive A.
A:\>DEL OLDFILE.MON
C:\9700>DEL OLDFILE.*
Deletes the OLDFILE.MON file
from the floppy disk in drive A.
necessary system or
configuration files.
Deletes all files with the
OLDFILE root name from the
C:\9700 directory.
/P
Prompts you for confir-
mation before deleting a
file.
C:\9700>DEL OLDFILE.* /P
C:\9700>EDIT STARTUP.BAT
Prompts you for confirmation
before deleting each file with
the OLDFILE root name from
the C:\9700 directory.
EDIT
Starts the MS-DOS
editor, which is a text
editor that can be used
to create and edit ASCII
text files.
Allows you to edit the
startup.bat file.
FORMAT
Formats a disk for use
with DOS. If data is
present on the disk, the
data is erased.
C:\>FORMAT A:
Formats the floppy disk in drive
A for use with DOS.
WARNING: Do not
format the C: drive.
/S
Transfers operating sys- C:\>FORMAT A:\S
tem files to a newly for-
matted floppy disk that
Transfers operating system
files to a newly formatted
floppy disk in drive A.
can be used as the sys-
tem disk, allowing you
to boot from the disk.
REN
Changes the name of a
single file or a group of
files. For information
about DOS filename
conventions, refer to the
tions section.
—
—
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Table I. DOS Command Reference (Continued)
Description
Example(s)§¶
Command†
Switch††
File and Disk Management Commands (Continued)
TYPE
Displays the contents of C:\9700>TYPE NODE1.MON
the specified text file on
the screen. If the loca-
Displays the contents of the
NODE1.MON file located in
the C:\9700 directory
tion of the file is in a
C:\>TYPE C:\9700\NODE1.MON
Displays the contents of the
NODE1.MON file located in
the C:\9700 directory
directory other than the
one you are in, you must
specify the directory
path.
| MORE
Allows a long text file to C:\ TYPE C:\9700\NODE1.ALM | MORE
be viewed one screen at
a time. The | redirection
operator symbol
Allows the NODE1.ALM text
file to be viewed one screen at
a time
precedes the MORE
command. The symbol is
located above the
backslash (\) on the
keyboard.
UNDELETE
Recovers files that were C:\UNDELETE C:\9700\TEST.BAT
previously deleted using
the DEL command.
Recovers the TEST.BAT file
that was previously deleted
using the DEL command.
/LIST
/ALL
Lists the deleted files
that are available to be
recovered but does not
recover any files.
C:\UNDELETE C:\9700\ /LIST
Lists the files that have been
deleted from the C:\9700 direc-
tory and are available to be
recovered but does not recover
the files.
Recovers deleted files
without prompting for
confirmation for each
file
C:\UNDELETE C:\9700\ /ALL
Recovers all files that have
been deleted from the C:\9700
directory without prompting
for confirmation for each file
Environment Commands
PATH
Displays the current
search path used when
DOS looks for a program
file.
C:\>PATH
—
PATH [drive:][path[;…]]
Sets the search path to
be used when DOS
C:\>PATH C:;C:\DOS;C:\WINDOWS
Sets the search path to
C:;C:\DOS;C:\WINDOWS
looks for a program file
Miscellaneous Commands
CLS
Clears the screen. Only
the command prompt
and cursor remains.
C:\>CLS
Clears the screen. The follow-
ing remains: C:\>_
FASTHELP
Lists and briefly
C:\>FASTHELP
—
describes MS-DOS
commands. Provides
less detail than the
information provided by
the HELP command
(see below).
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Table I. DOS Command Reference (Continued)
Command†
Switch††
Description
Miscellaneous Commands (Continued)
Briefly describes the C:\FASTHELP DIR
Example(s)§¶
FASTHELP command
Displays brief information
about the DIR command.
specified command.
Provides less detail than
the information provided
by HELP command (see
below).
HELP
Starts the MS-DOS
command reference,
which provides detailed
information about
C:\HELP
—
MS-DOS commands.
HELP command
Displays detailed
information about the
specified command only.
C:\HELP DIR
Displays detailed information
about the DIR command.
MORE
Displays one screen of
information at a time.
Can also be used with
the TYPE command
when viewing a long
text file. When MORE
follows a command, the
| redirection operator
symbol is used. The
symbol is located above
the backslash (\) on the
keyboard.
C:\DIR C:\DOS | MORE
Displays the contents of the
DOS directory one screen at a
time.
VER
Displays the current
version of DOS.
C:\VER
—
†DOS commands can be entered in lowercase or uppercase.
††A switch modifies the way DOS carries out a command. Generally, a switch consists of a forward slash (/) followed by one or more letters or
numbers.
§An asterisk (*) used in the examples denotes a wildcard. The asterisk matches any character in that position and all the positions that
follow. The asterisk can be used to manage (for example, copy or delete) a group of configuration files without the need to manage each
configuration file individually.
NOTE: The root directory does not have a name. It is simply referred to as a backslash (\). Entering the CD\ command from any directory
always returns you to the root directory, which is denoted by the command prompt C:\>.
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System Diagnostics
The 9760 system provides diagnostic screens that allow you to monitor single-node and multi-node status. This section provides information
about the following:
•
•
Monitoring CM9700-CC1 functions using the CM9700-CC1 diagnostic screen and associated PC keyboard commands
Viewing multi-node system status using the CM9700-NW1 diagnostic screen and associated PC keyboard commands
NOTE: Additional displays, such as those provided by the CM9700-MGR Main window and the CM9760-KBD LCD, also provide information
about system status. For detailed information, refer to the product-specific documentation.
MONITORING CM9700-CC1 FUNCTIONS
The CM9700-CC1 provides a diagnostic screen that allows you to monitor CM9700-CC1 functions. You can view the diagnostic screen on a VGA
monitor that is connected to the VGA port on the rear of the CM9700-CC1. The diagnostic screen appears after the CM9700-CC1 initializes.
MONITOR
BOXES (8)
CONFIGURATION
INFORMATION
CM9700-CC1
SOFTWARE
VERSION
GPI AND
AUXILIARY
BOX
SYSTEM
BOX
Figure 35. Sample CM9700-CC1 Diagnostic Screen
•
Monitor boxes: Up to eight monitor boxes are displayed on the CM9700-CC1 diagnostic screen at one time. Each monitor box represents a
monitor and the camera currently being displayed on that monitor (for detailed information about the monitor box, refer to the Viewing
Monitor Box Diagnostics section).
•
GPI and auxiliary box: Displays GPI and auxiliary information (if applicable):
–
–
GPI displays the GPI currently selected. The GPI number is updated when an auxiliary command is executed.
Ax displays the auxiliary currently selected and whether the auxiliary is on or off.
•
•
System box: Displays system status messages, error messages, and responses to commands issued from the PC keyboard that is connected
to the AT-compatible port of the CM9700-CC1.
Configuration information: Indicates whether the CM9700-CC1 is part of a CM9760-HS hot switch configuration. Note that A OFF indicates
that the CM9700-CC1 is not part of a hot switch configuration. (The letter A indicates asynchronous mode.) For detailed information about
the diagnostic screen in a hot switch configuration, refer to the CM9760-HS Hot Switch Installation/Operation manual.
•
CM9700-CC1 software version: Displays the software version number (xxx xxx) of the CM9700.EXE executable file (for example, version
903 023 which represents version 9.03.023).
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VIEWING MONITOR BOX DIAGNOSTICS
The monitor box on the CM9700-CC1 diagnostic screen provides information about the monitor, camera, auxiliary conditions, and alarms
LOGICAL ALARM
NUMBER
LOGICAL
CAMERA
FOCUS
INDICATION LINES
NUMBER
CAMERA
AUXILIARIES
LOGICAL
MONITOR
NUMBER
ZOOM AND
JOYSTICK
CONTROL BOX
Figure 36. Sample Monitor Box on CM9700-CC1 Diagnostic Screen
•
Logical camera number: Identifies the logical number of the selected camera. Note that the letters CC denote that the camera is a
controllable camera. If the letters CC do not appear for a particular camera, the camera is a fixed camera.
•
Camera auxiliary numbers 1-8: Indicate whether auxiliaries 1-8 are on or off. An auxiliary number appears white when the corresponding
auxiliary is off and changes color when the corresponding auxiliary is turned on.
•
•
•
Logical monitor number: Identifies the logical number of the selected monitor.
Logical alarm number: Identifies the logical number of an alarm that has been triggered.
Focus indication lines: Indicate when a camera is focused near or far. When a camera is focused near, the distance between the lines
increases. When a camera is focused far, the distance between the lines decreases.
•
•
Iris: Indicates when the iris of the camera is being opened or closed. When the iris is being opened, the black area inside the circle
increases. When the iris is being closed, the black area decreases.
Zoom and joystick control box: Indicates when a camera is zoomed in or out. When a camera is zoomed in, the box becomes larger. When a
camera is zoomed out, the box becomes smaller.
The box also displays camera movement by mimicking joystick control.
Note that each monitor box that is assigned to a camera is displayed in a color. The color of the monitor box changes when a different camera is
selected. When a monitor box appears empty, a camera is not selected.
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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. The function keys correspond to the monitor boxes:
•
The top four monitor boxes are 1 to 4 (from left to right); therefore, F1 corresponds to monitor box 1, F2 corresponds to monitor box 2, and
so on.
•
The bottom four monitor boxes are 5 to 8; therefore, F5 corresponds to monitor box 5, F6 corresponds to monitor box 6, and so on.
To allocate a monitor to a monitor box, do the following:
1. Press the function key corresponding to the monitor box to which you want to want to assign a different monitor. For example, press F1 if
you want to assign monitor box 1 a different monitor.
In the System box, the following prompt appears:
Allocate Box [x] to ?
where x is the number of the desired monitor box (1-8). For example, pressing the F1 key causes the following prompt to appear:
Allocate Box 1 to ?
2. Enter the number of the monitor you want to assign to the monitor box, and then press the Enter key.
The desired monitor is displayed in the monitor box.
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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
associated PC keyboard commands.
Table J. CM9700-CC1 PC Keyboard Command Functions
Function
Keyboard Command System Box Display Message
Allocate monitor box 1 to 8 on diagnostic screen
Function key F1 to F8, Example: Pressing F1 to allocate monitor box 1 results in
which correspond to
monitor box 1 to 8,
respectively
the following message:
Allocate Box 1 to ?
(Refer to the Allocating Monitors to Monitor Boxes
section for additional information.)
Stop system operation
Ctrl+Q
Exit to DOS prompt
NOTE: When Ctrl+Q is entered, the 9760 system
stops operating and the C:\9700 prompt appears.
The CM9760-KBDs go offline and the time and date
titling on the monitor outputs from the CM9760-MXB
stop at XX:XX:59. Operators then lose control of the
system. It is recommended that system operation be
stopped during off-peak hours if possible.
Display number of messages to be printed
Display port parameters
Alt+O
Alt+A
Total Ptr Msg => 0
NOTE: Printer port is reserved for future use.
Example: 1 - ATNRQ (IRQ 10) Connected to SER1
NOTE: Toggling the Alt+A key combination cycles
through all allocated IRQs and associated connections
as configured.
Display operator logged-on parameters
Alt+J
Example: LogOn–Opr1, KB2,Pin1111,Port 7,index2
NOTE: Toggling the Alt+J key combination cycles
through operators.
Display system alarm parameters
Alt+K
Alt+Z
Alt+L
Example: Sys:3 Auto:0 1
Example: (10,0) (10,0) (10,0) (10,0)
Display/set time adjustment parameters
Last Adj. 0 : 0. 0 Total 0: 0 . 0
for detailed information about setting and adjusting
time in a single-node system.)
Shift+ESC
Last Adj. 0 : 0. 0 Total 0: 0 . 0.60
NOTE: The Shift+ESC command must follow the Alt+L
command.
Display operator alarm parameters
Display alarm sequence parameters
Display configuration filename
Alt+C
Alt+B
Alt+N
Alt+V
Example: Kb2 Alms 0 Alarm 0 0 0 0 FI0 0 0
Cur0, Alms0-0 0 0 0 Cams0-0 0 0 0
Example: Configuration file is NODE1
Display number of peripheral devices connected to the
system
Example: Port10 Node1 NIU0 Cam16 Mon8 Kbd11
NOTE: Continue toggling for entire list of peripheral
devices.
Toggle printer port on/off
Alt+P
Printer not allocated
NOTE: Printer port is reserved for future use.
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Table J. CM9700-CC1 PC Keyboard Command Functions (Continued)
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
Alt+D
Resynch Trap Offline
or
Resynch Trap Online
Toggle system diagnostics on/off. When system diag-
nostics is off, the diagnostic screen is visible but is not
updated.
Demo On
or
Demo Off
Toggle system error reporting on/off. When system error Alt+S
reporting is off, the System box is not updated with
system error messages. When a visual display of error
reporting is not necessary, it is recommended that error
reporting be turned off to reduce system load.
System on
or
System off
Toggle between master/slave units, PC keyboard, and
monitor using ChangeOver system
Alt+M
—
—
Trigger alarm points 1 to 9 (test function)
Clear message displayed in System box
Shift + function key F1
to F9, which corre-
spond to alarm points
1 to 9, respectively
Space bar
—
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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
PELCO CM9700 N.I.U. Ver xxx xxx
Vector initialized
2nodes.niu
Com init COM1
ATNRQ 3 (IRQ 5) Connected to _ _ _ _
ATNRQ 4 (IRQ 10) Connected to SER 1
ATNRQ 6 (IRQ 11) Connected to SER 2
ATNRQ 7 (IRQ 12) Connected to SER 3
ATNRQ 5 (IRQ 7) Connected to _ _ _ _
ATNRQ 2 (IRQ 4) Connected to COM 1
ATNRQ 1 (IRQ 3) Connected to _ _ _ _
ATNRQ 0 (IRQ 15) Connected to _ _ _ _
Fri Jul 23 11:46:10 2005
Fri Jul 23 11:46:11 2005
Fri Jul 23 11:47:13 2005
Fri Jul 23 11:47:16 2005
Fri Jul 23 11:47:17 2005
Fri Jul 23 11:47:18 2005
Port 8 Request download
Port 8 on line
Port 8 Receiving Monitor parameters
Port 8 Receiving Camera parameters
Port 8 Received Tie Line parameters
Port 8 Received Operator parameters
Figure 37. Sample CM9700-NW1 Diagnostic Screen
As the CM9700-NW1 initializes, the SERCOM ports of the CM9700-NW1 are set up according to the CM9700-NW1 configuration file.
The CM9700-NW1 then polls each of the SERCOM ports and requests download information about the setup of each port. As shown in
information about each of the SERCOM ports connected to a CM9700-CC1 as each port is polled. The CM9700-NW1 reports that a port is online
(for example, port 8 is online) and displays the status of setup information for the port (for example, received operator parameters). In addition,
date and time information is also displayed for each status condition. The CM9700-NW1 continues to poll until each port connected to a
CM9700-CC1 has responded with the download information. The diagnostic screen also indicates when the CM9700-MGR PC, referred to as the
Admin PC, goes online.
The CM9700-NW1 diagnostic screen changes only when a change in system status occurs. For example, if port 8 is online (as shown in
Fri Jul 24 15:23:13 2005
Port 8 off line
When port 8 goes online, the diagnostic screen then displays the online condition including the date and time of the occurrence:
Fri Jul 24 16:20:23 2005
Port 8 on line
The diagnostic screen also indicates a change in status of the CM9700-MGR PC. For example, the diagnostic screen displays the following when
the CM9700-MGR PC goes offline and then back online:
Fri Jul 23 16:21:32 2005
Fri Jul 23 16:30:24 2005
Admin PC off line
Admin PC on line
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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.
Table K. CM9700-NW1 PC Keyboard Command Functions
Function
Keyboard Command
Display operator/node information
Display/set time adjustment parameters*
Display system version level
Display tie line information
Display updated tie line information
Alt+O
Alt+L
Alt+N
Alt+T
Alt+X
Toggle CM9700-NW1 system diagnostics on/off.
When system diagnostics is off, the CM9700-NW1
diagnostic screen is visible but is not updated.
Alt+S
Stop operation of the CM9700-NW1 (operation of
CM9700-CC1 nodes continue)
Ctrl+Q
about setting and adjusting time in a multi-node system.
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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.
GENERAL TROUBLESHOOTING GUIDELINES
Begin troubleshooting a problem with the 9760 system by perform the following troubleshooting steps as appropriate:
1. Ensure that all power cords are attached.
2. Ensure that all power switches are in the ON position.
3. Ensure that all cables are installed in the proper location and are fully seated.
4. Ensure that all cards are installed in the proper location and are fully seated.
5. Ensure that all DIP switches and jumpers are properly set.
TROUBLESHOOTING THE CM9700-CC1
Problems with the CM9700-CC1 may occur due to the following:
•
•
CM9700-CC1 system errors, which are are displayed as error messages in the System box on the CM9700-CC1 diagnostic screen (refer to
•
•
•
CM9700-CC1 configuration file errors
DOS operating system errors, which are displayed on the VGA monitor as the CM9700-CC1 initializes
Peripheral devices connected to the CM9700-CC1
Table L. CM9700-CC1 Hardware Error Troubleshooting
Hardware Error
Possible Cause
Corrective Action
Green power LED does not light.
No AC power to the unit
Blown fuse
Check power cord connection.
Replace fuse.
VGA monitor display does not appear.
Video cable not seated properly
Power cord not connected
Defective VGA card
Check cable connection to VGA port.
Connect power cord.
Replace VGA card.
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Table M. CM9700-CC1 System Error Troubleshooting
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
Port x ERR Coms Parity
Failure of communications line after power
up and initialization
Check and correct hardware fault.
Mismatched parity settings
Correct the parity setting in the
CM9700-MGR to match the settings in the
device connected to the specified port.
Port x ERR Coms Max Retry
If the communications line is faulty (wired
incorrectly or not seated properly), the
diagnostic screen displays this error. If the
communications line fails after power-up
and initialization, then a Port x ERR Coms
Fatal error appears, followed by a Port x ERR
Max Retry message.
Check and correct hardware fault.
Temporary communications fault
Fault will automatically be corrected when
communications resume.
Noise on the data line
Check data cables.
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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. Troubleshooting Using CM9760-MXB Diagnostic LEDs
LED Color
Possible Cause
Corrective Action
CM9760-VCC Video Input Card LEDs
Defective fuse(s) on CM9760-VCC card
+10 VDC Power LED (CR2) not lit
-10 VDC Power LED (CR3) not lit
Red Comm Fail LED (CR1)
Remove and inspect fuses on card. Replace
fuse if defective.
Defective fuse(s) on CM9760-VCC card
Remove and inspect fuses on card. Replace
fuse if defective.
Card not seated properly
Reseat the card.
Replace the card.
Defective CM9760-VCC card
Red Comm Fail LEDs on all CM9760-VCC
cards. (Red Comm Fail LED also on
CM9760-VMC)
CM9760-VMC video output card must be
reset.
Press the Reset button on the CM9760-VMC
card. If all Comm Fail LEDs remain red, the
CM9760-VMC card is defective.
Defective CM9760-VMC card
Replace the card.
CM9760-VMC Video Output Card LEDs
Defective fuse(s) on CM9760-VMC card
+10 VDC power LED (DS5) not lit
-10 VDC power LED (DS4) not lit
Remove and inspect fuses on card. Replace
fuse if defective.
Defective fuse(s) on CM9760-VMC card
Remove and inspect fuses on card. Replace
fuse if defective.
Red Comm Fail LED (DS6) on CM9760-VMC
only
Cable between the CM9760-MXB and the
CM9700-CC1 is not connected properly or is connected to correct CM9700-CC1 port.
not installed in the proper location.
Check cable connections. Check that cable is
Incorrect wiring of cable
Check wiring of cable if not using supplied
data communication cable.
Port communication setup is incorrect, for
example, incorrect baud rate or device type
Check port configuration settings in
CM9700-MGR.
Power Supply Module LEDs
Power supply not seated properly
Blown fuse
+10V Power LED not lit
-10V Power LED not lit
Ensure that power supply is seated properly.
Replace fuse.
Power supply not seated properly
Blown fuse
Ensure that power supply is seated properly.
Replace fuse.
Flashing red Frame Fault LED
Failure of one or more video input/output
Refer to the CM9760-VCC Video Input Card
cards. Refer to the CM9760-VCC Video Input LEDs and CM9760-VMC Video Output Card
Card LEDs and CM9760-VMC Video Output
Card LEDs sections above for possible
causes.
LEDs sections above for corrective actions.
Red Supply Fault LED
Failure of associated power supply module
Replace power supply module.
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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. All components of the 9760 system connect to and communicate with
the CM9700-CC1.
The CM9700-CC1 runs under DOS 6.22. For a description of the DOS directory structure of the CM9700-CC1, refer to the Directory Structure
section.
Note the following:
•
To ensure uninterrupted operation, a backup CM9700-CC1 can be added to a 9760 system by means of the CM9760-HS hot switch.
For additional information, refer to the System 9760 CM9760-HS Hot Switch Installation/Operation manual.
•
The CM9700-CC1 can be networked by means of the CM9760-NW1 network interface unit (NIU). For additional information, refer to the
System 9760 Networking Guide.
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FRONT VIEW
MOUNTING HANDLES
DOOR
CM9700-CC1 FRONT VIEW WITH DOOR CLOSED
KNOB
HARD DISK
DRIVE LED
KEYBOARD
PORT
POWER
LED
RESET
BUTTON
(NOT USED)
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.
In addition to the AT-compatible keyboard port on the front of the CM9700-CC1, another AT-compatible keyboard port is located on the rear
of the unit. Both keyboard ports cannot be used at the same time.
•
•
The power LED lights green to indicate that AC power is being applied to the unit.
Because of the solid state flash memory of the CM9700-CC1, the hard disk drive LED is not used.
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REAR VIEW
COM 2
PORT
(RS-232)
COM 1
PORT
(RS-232)
SERCOM
PORTS
(RS-422)
VGA
PORT
PRINTER
PORT*
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
PRINTER
COM1
COM2
POWER
INPUT
AT-COMPATIBLE
KEYBOARD PORT
POWER
SWITCH
*RESERVED FOR FUTURE USE
Figure 39. CM9700-CC1 Rear View
•
•
Printer port: Female DB25 connector (reserved for future use)
Physical ports 1-2 and 5-36:
–
COM 1 (port 1) and COM 2 (port 2): Male DB9 connectors for RS-232 serial communication. COM 1 is configured at the factory for
connection to the CM9700-MGR PC.
–
Serial communication (SERCOM) ports 5-36: Female RJ-45 connectors for RS-422 communication to system devices such as
CM9760-MXBs and CM9760-KBDs.
The default configuration of the CM9700-CC1 contains 16 SERCOM ports (ports 5-20). The ports are provided by two CM9700-SER
serial communication cards installed on the CM9700-CC1 motherboard. Each card provides 8 SERCOM ports. Depending on system
requirements, up to two additional CM9700-SER cards can be ordered, providing up to 16 additional ports (ports 21-36). If four
CM9700-SER cards are installed, the total number of SERCOM ports is 32. For information about adding or replacing CM9700-SER
cards in an existing system, refer to Installing or Replacing a CM9700-SER Card in the CM9700-CC1 Component Installation or
Replacement section.
Note that a maximum of 120 SERCOM ports can be achieved with a configuration of 3 CM9700-SER cards (8 ports each) and 3
CM9700-SER-32 port expander assemblies (32 ports each). For information about CM9700-SER-32 port expander assemblies, refer to
the CM9700-SER-32 Port Expander Installation/Operation manual.
NOTE: Ports 3 and 4 are not present on the CM9700-CC1.
•
•
VGA port: Female DB15 connector that connects to a VGA monitor, which allows you to view system diagnostics. For additional information
AT-compatible keyboard port: 5-pin mini DIN connector that connects to the supplied PS/2-to-AT keyboard adapter for connection to the
supplied PS/2 keyboard.
NOTE: An AT-compatible keyboard port also exists on the front of the CM9700-CC1 behind the front door (refer to Figure 38). Both keyboard
ports cannot be used at the same time.
•
•
AC power input connector: Three-prong connector that connects to the supplied power cord. The acceptable power range is 120 VAC to 230
VAC. The power supply automatically adjusts to the proper voltage range.
Power switch: Rocker-type switch used to power the CM9700-CC1 on or off.
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PIN 1
PIN 14
5-PIN “MINI-DIN” KEYBOARD
CONNECTOR
PIN 1
PIN 3
PIN 5
25-PIN “D” TYPE
CONNECTOR
(PRINTER PORT)
(FEMALE)
(RESERVED FOR
FUTURE USE)
PIN 4
PIN 2
PIN 1 = KEYBOARD CLOCK
PIN 2 = KEYBOARD DATA
PIN 3 = NOT USED
PIN 4 = GND
PIN 5 = +5V
PIN 13
PIN 25
COM 1 (MALE)
COM 2 (MALE)
PINOUTS SAME
AS COM 1
8-PIN SERCOM PORT
(FEMALE)
PIN 5
PIN 9
PIN 6
PIN 1 = TX+
PIN 2 = TX-
PIN 1
PIN 8
PIN 7 = RX-
PIN 8 = RX+
PIN 1
WHEN A SERCOM PORT IS USED TO INTERFACE MULTIPLE RECEIVERS
OR DOMES (THAT IS THOSE WITH PTZ CONTROL), THEY SHOULD BE
WIRED AS DEPICTED BELOW.
VGA PORT (FEMALE)
PIN 10
PIN 15
PIN 5
= TAP OFF CONNECTIONS
PIN 1 TX+
PIN 2 TX
-
NOTE: THE DISTANCE,
“D”, BETWEEN THE
INDICATED TAP-OFF
CONNECTIONS AND
THEIR ASSOCIATED
RX/DR OF DOME
SERCOM PORT
D
RX/DR
OR
DOME 1
RX/DR
OR
DOME 2
RX/DR
OR
DOME 3
PIN 11
PIN 1
PIN 6
CONNECTIONS
SHOULD BE 3 FEET
(0.91 M) OR LESS
Figure 40. CM9700-CC1 Rear Connector Pinouts
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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).
11:16:15.93 Tue 07-19-2005 C:\>dir
Volume in drive C has no label
Volume Serial Number is 1B13-0FD8
Directory of C:\
COMMAND
WINA20
TVDISP
CONFIG
README
COM
386
EXE
SYS
TV
54,645 05-31-94
9,349 05-31-94
13,608 02-26-97
82 10-14-97 10:03a
1,873 07-23-99 4:55p
6:22a
6:22a
2:25p
AUTOEXEC BAT
9700
73 07-19-05 11:05a
07-19-05 10:54a
07-19-05 10:54a
07-19-05 10:54a
07-19-05 10:54a
850 07-19-05 11:00a
<DIR>
TESTPORT
9760
NETWORK
TVPARA
DOS
<DIR>
<DIR>
<DIR>
DAT
<DIR>
04-11-05
2:38p
12 file(s) 80,480 bytes
25,313,280 bytes free
11:16:17.96 Tue 07-19-2005 C:\>
Figure 41. CM9700-CC1 Root Directory
NOTE: The number of bytes shown at the bottom of the root directory list of your CM9700-CC1 may differ from the number of bytes shown in
•
•
•
9700 directory
TESTPORT directory
DOS directory
The following sections provide information about each of the above directories contained within the root directory.
NOTE: As shown in Figure 41, the root directory also contains a 9760 directory and a NETWORK directory. The 9760 directory and the
NETWORK directory are not used by the CM9700-CC1.
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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.
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
.
..
<DIR>
<DIR>
07-19-05 10:54a
07-19-05 10:54a
CM9700 EXE
GSERVER DRV
HELVB FON
STARTUP BAT
916,208 01-26-05 10:16a
65,478 03-11-96 1:47p
50,880 11-12-87 1:25p
19 03-15-04 2:09p
74 07-19-05 1:17p
1,912 07-19-05 1:17p
75 07-19-05 1:17p
75 07-19-05 1:17p
74 07-19-05 1:17P
75 07-19-05 1:17P
120 07-19-05 1:17p
1,464 07-19-05 1:17p
117 07-19-05 1:17p
2,630 07-19-05 1:17p
227 07-19-05 1:17p
NODE1
NODE1
NODE1
NODE1
NODE1
NODE1
NODE1
NODE1
NODE1
NODE1
NODE1
ALM
CAM
GPI
IDN
LCM
MAC
MSG
MON
PIN
SCP
SYM
17 file(s)
1,039,428 bytes
25,304,389 bytes free
11:24:34.26 Tue 07-19-2005 C:\9700>
Figure 42. CM9700-CC1 9700 Directory
•
CM9700.EXE: System executable file that runs under the MS-DOS 6.22 operating system. When the CM9700-CC1 boots, the CM9700.EXE
file executes the operational software and loads configuration files (discussed below) for system operation.
•
Configuration files, which consist of the following:
NODEx.ALM (alarm setup file)
NODEx.CAM (camera setup file)
NODEx.GPI (GPI setup file)
NODEx.MSG (message setup file)
NODEx.MON (monitor setup file)
NODEx.PIN (operator setup file)
NODEx.LCM (link camera setup file) NODEx.SCP (communication setup file)
NODEx.MAC (macro setup file) NODEx.SYM (system setup file)
where NODEx is the root name and x equals the node number. For a single-node system, the root name of the configuration files is NODE1
CM9700-NW1 port number to which each CM9700-CC1 is connected, for example, NODE5 and NODE6 in a two-node system.
Note the following:
•
•
The NODEx.IDN configuration file that appears in the C:\9700 directory is not used.
The number of bytes shown for the configuration files and the number of bytes shown at the bottom of the 9700 directory listing may
Note that the 9700 directory also contains the startup.bat file. The startup.bat file is a batch file (a file that contains a sequence of commands)
that automatically loads the CM9700.EXE system executable file and all configuration files. The default startup.bat file reads as follows:
CM9700 NODEx
where:
x is the node number, for example, 1 for a single-node system (NODE1).
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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).
14:29:02.30 Tue 07-19-2005 C:\TESTPORT>dir
Volume in drive C has no label
Volume Serial Number is 1B13-0FD8
Directory of C:\TESTPORT
.
..
<DIR>
<DIR>
02-16-99
02-16-99
8:11a
8:11a
TESTPORT CAM
TESTPORT GPI
TESTPORT MON
TESTPORT MSG
TESTPORT PIN
TESTPORT SCP
TESTPORT MAC
TESTPORT SYM
TESTPORT BAT
3,548 04-22-97
3,548 04-22-97
3,548 04-22-97
3,548 04-22-97
3,548 04-22-97
3,548 04-22-97
3,548 04-22-97
3,548 04-22-97
3,548 04-22-97
12:50p
12:50p
12:50p
12:50p
12:50p
12:50p
12:50p
12:50p
12:50p
11 file(s)
9,889 bytes
2,133,393,408 bytes free
14:29:03.18 Tue 07-19-2005 C:\TESTPORT>
Figure 43. CM9700-CC1 TESTPORT Directory
DOS DIRECTORY
The DOS directory contains the commands and programs associated with MS-DOS. From the root directory, you can access the DOS subdirectory
by entering cd dos and then pressing Enter. The C:\DOS prompt appears.
To view the contents of the DOS directory, enter dir and then press Enter. A list of files in the DOS directory scrolls quickly. To be able to view the
contents one screen at a time, enter dir/p and then press Enter. If you also want to display the contents in wide format, enter dir/w/p and then
press Enter.
Note that the HELP file is contained within the DOS directory. The HELP file provides information about MS-DOS commands. To view the HELP file
from the C:\DOS directory, enter help and then press Enter.
The MS-DOS command reference appears, which provides detailed information about the various MS-DOS commands.
NOTE: You can access the HELP file at any command prompt by entering help. You do not need to be in the DOS directory to access the
HELP file.
For additional information about DOS as it relates to the 9760 system, refer to the System Programming Using DOS section.
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CM9760-MXB Matrix Bay
This section provides detailed information about the CM9760-MXB. The following information is provided:
•
•
•
Description of the functions of the CM9760-MXB
Front and rear views of the CM9760-MXB
Description of the CM9760-VCC video input card and CM9760-VMC video output card, which are installed into the front of the
CM9760-MXB
•
•
•
Description of the CM9760-RPC, CM9760-RPL, CM9760-RPM, CM9760-DFC, and CM9760-DFL rear panel cards
Description of the power supplies that can be used in the matrix bay
Overview of sideframing and downframing configurations
NOTE: For CM9760-MXB installation information, refer to the System Setup and CM9760-MXB Component Installation or Replacement sec-
tions.
DESCRIPTION
The CM9760-MXB matrix bay communicates with the CM9700-CC1 via an RS-422, full-duplex, asynchronous communication interface and
performs all video switching functions as directed from the CM9700-CC1. The CM9760-MXB provides all video input and output connections for
the 9760 system. A single CM9760-MXB accepts up to 256 video inputs and up to 16 video outputs. Multiple bays can be used to expand the
system to a maximum of 2,048 video inputs and 128 video outputs.
NOTE: You can increase video output capacity to a maximum of 512 by using CM9760-MDA units. For information about the CM9760-MDA,
refer to the CM9760-MDA Master Distribution Amplifier Installation/Operation manual.
The matrix bay operates on either 120 VAC or 230 VAC input and can accept up to two power supplies: a main power supply and a backup power
supply. If the main power supply fails, the backup power supply automatically powers the unit, providing power redundancy to the system.
All connections are made on the rear of the unit. All inputs are terminated with 75 ohms (default). When applicable, inputs can be unterminated
by means of a jumper selection.
FUNCTIONAL SYSTEM OVERVIEW
The CM9760-MXB is a crosspoint switch that supports up to 256 video inputs in increments of 16 and up to 16 video outputs in increments of 4.
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ᕥ VIDEO OUTPUT BUS
VIDEO INPUT CARD
REAR PANEL VIDEO INPUT CARD
16x16 CROSSPOINT
ᕤ
ᕢ PATH TO VIDEO CARD AND TO
DOWNFRAME CONNECTOR
ᕡ VIDEO SIGNAL IN
ᕣINPUT BUFFER
ᕦ SIGNAL ON BACKPLANE ON
WAY TO VIDEO OUTPUT CARD
ᕧOUTPUT TITLING MODULE
ᕨ
VIDEO
SIGNAL
OUT
REAR PANEL
BNC CARD
VIDEO OUTPUT 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. The signal
then proceeds to the CM9760-VCC video input card via the input buffer and is then directed to the 16 x 16 crosspoint switch. Operation of the
crosspoint switch is controlled by the CM9760-VMC video output card.
The signal leaves the video input card and is sent to the video output card by way of the video bus. When received by the video output card, the
signal is processed by the CM9760-VMM video output module where the DC level of the signal is restored and the titling message is inserted.
The edited video signal leaves the matrix bay through the rear panel output card.
The video signal path is controlled by the microprocessor located on the video output card. The video output card has full control of all video
input cards. The number of inputs can vary from 16 to 256 in 16-input increments.
The matrix bay can be used as a standalone routing switcher or it can be connected to other matrix bays to create a larger system.
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FRONT VIEW
CM9760-VCC
VIDEO INPUT
CARDS
CM9760-VMC
VIDEO OUTPUT
CARD
(SLOTS 1-16)
(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)
•
•
•
Up to 16 CM9760-VCC video input cards in slots 1-16. For detailed information about CM9760-VCC cards, refer to the CM9760-VCC Video
Input Card section.
One CM9760-VMC video output card in slot 17. For detailed information about CM9760-VMC cards, refer to the CM9760-VMC Video
Output Card section.
Up to two power supplies. For additional information about the power supplies, refer to the Power Supplies section.
REAR VIEW
configuration.
Alarm
Black
Out
ALARM PORT
VIDEO BLACK
LEVEL OUT
RS-422
RS-422
RJ-45 DATA PORT
UPPER POWER
SUPPLY CONTROLS
POWER SWITCH
POWER SUPPLY FUSE
POWER INPUT
LOWER POWER
SUPPLY CONTROLS
CM9760-RPM
REAR PANEL
OUTPUT CARD
UP TO 16 CM9760-RPC
REAR PANEL INPUT CARDS
Figure 46. CM9760-MXB Rear View (Single-Bay Configuration)
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•
Up to 16 CM9760-RPC rear panel input cards, providing connection to up to 256 video inputs. For additional information about CM9760-RPC
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.
•
•
One CM9760-RPM rear panel output card in the leftmost slot, providing connection to up to 16 video outputs. For additional information
Alarm port: Four-pin audio connector that provides an alarm relay contact closure, which activates remote alarm equipment if the matrix
bay malfunctions. The contact closure closes if any of the following occurs:
–
–
–
–
Power supply failure
Frame fault including fuse failure on the CM9760-VCC video input card
CM9760-VMC video output card failure
Communication fault with a CM9760-VCC or CM9760-VMC card
The alarm port operates in conjunction with the Frame Fault and Supply Fault LEDs on the front of the power supply.
NORMALLY OPEN
Pin Description
COMMON
1
2
3
4
Relay One Common
Relay One Normally Open
Not Used
Not Used
ALARM PORT
Figure 47. CM9760-MXB Alarm Port
•
•
•
Video black level output connector: BNC connector that can be used as a reference sync output to allow for the genlocking of peripheral
devices. The signal level for the output is 300 mV. The output is terminated with 75 ohms.
RJ-45 data port: Female serial communication data port that connects to a female RJ-45 serial communication data port on the rear of the
CM9700-CC1 for RS-422 communication.
Power input panels providing upper and lower power supply controls:
–
–
–
Power switch
Power supply fuse assembly
AC power input
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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. The
CM9760-VCC card can switch any one of 16 video input signals to any video output or to multiple combinations of video outputs up to 16. Video
input sources (for example, cameras) to the CM9760-VCC card are connected to the associated rear panel BNC card (CM9760-RPC or CM9760-RPL).
F1
.7ASB
F2
.7ASB
CR1 RED
CR2 GREEN
CR3 GREEN
Figure 48. CM9760-VCC Video Input Card
•
CR1, CR2, and CR3 LEDs: Allow you to monitor the operating status of the card:
–
–
–
CR1: Lights red to indicate a communication failure with the CM9700-CC1.
CR2: Lights green to indicate that the +10 VDC power source is functioning properly.
CR3: Lights green to indicate that the –10 VDC power source is functioning properly.
•
Power Fuses: Two .7ASB fuses (F1 and F2)
For troubleshooting information relating to the LEDs and fuses on the CM9760-VCC card, refer to Troubleshooting the CM9760-MXB in the
Troubleshooting section.
CM9760-VCC Card Guidelines
The following guidelines apply to the CM9760-VCC card:
•
The CM9760-VCC card can be installed into any available slot ranging from slot 1 to slot 16 in the front of the matrix bay. Up to 16
CM9760-VCC cards can be installed in a single matrix bay. The matrix bay is shipped from the factory with the required number of cards
installed in the unit according to the system order. For information about installing additional CM9760-VCC cards or replacing an existing
card, refer to Installing or Replacing a CM9760-VCC Video Input Card in the CM9760-MXB Component Installation or Replacement section.
•
Each slot position into which a CM9760-VCC can be installed (1-16) corresponds to a specific range of physical inputs; for example, slot
position 1 corresponds to physical inputs 1-16, slot position 2 corresponds to physical inputs 17-32, and so on. Physical input numbers are
used when programming the CM9760-MXB using the CM9760-MGR; therefore, if you do not install CM9760-VCC cards in sequential order,
be sure to use the correct physical input number when programming the system. Refer to Installing a CM9760-VCC Card in the CM9760-
MXB Component Installation or Replacement section for a complete list of CM9760-VCC slot positions and their corresponding physical
input range.
•
The CM9760-VCC card can connect to various rear panel cards:
–
–
–
In a non-looping single-bay configuration, the CM9760-VCC card connects to a CM9760-RPC card.
In a single-bay configuration that requires looping, the CM9760-VCC card connects to a CM9760-RPL card.
In a sideframed matrix bay, the CM9760-VCC card connects to a CM9760-RPC card. (For additional information about sideframing, refer
–
In a downframed matrix bay, the CM9760-VCC card connects to a CM9760-DFC card or to a CM9760-DFL card. (For additional
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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-VMC8 contains 8 CM9760-VMM modules, providing support for 8 video outputs.
CM9760-VMC12 contains 12 CM9760-VMM modules, providing support for 12 video outputs.
NOTE: The number of video outputs supported by CM9760-VMC4, CM9760-VMC8, and CM9760-VMC12 cards can be expanded to a maximum
of 16 by installing additional CM9760-VMM video output modules. For CM9760-VMM installation instructions, refer to Installing a
S2
F7
F6
RED
GREEN
GREEN
DS6
DS5
DS4
DS3
VIDEO
OUTPUT
MODULES
AMBER DS2
DS1
RESET
SWITCH
JP2
X55
Figure 49. CM9760-VMC Video Output Card (CM9760-VMC16)
•
DS4, DS5, and DS6 LEDs: Allow you to monitor the operating status of the card:
–
–
–
DS4: Lights green to indicate that the +10 VDC power source is functioning properly.
DS5: Lights green to indicate that the –10 VDC power source is functioning properly.
DS6: Lights red to indicate a communication failure with the CM9700-CC1.
For troubleshooting information relating to the LEDs, refer to Troubleshooting the CM9760-MXB in the Troubleshooting section.
NOTE: The DS1, DS2, and DS3 LEDs light amber but have no assignment.
•
•
•
Reset Button: Pressing the button resets operation of the CM9760-VMC card. All information, such as camera and monitor idents, is
reloaded from the CM9700-CC1.
Power Fuses: Two 0.7ASB fuses (F6 and F7). For troubleshooting information relating to the power fuses, refer to Troubleshooting the
S2 DIP Switch: Determines the communication baud rate, the video standard, and whether video loss detection is enabled or disabled.
Refer to Installing a CM9760-VMC Card in the CM9760-MXB Component Installation or Replacement section for S2 DIP switch functions
and associated settings.
•
•
X55 Jumper: Eight-pin header that determines the video standard for video black generator operation. Refer to Installing a CM9760-VMC
Card in the CM9760-MXB Component Installation or Replacement section for video standards and associated jumper positions.
JP2 Jumper: Two-pin header that controls the program loading sequence. A jumper must always be installed for proper operation.
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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.
S2 DIP switch and X55 and JP2 jumpers are configured properly according to your system order. If you install a new CM9760-VMC card, you
must configure the DIP switch and jumpers as required for your system.
REAR PANEL CARDS
The matrix bay accommodates the following cards, which are installed into the rear of the matrix bay:
•
•
•
•
•
CM9760-RPC: BNC card for video input connections
CM9760-RPL: Double-wide BNC card for single-bay looping of video inputs
CM9760-RPM: BNC card for video output connections
CM9760-DFC: Downframe card with 32-pin connectors (non-looping)
CM9760-DFL: Downframe looping BNC card
CM9760-RPC REAR PANEL INPUT CARD
The CM9760-RPC card passes up to 16 external video signals to the CM9760-VCC video input card.
UNTERMINATED TERMINATED
16 VIDEO
INPUT BNCs
JP1-JP16
DOWNFRAME
CONNECTOR
Figure 50. CM9760-RPC Rear Panel Input Card
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•
•
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 looping is not required, the jumpers must be set in the terminated position (default position).
When looping is required, the jumpers must be set in the unterminated position.
–
In multiple-bay configurations, the jumpers must be set in the unterminated position.
The jumpers are set in the appropriate position when your system is configured at the factory. However, if you change your system—for
example, add or replace a card—you may need to change the termination.
•
Downframe Connector: Sixteen-pin connector that connects to a downframed bay by means of a downframe cable.
CM9760-RPC Card Guidelines
The following guidelines apply to the CM9760-RPC card:
•
The CM9760-RPC card connects to a CM9760-VCC video input card, which is installed into the front of the matrix bay. Up to 16 CM9760-
RPC cards can be inserted into 16 possible slot positions that are associated with the slot positions of the corresponding CM9760-VCC
cards.
•
•
The CM9760-RPC card must be installed before the associated CM9760-VCC video input card is installed into the front of the matrix bay.
When installing a new card, termination jumpers must be set in the proper position: terminated or unterminated.
CM9760-RPL REAR PANEL LOOPING CARD
The CM9760-RPL rear panel looping card (refer to Figure 51) allows the looping of video. The card contains 16 pairs of BNC connectors that loop
video from video input sources such as cameras to video output devices such as DVRs, VCRs, and matrix switchers. Because of the two rows of
BNC connectors, the CM9760-RPL card requires two slot positions in the matrix bay. The CM9760-RPL card connects to one CM9760-VCC video
input card.
When a maximum of 128 video inputs is required in a system that also requires looping, up to eight CM9760-RPL cards can be used in a
CM9760-MXB.
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TERMINATED
UNTERMINATED
IN
OUT
16 BNC PAIRS
JP1-JP16
Figure 51. CM9760-RPL Rear Panel Looping Card
•
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.
•
Termination Jumpers JP1-JP16: Determine whether video is to be terminated (jumper positions 1 and 2) or unterminated (jumper positions
2 and 3):
–
–
When looping functions are required, the termination jumpers must be set in the unterminated position.
When looping functions are not required, the jumpers must be set in the terminated position.
The jumpers are set in the appropriate position when your system is configured at the factory. However, if you change your system—for
example, add or replace a card—you may need to change the termination.
•
Downframe Connector: Sixteen-pin connector that connects to a downframed bay by means of a downframe cable.
CM9760-RPL Card Guidelines
The following guidelines apply to the CM9760-RPL card:
•
•
•
The CM9760-RPL card connects to a CM9760-VCC video input card, which is installed into the front of the matrix bay.
The CM9760-RPL card must be installed before the associated CM9760-VCC video input card is installed into the front of the matrix bay.
In a bay that is to be fully populated with CM9760-RPL cards, note the following:
–
–
The cards must be installed into odd slot positions only. The corresponding CM9760-VCC cards must also occupy odd slot positions.
The maximum number of video inputs in a matrix bay that is fully populated with CM9760-RPL cards is 128.
•
When installing a new card, termination jumpers must be set in the proper position: terminated or unterminated.
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CM9760-RPM REAR PANEL OUTPUT CARD
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-RPM Rear Panel Output Card
•
•
BNC Connectors (16): Provide the physical connection point for coaxial cable
Termination Jumpers JP1-JP16: Allow video to be terminated (jumper positions 1 and 2) or unterminated (jumper positions 2 and 3).
Note that the termination jumpers on the CM9760-RPM card must always be set in the unterminated position. You must terminate the
video signal at the output device, for example, a monitor or VCR. If you are looping to other devices, terminate the last device only.
•
Sideframe Connector: Sixteen-pin connector that connects to a coaxial ribbon cable in a sideframe configuration. A coaxial ribbon cable can
be used instead of coaxial cable connections to the BNC connectors on the CM9760-RPM card. For additional information, refer to the
Sideframing section.
CM9760-RPM Card Guidelines
The following guidelines apply to the CM9760-RPM card:
•
The CM9760-RPM card must always be installed into the leftmost slot on the rear of the matrix bay. The leftmost slot provides the
connection point to the CM9760-VMC video output card, which is always inserted into slot 17 in the front of the matrix bay.
•
•
The CM9760-RPM must be installed before the CM9760-VMC video output card is installed into the front of the matrix bay.
Termination jumpers must always be set in the unterminated position.
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CM9760-DFC REAR PANEL DOWNFRAME CARD
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.
The CM9760-DFC card connects to a CM9760-VCC video input card, which is installed into the front of the matrix bay.
A downframe cable is supplied with the CM9760-DFC card. For additional information about downframing, refer to the Downframing section.
INPUT
FROM BAY ABOVE
JP
16
UNTERMINATED
3
2
1
JP
1
OUTPUT
TO BAY BELOW
TERMINATED
Figure 53. CM9760-DFC Downframe Card
•
Termination Jumpers JP1-JP16: Allow video to be terminated (jumper positions 1 and 2) or unterminated (jumper positions 2 and 3):
–
–
When CM9760-DFC cards are used in intermediate bays, termination jumpers must be set in the unterminated position.
When CM9760-DFC cards are used in the last bay, termination jumpers must be set in the terminated position.
Termination jumpers are set in the appropriate position when your system is configured at the factory. However, if you change your
system—for example, add or replace a card—you may need to change the termination.
•
•
Input Connector: Thirty-two pin male connector that connects to a downframe cable, which then connects to the rear panel card in the bay
above.
Output Connector: Thirty-two pin male connector that connects to a downframe cable, which then connects to the rear panel card in the bay
below.
CM9760-DFC Card Guidelines
The following guidelines apply to the CM9760-DFC card:
•
Within each bay in a downframe configuration, up to 16 CM9760-DFC cards can be inserted into 16 possible slot positions that are
associated with the slot positions of the corresponding CM9760-VCC cards.
•
•
The CM9760-DFC must be installed before the associated CM9760-VCC video input card is installed into the front of the matrix bay.
When installing a new card, termination jumpers must be set in the proper position: terminated or unterminated.
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CM9760-DFL REAR PANEL DOWNFRAME LOOPING CARD
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. Note, however, that the card can be used in the CM9760-MXB(-X) to increase the number of available
video output devices regardless of whether looping is required. When used in the 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.
The CM9760-DFL card is the only card that is used in the CM9760-MXBL, which is an unpowered downframed matrix bay that contains 16 DFL
card slots for supporting up to 256 video loop-out connections.
A downframe cable is supplied with the CM9760-DFL card. For detailed information about downframing using the CM9760-DFL card, refer to the
UNTERMINATED TERMINATED
16 VIDEO
INPUT BNCs
JP1-JP16
DOWNFRAME
CONNECTOR
Figure 54. CM9760-DFL Downframe Looping Card
•
•
BNC Connectors (16): Provide the physical connection point for coaxial cable
Termination Jumpers JP1-JP16: Allow video to be terminated (jumper positions 1 and 2) or unterminated (jumper positions 2 and 3):
–
When looping to another device is required, termination jumpers must be set in the unterminated position. Termination must occur at
the final device.
–
When looping is not required, termination jumpers must be set in the terminated position.
The jumpers are set in the appropriate position when your system is configured at the factory. However, if you change your system—for
example, add or replace a card—you may need to change the termination.
•
Downframe Connector: Sixteen-pin connector that connects to downframe cable
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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.
When installing a new card, termination jumpers must be set in the proper position: terminated or unterminated.
POWER SUPPLIES
The following power supplies are available for the matrix bay:
•
•
For the CM9760-MXB: Contains up to two CM9760-MPS power supplies, 120 VAC, 60 Hz
For the CM9760-MXB-X: Contains up to two CM9760-MPS-X power supplies, 230 VAC, 50 Hz
The default configuration of the matrix bay consists of one power supply in the upper power supply slot (refer to Figure 55). A blank plate covers
the unoccupied lower power supply slot.
The matrix bay is shipped from the factory with one or two power supplies installed as ordered. If a unit is equipped with two power supplies,
one power supply acts as a backup power supply and provides power redundancy to the unit if the other power supply fails.
+10V
-10V
FRAME SUPPLY
FAULT FAULT
POWER
SUPPLY
BLANK PLATE
FOR UNOCCUPIED
POWER SUPPLY SLOT
POWER SUPPLY
Figure 55. Matrix Bay Power Supply
•
•
•
•
+10V: Lights green to indicate that the +10 VDC power source is functioning properly.
-10V: Lights green to indicate that the –10 VDC power source is functioning properly.
Frame Fault: Flashes red to indicate that the CM9760-VMC video output card or one or more CM9760-VCC video input cards has failed.
Supply Fault: Lights red to indicate that the power supply has failed.
In addition, note the following about the power supply:
•
•
The power supply provides an audible alarm that operates in conjunction with the Fault LEDs located on the front of the power supply.
For information about enabling and disabling the alarm, refer to Enabling/Disabling the Power Supply Alarm in the CM9760-MXB
The rear of the matrix bay provides a power switch, power input receptacle, and power supply input fuses for each of two power supplies.
For information about replacing a fuse, refer to Replacing a Power Supply Fuse in the CM9760-MXB Component Installation or
Replacement section.
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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
When expanding video outputs beyond 16 as provided by a single matrix bay, the expansion of video outputs occurs in a vertical manner
using a downframing configuration. As a result, additional matrix bays must be installed in the same rack. For detailed information, refer to
When expanding video inputs beyond 256 and video outputs beyond 16, a combination of sideframing and downframing is used. The
maximum capacity of a single-node system is 2,048 video inputs and 128 video outputs. For detailed information, refer to the Using a
NOTE: When using CM9760-MDA units, you can increase the video output capacity to a maximum of 512.
•
When more than 128 video inputs and a maximum of 16 video outputs are required in a system that also requires looping, downframing to
the CM9760-MXBL is required to loop out the video. For detailed information, refer to the Downframing to the CM9760-MXBL section.
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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.
As viewed from the rear of the matrix bays, Figure 56 illustrates one bay sideframed to an output bay for a total of up to 496 video inputs and
16 video outputs.
16
1
481
257
241
1
OUTPUT BAY
BAY 1
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
1-256
257-496
CM9760-MXB
CM9760-MXB
BNC TO BNC
OR
RIBBON
CABLE
RPM
RPC
RPC
RPM
RPC
Figure 56. CM9760-MXB Sideframing Example: 496 Video Inputs and 16 Video Outputs (496 x 16)
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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
•
Video outputs of a bay connect to the video inputs in the output bay by means of BNC coaxial cables. Each coaxial cable connection from
one bay sideframed to the output bay is referred to as a tie line. Alternatively, as shown in Figure 56, a coaxial ribbon cable can be used in
a two-bay sideframed configuration to connect the 16-pin connector on the bottom of the CM9760-RPM card to the 16-pin connector on the
bottom of the CM9760-RPC card.
•
•
Any video input connector not used in the output bay to receive output from sideframed bays can be used for additional video inputs.
If you add one or more matrix bays to an existing installation by sideframing, you can avoid the need to reprogram the existing bay(s) by
adhering to the following guidelines:
–
–
If you add one matrix bay, install and configure the new bay as the output bay.
If you add more than one matrix bay, install and configure the last bay as the output bay.
For example, to add a second matrix bay to an existing installation that contains only one bay, do the following. Decouple the monitors
connected to the video output card in the existing bay. If possible, leave the cables connected to the output card. Connect the cables to the
first 16 video inputs of the new bay. Connect the monitors to the video outputs of the new bay. The new bay then becomes the output bay.
If you wish to add a third bay to an existing two-bay installation, decouple the monitors of the existing output bay (second bay). If possible,
leave the cables connected to the output card. Connect the cables to the second 16 video inputs of the new bay. The new bay then becomes
the output bay (third bay). Then, detach the monitor output cables of the original bay from the first 16 inputs of the second bay and connect
them to the first 16 inputs of the new bay.
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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. A maximum of eight matrix bays can be connected in a downframe configura-
tion, providing a maximum of 128 video outputs.
32 video outputs. The downframe configuration illustrates downframing to one bay.
16
1
241
1
CM9760-MXB
BAY 1
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
RPC
RPC
RPM
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
OR
CM9760-MXB
BAY 2
Alarm
Black
Out
RS-422
RS-422
DFC
DFL
RPM
Figure 57. CM9760-MXB Downframing Example: 256 Video Inputs and 32 Video Outputs (256 x 32)
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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
•
Downframe cables are coaxial ribbon cables used to connect bays in a downframe configuration. A downframe cable is supplied with the
CM9760-DFC and CM9760-DFL cards.
If you wish to add one or more matrix bays to an existing installation in a downframe configuration, note the following:
•
If you downframe to only one bay, adhere to the following guidelines:
–
–
Termination jumpers on the CM9760-RPC cards in the first bay must be set in the unterminated position.
The downframed bay (second bay) can be populated with either CM9760-DFC or CM9760-DFL cards. If CM9760-DFC cards are used,
termination jumpers must be set in the terminated position because the cards are in the last bay. If CM9760-DFL cards are used,
termination jumpers must be set in the unterminated position only when looping to another device is required (termination must occur
at the final device). When looping is not required, termination jumpers on the CM9760-DFL cards must be set in the terminated position.
•
If you downframe to more than one bay, adhere to the following guidelines:
–
–
Termination jumpers on the CM9760-RPC cards in the first bay must be set in the unterminated position.
Each bay between the first and the last bay must be populated with CM9760-DFC cards. Termination jumpers on the CM9760-DFC
cards must be set in the unterminated position.
–
The last bay can be populated with either CM9760-DFC or CM9760-DFL rear panel cards. If CM9760-DFC cards are used, termination
jumpers must be set in the terminated position because the cards are in the last bay. If CM9760-DFL cards are used, termination
jumpers must be set in the unterminated position only when looping to another device is required (termination must occur at the final
device). When looping is not required, termination jumpers on the CM9760-DFL cards must be set in the terminated position.
For detailed information about the CM9760-RPC, CM9760-DFC, and CM9760-DFL cards, refer to the CM9760-RPC Rear Panel Input Card,
CM9760-DFC Rear Panel Downframe Card, and CM9760-DFL Rear Panel Downframe Looping Card sections, respectively.
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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.
provide 496 video inputs and 32 video outputs. The configuration consists of a total of four matrix bays.
16
1
481
257
241
1
BAY 3
BAY 1
Alarm
Black
Out
Alarm
Black
Out
OUTPUT BAY
RS-422
RS-422
RS-422
RS-422
CAMS
257-496
CAMS
1-256
CM9760-MXB
CM9760-MXB
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
32
17
BAY 4
OUTPUT BAY
BAY 2
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
Figure 58. CM9760-MXB Sideframing and Downframing Example: 496 Video Inputs and 32 Video Outputs (496 x 32)
In a new system installation, multiple matrix bays are labeled to identify the location of sideframed and downframed bays in the installation, for
example, labels 2A, 12A, 22A, and so on for sideframed bays and labels 2A, 2B, 2C, and so on for downframed bays. Figure 58 illustrates a four-
bay configuration using a combination of sideframing and downframing:
•
•
Bay 12A is sideframed to bay 2A, increasing the number of available inputs from 256 to 496. Bay 12B is sideframed to bay 2B.
Bay 2A is downframed to bay 2B. Bay 12A is downframed to bay 12B, increasing the number of available outputs from 16 to 32.
For additional examples of configurations using a combination of sideframing and downframing, refer to Appendix B.
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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.
16
1
241
1
Alarm
Black
Out
RS-422
RS-422
RPC
CAMS
1-256
CM9760-MXB
SUPPLIED
DOWN-FRAMING
CABLES 16X RIBBON
CAM 1 LOOP-OUT
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
OUT
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
DFL
CAM 16 LOOP-OUT
CM9760-MXBL
Figure 59. Downframing to CM9760-MXBL Example: 256 Video Inputs and 16 Video Outputs (256 x 16)
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Specifications
CM9700-CC1 SPECIFICATIONS
ELECTRICAL
Input Voltage
Power Consumption
Processor
120 VAC, 60 Hz or 230 VAC, 50 Hz, autoranging
57 watts
Pentium® class CPU
Clock Speed
733 MHz
Memory
64 MB RAM
Disk Drive
3.5-inch, 1.44 MB
32 MB solid-state flash memory
One VGA
Flash Disk Storage
Diagnostic Monitor Output
I/O Ports
Sixteen RS-422 ports (expandable to 32); total system capacity is 120 ports
Two RS-232 ports (COM 1 and COM 2)
One parallel printer port (reserved for future use)
One VGA output port
Two PC AT-compatible keyboard ports (one front, one rear)
GENERAL
Operating Temperature
Dimensions
32° to 120°F (0° to 49°C)
7.0 (H) x 19.0 (W) x 19.5 (D) inches (17.78 x 48.26 x 49.53 cm)
Fits 19-inch EIA-standard rack (4 RUs)
29.7 lb (13.5 kg)
Mounting
Unit Weight
CM9760-MXB SPECIFICATIONS
ELECTRICAL
Input Voltage
120 VAC, 60 Hz or 230 VAC, 50 Hz
Power Consumption
Communication
90 watts maximum (fully populated)
Full duplex RS-422 using an RJ-45 connector
VIDEO
Inputs
Sixteen input card slots for supporting 256 inputs per bay
One output card slot for supporting 16 outputs per bay
0.5 to 2 Vp-p, RS-170 composite video
Outputs
Video Input Level
Impedance
Crosstalk
75 ohms terminating (looping versions available)
-60 dB at 3.58 MHz
GENERAL
Operating Temperature
Dimensions
14° to 122°F (-10° to 50°C)
10.5 (H) x 19.0 (W) x 20.0 (D) inches (26.67 x 48.26 x 50.80 cm)
Fits 19-inch EIA-standard rack (6 RUs)
Mounting
Unit Weight
21.9 lb (9.93 kg)
60.0 lb (27.22 kg), fully populated
(Design and product specifications subject to change without notice.)
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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. Up to 96 ACDs can be
connected to the CM9700-CC1 and be configured as IDT ports. IDT ports are configured using the CM9700-MGR.
NOTE: IDT ports eliminate the need for CM9760-DT/CM9760-DT4 devices, which are referred to as external DTs.
The ASCII protocol uses the ASCII character set to transmit and receive commands between an ACD and the CM9700-CC1. The commands are
used to control pan and tilt mechanisms (fixed and variable speed), camera functions, auxiliary relays, alarms, multiplexers, VCRs, and system
tasks such as macros.
An IDT port communicates in a standard asynchronous, byte-oriented protocol that includes 1 start bit; 8 data bits; odd, even, or no parity; and 1
stop bit.
This appendix provides information about the following:
•
•
ACD to CM9700-CC1 connections
ASCII protocol commands supported by the CM9700-CC1
ACD TO CM9700-CC1 CONNECTIONS
You can connect an ACD to the CM9700-CC1 in either of the following ways:
•
ACD DB9 connection to CM9700-CC1 DB9 (COM 1 or COM 2) via RS-232 communication standard. Refer to the Connecting an ACD DB9
Port to a CM9700-CC1 DB9 Port section for wiring information.
•
ACD DB9 (RS-232) connection to CM9700-CC1 RJ-45 (RS-422). In this case, the Pelco PV140 RS-232/RS-422 converter is used to provide a
bidirectional electrical interface between the RS-232 port of the ACD and the RS-422 port of the CM9700-CC1. Refer to the Connecting an
CONNECTING AN ACD DB9 PORT TO A CM9700-CC1 DB9 PORT
CM9700-CC1
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
ACD MALE
DB9 SERIAL
PORT
8
7
6
5
PRINTER
COM1
COM2
RS-232 NULL MODEM CABLE
NULL MODEM CABLE WIRING
ACD
DB9 PORT
CM9760-CC1
DB9 PORT
PIN 2 = RX
PIN 3 = TX
PIN 5 = GND
PIN 2 = RX
PIN3 = TX
PIN 5 = GND
Figure 60. ACD DB9 to CM9700-CC1 DB9 Connection
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CONNECTING AN ACD DB9 PORT TO A CM9700-CC1 RJ-45 PORT
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. Connect the black and white striped wire from the power supply to the +12 VDC terminal on the converter.
b. Connect the solid black wire from the power supply to the GND terminal on the converter.
3. Connect RD(B) on the converter to terminal 8 (RX+) on the wall block.
4. Connect RD(A) on the converter to terminal 7 (RX-) on the wall block.
5. Connect TD(B) on the converter to terminal 1 (TX+) on the wall block.
6. Connect TD(A) on the converter to terminal 2 (TX-) on the wall block.
7. Connect the wall block to an RJ-45 port of the CM9700-CC1 using an RJ-45 reversed cable.
+12 VDC
+12 VDC POWER SUPPLY
(IF NECESSARY)
GND
4
3
2
5
6
7
ACD MALE
DB9 SERIAL
PORT (RS-232)
1
8
PV140
WALL
BLOCK
RS-422
REVERSED
CABLE
REVERSED CABLE CONNECTIONS
CM9700-CC1
WALL BLOCK
RJ-45
CONNECTOR
CM9700-CC1
RJ-45
CONNECTOR
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
PIN 1 = TX+
PIN 2 = TX-
PIN 1 = TX+
PIN 2 = TX-
PRINTER
COM1
COM2
PIN 7 = RX-
PIN 8 = RX+
PIN 7 = RX-
PIN 8 = RX+
Figure 61. ACD DB9 to CM9700-CC1 RJ-45 Connection
NOTE: The numbering of the screw terminals on the wall block shown in Figure 61 applies to the Pelco RJ-45 wall block. A wall block purchased
from a supplier other than Pelco may have a different numbering scheme.
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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. Multiplexer
and VCR commands are terminated with the lowercase letter m.
The ASCII protocol also consists of an acknowledgement string that the CM9700-CC1 returns to the ACD. The acknowledgement may be a posi-
tive acknowledgement or a negative acknowledgement:
•
•
A positive acknowledgement consists of the ASCII characters AK terminated with the lowercase letter a as follows: AKa
A negative acknowledgement may be either of the following:
–
If a particular command sent by the ACD cannot be executed by the CM9700-CC1 and is rejected, the negative acknowledgement
consists of the ASCII characters NA followed by the command being rejected and then terminated with the lowercase letter a.
–
If a particular command sent by the ACD is not recognized by the CM9700-CC1, the negative acknowledgement consists of the ASCII
characters NA immediately terminated with the lowercase letter a as follows: NAa
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Table O. ASCII Command Summary
Action
Command*
Action
Command*
Pan and Tilt Commands
Pan Left
Stop Pan Left
[1-64]La
~La
Tilt Up
Stop Tilt Up
[1-63]Ua
~Ua
Pan Right
Stop Pan Right
[1-64]Ra
~Ra
Tilt Down
Stop Tilt Down
[1-63]Da
~Da
Stop All PTZ Motion
sa
Camera Control Commands
Focus Near
Na
Zoom Telephoto
Ta
Stop Focus Near
~Na
Stop Zoom Telephoto
~Ta
Focus Far
Fa
Zoom Wide
Wa
Stop Focus Far
~Fa
Stop Zoom Wide
~Wa
Iris Open
Oa
Stop Iris Open
~Oa
Iris Close
Ca
Stop Iris Close
~Ca
Advanced Commands
Start Record Pattern
Stop Record Pattern
[1-99]/a
[1-99]/a
Set Preset without Label
[1-99]^a
Start Pattern
Stop Pattern
[1-99]pa
[1-99]na
Set Preset with Label
Go to Preset Position
la[string]a[1-99]^a
[1-99]\a
Start Macro
Stop Macro
[1-9999]Sa
[1-9999]Ha
Start a Sequence
End a Sequence
[1-9999]qa
[1-9999]ea
Camera Auxiliary ON
Camera Auxiliary OFF
[1-8]Aa
[1-8]Ba
Begin a Tour
End a Tour
[1-9999]ta
[1-9999]ra
GPI Auxiliary ON
GPI Auxiliary OFF
[9-20008]Aa
[9-20008]Ba
or [9-20008]~Aa
Trigger Alarm
Clear/Reset Alarm
[1-9999]Ea
[1-9999]Ia
Query Device
Qa
Next Alarm
ia
Video Loss Detect
Set Date and Time
[cam #]Va
Previous Alarm
Report Revision
da
va
ZaMM/DD/YY/HH:MM:SSa
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Table O. ASCII Command Summary (Continued)
Action
Command*
Action
Command*
Matrix Control Commands
Select Monitor
Select Camera
[1-9999]Ma
Lock Camera to Monitor
Unlock Camera from Monitor
Ga
~Ga
[1-999999]#a
Override Camera-to-Monitor
Lock
oa
Next Camera
+a
–a
Previous Camera
Multiplexer Commands
Digital Zoom
Picture-in-Picture
Quad
ym
Scene Movement Using
Joystick or Cursor Keys:
Left, Stop Left
Right, Stop Right
Up, Stop Up
im
dLm, ~dLm
dRm, ~dRm
dUm, ~dUm
dDm, ~dDm
um
Down, Stop Down
Nano
om
Hex
xm
Select Multiplexer Input
[1-16]#m
VCR Commands
Eject tape
<m
rm
Rewind tape
Stop tape
Play tape
<<m
sm
Record tape
Pause tape
em
>>m
>m
Fast Forward tape
*Commands that include numeric ranges are enclosed in brackets. The brackets are not part of the commands; therefore, omit the brackets
when entering the commands.
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Table P. ASCII Command Descriptions
Action
Command*
Command Description
Pan and Tilt Commands
Moves the currently selected pan and tilt device to the left at
Pan Left
[1-64]La
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.
• The speed has no effect on fixed-speed devices; therefore,
omit the speed when controlling a fixed-speed device.
Stop Pan Left
Pan Right
~La
Stops left panning of the currently selected pan and tilt device.
[1-64]Ra
Moves the currently selected pan and tilt device to the right 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.
• The speed has no effect on fixed-speed devices; therefore,
the speed should be omitted when controlling a fixed-speed
device.
Stop Pan Right
Tilt Up
~Ra
Stops right panning of the currently selected pan and tilt
device.
[1-63]Ua
Moves the currently selected pan and tilt device up at the
speed indicated. The speed ranges from 1-63: 1 is the slowest
speed and 63 is the fastest speed. Note the following:
• If the speed is omitted, some devices move at their default
speed and other devices move at their slowest speed.
• The speed has no effect on fixed-speed devices; therefore,
the speed should be omitted when controlling a fixed-speed
device.
Stop Tilt Up
Tilt Down
~Ua
Stops the upward tilt of the currently selected pan and tilt
device.
[1-63]Da
Moves the currently selected pan and tilt device down at the
speed indicated. The speed ranges from 1-63: 1 is the slowest
speed and 63 is the fastest speed. Note the following:
• If the speed is omitted, some devices move at their default
speed and other devices move at their slowest speed.
• The speed has no effect on fixed-speed devices; therefore,
the speed should be omitted when controlling a fixed-speed
device.
Stop Tilt Down
~Da
sa
Stops the downward tilt of the currently selected pan and tilt
device.
Stop All PTZ Motion
Stops all image motion, that is, stops pan, tilt, zoom, focus, and
iris operations.
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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
Focus Far
~Na
Fa
Stops the focusing of the currently selected camera.
Causes the currently selected camera to adjust the focus range
farther from the camera.
Stop Focus Far
Iris Open
~Fa
Oa
Stops the focusing of the currently selected camera.
Opens the iris of the currently selected camera and brightens
the image.
Stop Iris Open
Iris Close
~Oa
Ca
Stops opening the iris of the currently selected camera.
Closes the iris of the currently selected camera and darkens the
image.
Stop Iris Close
~Ca
Ta
Stops closing the iris of the currently selected camera.
Zoom Telephoto
Narrows the field of view of the currently selected camera and
makes objects appear larger (zooms in).
Stop Zoom Telephoto
Zoom Wide
~Ta
Wa
Stops the currently selected camera from zooming in.
Widens the field of view of the currently selected camera and
makes objects appear smaller (zooms out).
Stop Zoom Wide
~Wa
Stops the currently selected camera from zooming out.
Advanced Commands
Start Record Pattern
[1-99]/a
On receivers that do patterns, the Start Record Pattern
command allows recording of a user-defined pattern. A value
ranging from 1 to 99 equals the pattern number. (Consult the
receiver manual for specific information regarding
implementation.)
Stop Record Pattern
[1-99]/a
Stops the recording of a pattern.
NOTE: The Start Record Pattern command functions as a
toggle. Issuing the [1-99]/a command starts the recording of a
pattern. Issuing the command a second time stops recording
the pattern.
NOTE: In some instances, entering the pattern number as part
of the command is optional. For example, Spectra II™ and the
ES3000 Series Esprit™ units are capable of recording one full
pattern or two half-patterns. Issuing the /a command starts
full-pattern recording. Issuing the /a command again stops full-
pattern recording. Half-pattern programming follows the same
sequence, except that the pattern number must be included in
the command to start and stop pattern recording.
Start Pattern
Stop Pattern
[1-99]pa
[1-99]na
Starts the pattern. A value ranging from 1 to 99 equals the
pattern number. (Consult the receiver manual for specific infor-
mation regarding implementation.)
Stops the pattern.
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Table P. ASCII Command Descriptions (Continued)
Action
Command*
Command Description
Advanced Commands (Continued)
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
[1-9999]qa
Stops the selected macro.
Start a Sequence
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.
End a Sequence
Begin a Tour
[1-9999]ea
[1-9999]ta
Performs the same operation as the Stop Macro command, that
is, stops the selected macro.
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.
End a Tour
[1-9999]ra
[1-9999]Ea
[1-9999]Ia
Performs the same operation as the Stop Macro command, that
is, stops the selected macro.
Trigger Alarm
Acknowledge Alarm
Generates an alarm. A value ranging from 1 to 9999 equals the
physical alarm number.
Acknowledges an alarm. A value ranging from 1 to 9999 equals
the logical alarm number.
NOTE: The effects of the Trigger Alarm and Acknowledge
Alarm commands are system dependent.
Next Alarm
ia
Requests the next alarm in the active alarm list. If there are no
active alarms, the data translator returns the ia command to the
ACD as a response. If there is at least one active alarm, the
data translator sends the following response to the ACD:
XXXXia
XXXX is a one-to-four-digit logical alarm number.
Previous Alarm
da
Requests the previous alarm in the active alarm list. If there are
no active alarms, the data translator returns the da command to
the ACD as a response. If there is at least one active alarm, the
data translator sends the following response to the ACD:
XXXXda
XXXX is a one-to-four-digit logical alarm number.
Set Preset without Label
Set Preset with Label
[1-99]^a
Sets a preset camera position without an embedded label.
A value ranging from 1 to 99 equals the preset camera position.
la[string]a[1-99]^a
Sets a preset camera position with an embedded label, where:
• string is an alphanumeric label of up to 20 ASCII characters
that must be uppercase.
• A value ranging from 1 to 99 equals the preset camera
position.
Example: To set preset 1 with the label FRONT DOOR, the
command is as follows:
laFRONT DOORa1^a
Go to Preset Position
Camera Auxiliary ON
[1-99]\a
[1-8]Aa
Recalls a stored preset position.
Turns on the designated auxiliary (relay output) at the camera.
A value ranging from 1 to 8 equals the camera auxiliary number.
Camera Auxiliary OFF
[1-8]Ba
Turns off the camera auxiliary.
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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
Query Device
[9-20008]Ba or
[9-20008]~Aa
Turns off the GPI auxiliary.
Qa
Polls a device to give it an opportunity to transmit pending
information to the system master or to take control of the bus
for a limited time.
Video Loss Detect
Set Date and Time
[cam #]Va
Reports a video loss condition from the specified camera in
response to a Query command from the system master.
ZaMM/DD/YY/HH:MM:SSa
Sets the date and time. Note the following:
• Because the time and date string can be confused with other
commands, the command string Za comes first. Za puts the
receiving device into a mode that can accept the specialized
string.
• MM equals two-digit month.
• DD equals two-digit day.
• YY equals two-digit year.
• HH equals two-digit hour, ranging from 00 to 23 (military
time).
• MM equals two-digit minute, ranging from 00 to 59.
• SS equals two-digit second, ranging from 00 to 59.
Report Revision
va
Requests the version number of the device.
Matrix Control Commands
Select Monitor
Select Camera
[1-9999]Ma
Calls a monitor to use for camera operation. A value ranging
from 1 to 9999 equals the logical monitor number.
[1-999999]#a
Selects a camera to be displayed on the current monitor.
A value ranging from 1 to 999999 equals the logical camera
number.
Next Camera
+a
–a
Ga
Advances to the next numbered camera in the system.
Goes back to the previous numbered camera in the system.
Previous Camera
Lock Camera to Monitor
Locks the currently selected camera to the currently selected
monitor. Users are not allowed to control the locked camera or
to switch the locked camera from the locked monitor.
Unlock Camera from Monitor
~Ga
oa
Unlocks the currently selected camera from the currently
selected monitor. To unlock a camera, the command must be
issued from the data translator that locked the camera.
Override Camera-to-Monitor Lock
Overrides a camera-to-monitor lock that was issued by another
user if the data translator is set as an equal or higher priority
user than the user who locked the camera.
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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.
Picture-in-Picture
Quad
im
Displays picture-in-picture mode for the multiplexer input.
You can cycle through all 16 multiplexer inputs by issuing the
Select Multiplexer Input command for each input.
um
om
Displays a group of 4 of the available 16 multiplexer inputs.
Reissuing the command displays the next 4 multiplexer inputs,
and so on.
Nano
Displays a group of 9 of the available 16 multiplexer inputs:
multiplexer inputs 1-9. Reissuing the command displays
multiplexer inputs 8-16.
Hex
xm
Displays all 16 multiplexer inputs of the 16-channel multiplexer.
Select Multiplexer Input
[1-16]#m
Selects one multiplexer input to be displayed. A value ranging
from 1 to 16 equals the number of the multiplexer input.
Scene Movement Using
Joystick or Cursor Keys:
Left, Stop Left
Right, Stop Right
Up, Stop Up
Directs scene movement when monitor is operating in the
Digital Zoom mode.
dLm, ~dLm
dRm, ~dRm
dUm, ~dUm
dDm, ~dDm
Down, Stop Down
VCR Commands
Eject Tape
<m
rm
Ejects the tape currently installed.
Starts recording on the tape currently installed.
Pauses the tape currently playing.
Fast forwards the current tape.
Rewinds the current tape.
Record Tape
Pause Tape
Fast Forward Tape
Rewind Tape
Stop Tape
em
>>m
<<m
sm
Stops the tape currently playing.
Plays the tape currently installed.
Play Tape
>m
*Commands that include numeric ranges are enclosed in brackets. The brackets are not part of the commands; therefore, omit the brackets
when entering the commands.
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Table Q. ASCII Command Examples
Action
Command
1Ma3#a
5Ma2#a3\a
47Ra33Da
~Da
Switch camera 3 to monitor 1.
Go to camera 2, preset 3 on monitor 5.
Pan right at speed 47, tilt down at speed 33.
Stop tilt down only.
Run macro 10 on monitor 1.
Stop macro 10 on monitor 1.
Trigger alarm 945.
1Ma10Sa
1Ma10Ha
945Ea
Stop alarm 945.
945Ia
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Appendix B. CM9760-MXB Sideframe and Downframe
Configuration Examples
This appendix provides examples of the following types of CM9760-MXB configurations:
•
Sideframe-only configurations:
–
–
NOTE: For an illustration of a 496 x 16 sideframe-only configuration, refer to Sideframing in the CM9760-MXB Matrix Bay section.
Downframe-only configurations:
•
–
–
–
–
NOTE: For an illustration of a 256 x 32 downframe-only configuration, refer to Downframing in the CM9760-MXB Matrix Bay section.
Combination of sideframe and downframe configurations:
•
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
NOTE: For an illustration of a 496 x 32 nonlooping configuration that uses a combination of downframing and sideframing, refer to Using a
•
CM9760-MXBL downframe configurations:
–
–
–
NOTE: For an illustration of a 256 x 16 configuration that downframes to the CM9760-MXBL, refer to Downframing to the CM9760-MXBL in the
CM9760-MXB Matrix Bay section.
C1572M (9/05)
121
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SIDEFRAME-ONLY CONFIGURATION EXAMPLES
16
1
VIDEO TIE LINES X16
721
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
513-736
CAMS
CAMS
257-512
1-256
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 62. Sideframing: 736 x 16 Configuration
16
1
VIDEO TIE LINES X16
961
769
753
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
769-976
CAMS
CAMS
1-256
257-512
513-768
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 63. Sideframing: 976 x 16 Configuration
122
C1572M (9/05)
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DOWNFRAME-ONLY CONFIGURATION EXAMPLES
16
1
241
1
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
48
33
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2C
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
Figure 64. Downframing: 256 x 48 Configuration
C1572M (9/05)
123
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16
1
241
1
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
48
33
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2C
CAM 1 LOOP-OUT
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
OUT
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAM 16 LOOP-OUT
CM9760-MXB
Figure 65. Downframing: 256 x 48 Configuration, Looping
124
C1572M (9/05)
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16
1
241
1
2A
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2B
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2C
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2D
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
Figure 66. Downframing: 256 x 64 Configuration
C1572M (9/05)
125
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16
1
241
1
2A
Alarm
Black
Out
RS-422
RS-422
CAMS
1-256
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2B
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2C
Alarm
Black
Out
RS-422
RS-422
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
2D
CAM 1 LOOP-OUT
Alarm
Black
Out
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXB
Figure 67. Downframing: 256 x 64 Configuration, Looping
126
C1572M (9/05)
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SIDEFRAME AND DOWNFRAME COMBINATION CONFIGURATION EXAMPLES
16
1
481
257
241
1
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
1-256
257-496
CM9760-MXB
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
257-496
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXB
CM9760-MXB
Figure 68. Sideframing and Downframing: 496 x 32 Configuration, Looping
C1572M (9/05)
127
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16
1
481
257
241
1
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CAMS
257-496
CAMS
1-256
CM9760-MXB
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
48
33
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
12C
2C
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
Figure 69. Sideframing and Downframing: 496 x 48 Configuration
128
C1572M (9/05)
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16
1
481
257
241
1
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
1-256
257-496
CM9760-MXB
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
48
33
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
12C
2C
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
257-496
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXB
CM9760-MXB
Figure 70. Sideframing and Downframing: 496 x 48 Configuration, Looping
C1572M (9/05)
129
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16
1
481
257
241
1
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CAMS
257-496
CAMS
1-256
CM9760-MXB
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
12C
2C
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
12D
2D
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
Figure 71. Sideframing and Downframing: 496 x 64 Configuration
130
C1572M (9/05)
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16
1
481
257
241
1
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
1-256
257-496
CM9760-MXB
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Black
Out
Alarm
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
12C
2C
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
12D
2D
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
257-496
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXB
CM9760-MXB
Figure 72. Sideframing and Downframing: 496 x 64 Configuration, Looping
C1572M (9/05)
131
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16
1
VIDEO TIE LINES X16
721
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
513-736
CAMS
257-512
CAMS
1-256
CM9760-MXB
CM9760-MXB
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Black
Out
Alarm
Black
Out
Alarm
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 73. Sideframing and Downframing: 736 x 32 Configuration
132
C1572M (9/05)
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16
1
VIDEO TIE LINES X16
721
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
513-736
CAMS
CAMS
1-256
257-512
CM9760-MXB
CM9760-MXB
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
48
33
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 75. Sideframing and Downframing: 736 x 48 Configuration
134
C1572M (9/05)
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16
1
VIDEO TIE LINES X16
721
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
CAMS
1-256
513-736
257-512
CM9760-MXB
CM9760-MXB
CM9760-MXB
32
17
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
48
33
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
513-736
OUT
CAMS
257-512
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 76. Sideframing and Downframing: 736 x 48 Configuration, Looping
C1572M (9/05)
135
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16
1
VIDEO TIE LINES X16
721
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
513-736
CAMS
CAMS
1-256
257-512
CM9760-MXB
CM9760-MXB
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
22D
12D
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 77. Sideframing and Downframing: 736 x 64 Configuration
136
C1572M (9/05)
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16
1
VIDEO TIE LINES X16
721
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
CAMS
1-256
513-736
257-512
CM9760-MXB
CM9760-MXB
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
t
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
t
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
22D
12D
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
t
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
513-736
OUT
CAMS
257-512
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 78. Sideframing and Downframing: 736 x 64 Configuration, Looping
C1572M (9/05)
137
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16
1
VIDEO TIE LINES X16
961
769
753
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
769-976
CAMS
513-768
CAMS
CAMS
1-256
257-512
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 83. Sideframing and Downframing: 976 x 64 Configuration
142
C1572M (9/05)
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16
1
VIDEO TIE LINES X16
961
769
753
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
CAMS
CAMS
1-256
769-976
513-768
257-512
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
32
17
33
49
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
48
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
64
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
769-976
OUT
CAMS
513-768
OUT
CAMS
257-512
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXB
CM9760-MXB
CM9760-MXB
CM9760-MXB
Figure 84. Sideframing and Downframing: 976 x 64 Configuration, Looping
C1572M (9/05)
143
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CM9760-MXBL DOWNFRAME CONFIGURATION EXAMPLES
16
1
481
257
241
1
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
CAMS
1-256
CAMS
257-496
CM9760-MXB
CM9760-MXB
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
257-512
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXBL
CM9760-MXBL
Figure 85. Downframing to CM9760-MXBL: 496 x 16 Configuration, Looping
144
C1572M (9/05)
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16
1
VIDEO TIE LINES X16
721
513
497
257
241
1
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
CAMS
CAMS
CAMS
1-256
513-736
257-512
CM9760-MXB
CM9760-MXB
CM9760-MXB
SUPPLIED DOWN-
FRAMING CABLES
16X RIBBON COAXIAL
CAM 1 LOOP-OUT
Alarm
Black
Out
Alarm
Black
Out
Alarm
Black
Out
RS-422
RS-422
RS-422
RS-422
RS-422
RS-422
SYSTEM LOOPED
OUTPUTS ARE NOT
TERMINATED
CAMS
257-512
OUT
CAMS
513-736
OUT
CAMS
1-256
OUT
CAM 16 LOOP-OUT
CM9760-MXBL
CM9760-MXBL
CM9760-MXBL
Figure 86. Downframing to CM9760-MXBL: 736 x 16 Configuration, Looping
C1572M (9/05)
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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.
If a warranty repair is required, the Dealer must contact Pelco at (800) 289-9100 or
(559) 292-1981 to obtain a Repair Authorization number (RA), and provide the following
information:
Exceptions to this warranty are as noted below:
1. Model and serial number
•
Five years on fiber optic products and TW3000 Series unshielded twisted pair transmission
products.
2. Date of shipment, P.O. number, Sales Order number, or Pelco invoice number
3. Details of the defect or problem
•
•
•
Three years on Spectra® IV products.
If there is a dispute regarding the warranty of a product which does not fall under the
warranty conditions stated above, please include a written explanation with the product
when returned.
Three years on Genex® Series products (multiplexers, server, and keyboard).
Three years on Camclosure® and fixed camera models, except the CC3701H-2,
CC3701H-2X, CC3751H-2, CC3651H-2X, MC3651H-2, and MC3651H-2X camera models,
which have a five-year warranty.
Method of return shipment shall be the same or equal to the method by which the item was
received by Pelco.
•
•
•
Three years on PMCL200/300/400 Series LCD monitors.
Two years on standard motorized or fixed focal length lenses.
Two years on Legacy®, CM6700/CM6800/CM9700 Series matrix, and DF5/DF8 Series
fixed dome products.
Two years on Spectra III™, Esprit®, ExSite®, and PS20 scanners, including when used in
continuous motion applications.
RETURNS
In order to expedite parts returned to the factory for repair or credit, please call the factory at
(800) 289-9100 or (559) 292-1981 to obtain an authorization number (CA number if returned
for credit, and RA number if returned for repair).
•
•
•
Two years on Esprit and WW5700 Series window wiper (excluding wiper blades).
All merchandise returned for credit may be subject to a 20% restocking and refurbishing
charge.
Two years (except lamp and color wheel) on Digital Light Processing (DLP®) displays.
The lamp and color wheel will be covered for a period of 90 days. The air filter is not
covered under warranty.
Goods returned for repair or credit should be clearly identified with the assigned CA or RA
number and freight should be prepaid. Ship to the appropriate address below.
•
•
•
Eighteen months on DX Series digital video recorders, NVR300 Series network video
recorders, and Endura® Series distributed network-based video products.
If you are located within the continental U.S., Alaska, Hawaii or Puerto Rico, send goods to:
One year (except video heads) on video cassette recorders (VCRs). Video heads will be
covered for a period of six months.
Service Department
Pelco
3500 Pelco Way
Clovis, CA 93612-5699
Six months on all pan and tilts, scanners or preset lenses used in continuous motion
applications (that is, preset scan, tour and auto scan modes).
Pelco will warrant all replacement parts and repairs for 90 days from the date of Pelco
shipment. All goods requiring warranty repair shall be sent freight prepaid to Pelco, Clovis,
California. Repairs made necessary by reason of misuse, alteration, normal wear, or accident
are not covered under this warranty.
If you are located outside the continental U.S., Alaska, Hawaii or Puerto Rico and are instructed
to return goods to the USA, you may do one of the following:
If the goods are to be sent by a COURIER SERVICE, send the goods to:
Pelco
Pelco assumes no risk and shall be subject to no liability for damages or loss resulting from
the specific use or application made of the Products. Pelco’s liability for any claim, whether
based on breach of contract, negligence, infringement of any rights of any party or product
liability, relating to the Products shall not exceed the price paid by the Dealer to Pelco for
such Products. In no event will Pelco be liable for any special, incidental or consequential
damages (including loss of use, loss of profit and claims of third parties) however caused,
whether by the negligence of Pelco or otherwise.
3500 Pelco Way
Clovis, CA 93612-5699 USA
If the goods are to be sent by a FREIGHT FORWARDER, send the goods to:
Pelco c/o Expeditors
473 Eccles Avenue
South San Francisco, CA 94080 USA
Phone: 650-737-1700
Fax: 650-737-0933
The above warranty provides the Dealer with specific legal rights. The Dealer may also have
additional rights, which are subject to variation from state to state.
This equipment contains electrical or electronic components that must be recycled properly to comply with Directive 2002/96/EC of the European Union
regarding the disposal of waste electrical and electronic equipment (WEEE). Contact your local dealer for procedures for recycling this equipment.
REVISION HISTORY
Manual #
Date
Comments
C1572M
9/05
Original version. This manual supersedes component manuals for the CM9760-CC1 (C541M), CM9760-MXB (C543M), and System 9760 Installation (C1503M).
Pelco, the Pelco logo, Coaxitron, Spectra, Genex, Endura, Esprit, ExSite, Camclosure, Legacy, and System 9760 are registered trademarks of Pelco.
Spectra III is a trademark of Pelco.
©Copyright 2005, Pelco. All rights reserved.
Microsoft, MS-DOS, Windows, and Windows NT are registered trademarks of Microsoft Corporation.
Pentium is a registered trademark of Intel Corporation.
DLP is a registered trademark of Texas Instruments, Inc.
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Worldwide Headquarters
3500 Pelco Way
Clovis, California 93612 USA
USA & Canada
Tel: 800/289-9100
Fax: 800/289-9150
International
Tel: 1-559/292-1981
Fax: 1-559/348-1120
www.pelco.com
ISO9001
United States Canada United Kingdom The Netherlands Singapore Spain Scandinavia France Middle East
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