Pelco Switch CM9740 CC1 User Manual

®
CM9740-CC1  
System 9740™  
Controller  
Installation/  
Operation Manual  
C1508M-A (02/01)  
Pelco 3500 PelcoWay Clovis, CA 93612-5699 USA www.pelco.com  
In North America and Canada:Tel (800) 289-9100 FAX (800) 289-9150  
International Customers:Tel +1(559) 292-1981 FAX +1(559) 348-1120  
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LIST OF ILLUSTRATIONS  
Figure  
Page  
1
2
CM9740-CC1 FrontView ................................................................................... 8  
Rear View, General Identification .......................................................................9  
3
4
5
6
7
8
9
CM9740-CC1 Rear Connector Pinouts ............................................................. 11  
Multiple Receiver Hook-up ................................................................................11  
Category IBare Bones.....................................................................................12  
Category IFleshed Out .................................................................................... 12  
Single-Node Initialization .................................................................................. 16  
InitializationSystem Window ............................................................................17  
InitializationConfiguration File ........................................................................ 17  
InitializationOnline Nodes ............................................................................... 18  
MGR WindowsA Precaution ............................................................................18  
Single-Node Hot Switch Configurations ............................................................ 19  
Display Screen Geometry ................................................................................. 21  
Diagnostic Screen and Monitor Box Geometry .................................................22  
Monitor Box Camera Switching......................................................................... 23  
Monitor Box Preset Call .................................................................................... 23  
Monitor Box Allocation ...................................................................................... 24  
Monitor BoxF1 Allocation ................................................................................24  
Monitor BoxAllocate 3 to 1 .............................................................................. 24  
Monitor Box Switch ........................................................................................... 24  
Keys CommandExamples ............................................................................... 26  
Time Synchronization ....................................................................................... 27  
Configuration File Dialog Box ............................................................................29  
Hard Drive Update ............................................................................................ 30  
Dynamic Update Block Diagram .......................................................................31  
Sample AUTOEXEC.BAT File ........................................................................... 35  
CC1 ConnectionsExercise I ............................................................................45  
CC1 SetupFinal............................................................................................... 45  
CC1 Directory Structure .................................................................................... 47  
Root Directory ................................................................................................... 47  
9740 Directory................................................................................................... 47  
The DOS Directory............................................................................................ 48  
TESTPORT Directory ....................................................................................... 50  
MGR Program Location .................................................................................... 51  
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LIST OF TABLES  
Table  
Page  
A
B
C
D
Command Key Functions .................................................................................. 25  
CC1 Hardware Errors ........................................................................................ 32  
CC1 System Errors ........................................................................................... 32  
DOS Command Reference Directory................................................................ 38  
LIST OF APPENDIXES  
Number  
Page  
APPENDIX I  
INSTALLING THE MGR PROGRAM ...................................................... 33  
APPENDIX II DOS ENVIRONMENT AND COMMAND REFERENCE ......................... 34  
APPDENDIX III MGR WRITE UTILITY............................................................................. 41  
APPENDIX IV MGR READ UTILITY .............................................................................. 42  
APPENDIX V REMOVING AN EXISTING MGR PROGRAM ........................................43  
APPENDIX VI EDITING THE AUTOEXEC.BAT FILE .....................................................44  
APPENDIX VII EXERCISES ........................................................................................... 45  
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1.0 IMPORTANT SAFEGUARDS AND WARNINGS  
Prior to installation and use of this product, the following WARNINGS should be observed.  
1. Installation and servicing should only be done by qualified service personnel and con-  
form to all local codes.  
2. Unless the unit is specifically marked as a NEMA Type 3, 3R, 3S, 4, 4X ,6 or 6P enclo-  
sure, it is designed for indoor use only and it must not be installed where exposed to  
rain and moisture.  
3. Only use replacement parts recommended by Pelco.  
4. After replacement/repair of this units electrical components, conduct a resistance  
measurement between line and exposed parts to verify the exposed parts have not  
been connected to line circuitry.  
The product and/or manual may bear the following marks:  
This symbol indicates that dangerous volt-  
age constituting a risk of electric shock is  
C A U T I O N :  
present within this unit.  
RISK OF ELECTRIC SHOCK.  
DO NOT OPEN.  
This symbol indicates that there are impor-  
tant operating and maintenance instructions  
in the literature accompanying this unit.  
Please thoroughly familiarize yourself with the information in this manual prior to installation  
and operation.  
1.1 REGULATORY NOTICES  
This equipment has been tested and found to comply with the limits of a Class B digital de-  
vice, 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 gener-  
ates, uses, and can radiate radio frequency energy and, if not installed and used in accor-  
dance with the instructions, may cause harmful interference to radio communications. How-  
ever 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 and cor-  
rect 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 re-  
ceiver is connected.  
Consult the dealer or an experienced radio/TV technician for help.  
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2.0 OVERVIEW  
2.1 INTRODUCTORY REMARKS  
The CM9740-CC1 is the controller for the System 9740Matrix switching system. Although  
the CM9740-CC1 has a smaller hardware footprint than the CM9760-CC1, it can, with its  
9740 specificexecutable software, interface the same peripheral mix that the CM9760-  
CC1 does, but on a reduced scale.In fact, the CM9740-CC1 can be installed as a node in a  
multi-node 9760 system, if desired.  
In this manual, we attempt to meet the diverse needs of the user for information by discuss-  
ing the most common type of configuration in which the CM9740-CC1 can be found. This  
configuration type, referred to here as Category I,is discussed further in the next section.  
2.2 MANUAL LAYOUT  
The topics touched on in Section 3.0 are important for the user to be familiar with in order to  
gain the most benefit from the discussions that take place later in Sections 5.0 and 6.0.The  
physical aspects of the CM9740-CC1 are discussed in Section 4.0. Section 5.0 discusses  
installation configuration scenarios, and Section 6.0 is concerned with controller initialization.  
The basic installation type, which we refer to as Category I,is discussed from the stand-  
point of the CC1 as being (1) part of a New System Installation and (2) as an indi-  
vidual CC1 Replacement Installation within an existing system installation. We dont  
exclude upgrade scenarios in our discussions, by which we mean that an existing system  
software and/or hardware mix (of which the CC1 is a part) is upgraded to a newer version.  
The Category I case is emphasized throughout and in more explicit detail with respect to  
the subtopics mentioned above, because, in most cases, one can extrapolate CC1 behavior  
there to more involved configurations.  
Section 6.0 discusses initialization and what happens or should  
happen when the CC1 is powered on for the first time. We discuss  
various elements of system configuration, how they interact and the  
part the CC1 plays in it.What should happen, what can happen, and  
what to look for during initialization are also explored. Next, diag-  
nostic screen functions, diagnostic key commands and those as-  
pects of the MGR program that affect CC1 integrity are explored.  
CATEGORY I  
Finally, we briefly list some of the more common problems encoun-  
tered during initialization and suggest possible corrective action.  
At any point in the manual where information appearing in an ap-  
pendix has a bearing on the discussion at hand, that appendix is  
referenced.Based on ones current knowledge and experience,  
one may or may not feel the need to consult it.  
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3.0 BEFORE YOU BEGIN  
3.1 A BRIEF NOTE  
The CM9740-CC1 is a nonexpandable CPU, optimized for systems ranging from  
a 16 x 4 configuration (16 inputs and 4 outputs) to a 256 x 32 configuration (256 in-  
puts and 32 outputs).  
Beginner or New to 9740  
If you are totally new to Pelco, or are familiar with Pelco but new to the 9740 ma-  
trix system, read on.  
3.2 FOR THE BEGINNER OR NEW USER,  
A FEW WORDS OF ADVICE AND SOME EXERCISES  
From a hardware standpoint, the CM9740-CC1 is ubiquitous to 9740 System op-  
eration. Section 4.0 addresses that aspect of the CC1.  
In addition to its physical prominence, the CC1 is central to the software tasks re-  
quired within the 9740 System. These tasks include configuration, initialization,  
and system control in operational mode.  
Normally, CM9740-CC1 installations are problem free and follow an installation  
scenario that proceeds as follows:  
1. Everything is assembled together for the system configuration according to  
the provided roadmap, which exists in the form of port assignment sheets  
that tell you how everything physically relates to everything elsewhat device  
is attached to what port, and so on.  
* MGR:The MGR program is an admin-  
istrative extension of the 9740 executable.  
The executable resides on the hard drive  
of the CC1; the MGR program, when in  
use, resides on an external PC connected  
to the CC1.  
2. After all equipment and cables are installed and everything is finally hooked  
up, the power is turned on.  
3. The system initializes.  
Setup is complete and operation can begin. At some later point in time, however, if  
the existing system configuration needs to be changed, upgraded, or downgraded,  
then no matter how simple or complex your system is, there are two areas related  
to system software with which one should become thoroughly familiar:  
** FLAT FILES: Flat files are information  
files based upon your particular system  
configuration that the system executable  
uses to know what its connected to and  
how to talk to it.These flat files are created  
at the factory for your particular system  
configuration.For multi-node systems, a set  
of configuration files is created for each  
node (each node has its own CC1). The  
CM9740-CC1 cannot be used to construct  
multi-node systems. It can, however, ap-  
pear as a node within a multi-node sys-  
tem. These flat files can be found in two  
different locations: (1) on the CC1 hard  
drive in the C:\9740 directory and (2) on  
the floppy disk labelled Utilities.”  
The directory structure of the CC1.  
The administrative extension of the system executable (the MGR* program)  
and the configuration files (flat files)** that comprise your specific system.  
If you are not familiar with these two points, we encourage you to take the time  
NOW, rather than be forced by necessity later, to become familiar with these two  
items.  
Its easy. Very little equipment must be connected.Your entire system does not  
have to be connected, nor does it have to be up and running to perform the two  
exercises that discuss these topics.If the previous statement applies in your  
case, or if you are responsible for implementing system configuration changes,  
then consult Appendix VII, which guides you through the entire process.  
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4.0 INTRODUCTION TO THE CC1  
4.1 DESCRIPTION  
The CM9740-CC1 Controller is the main component and central operating hub of the Sys-  
tem 9740. All components of the system connect to and communicate with the Controller  
via the ports located on the rear of the unit.  
The CM9740-CC1 Controller mounts in a standard 19-inch (48.26 cm) rack space.  
Default Hardware Configuration  
NOTE: The internal cards are manu-  
factured or supplied by Pelco and con-  
a. 3.5-inch Floppy Drive  
b. Solid-state, non-volatile, flash memory  
tain no user-serviceable parts. Other  
than jumper settings or card replace-  
ment, any attempt to repair or modify  
the internal components of the  
CM9740-CC1 will void any applicable  
warranties.  
c.  
CPU  
d. Mounting hardware  
e. Keyboard  
f.  
Mouse  
g. 2 SerCom cards  
4.2 MODEL  
CM9740-CC1  
CPU controller and processor, operates on 120-240VAC, 50/60 Hz.  
(CE, UL, cUL)  
Front View  
The front area of the controller consists of the items identified in the illustration in Figure 1:  
Figure 1  
CM9740-CC1 FrontView  
The CM9740-CC1 Controller is equipped with an internal power supply that provides all the  
operating voltages for the unit. * Cooling for the processor is provided by a CPU-mounted  
fan.  
* The power socket outlet shall be installed near the equipment and shall be easily accessable.  
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Rear View  
The rear of the controller appears as illustrated in Figure 2.  
This is the business end of the CM9740-CC1.  
Figure 2  
Rear View, General Identification  
(RS-232 Wiring Connection between the CC1 and an External PC)  
TX  
RX  
RX  
TX  
Refer to Figure 3 for COM port pinout identification  
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4.3 SERCOM BOARD CARDS  
Sercom Card installation at the factory configures the Sercom cards for the slot position lo-  
cations they occupy in the unit.  
Once you have an operational system, you can cycle through your IRQ/Slot position set-  
tings by toggling the ALT + A key combination on the keyboard associated with the diagnos-  
tic screen.  
4.4 MOUNTING THE CONTROLLER  
The CM9740-CC1 Controller mounts in a standard 19-inch rack using standard mounting  
hardware (supplied with the unit).The unit occupies 3 RU (5.25 inches [13.34 cm]) of verti-  
cal rack space.  
WARNING: Un-  
plug the CC1 before  
attempting to install  
or remove any of the indi-  
vidual components. Failure to  
do so could result in serious  
damage to the equipment.  
Before installing the unit, decide on the equipment orientation desired within the EIA rack  
and install the moveable ears on the unit accordingly. Secure as required.  
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4.5 CONNECTING TO THE CONTROLLER  
All system devices connect to the rear of the CM9740-CC1 controller.In general, any con-  
nectable device that can be used with the CM9760-CC1 can also be used with the  
CM9740-CC1.  
D-type, 9-pin connectors are used for COM 1 and COM 2, while theVGA card connector is  
a 15-pin D-type connector.The PS/2 keyboard connection utilizes a standard 5-pin mini-Din  
connector.  
The printer connector (used mainly for system logging and printouts) is a 25-pin D-type  
connector.A completely operational System 9740 will more than likely require the addition  
of more equipment to the controller;namely, such items as a VGA monitor, or a PS/2 keyboard  
and printer.To connect this equipment, simply plug the desired piece of equipment into the  
appropriately labeled port. For connector information, refer to Figures 3 and 4.  
Figure 3  
CM9740-CC1 Rear Connector Pinouts  
Figure 4  
Multiple Receiver Hook-up  
NOTE: When a Sercom  
port is used to interface  
multiple receivers, the  
distance Dbetween the  
pick-off points and any  
receiver should be 3 feet  
(.91 m) or less  
D(see note)  
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5.0 PHYSICAL INSTALLATION AND INITIALIZATION  
5.1 CC1 INSTALLATIONCATEGORY I  
Figure 5  
Category IBare Bones  
Preliminary  
For new installations, you normally receive a configuration setup or dia-  
gram and a port assignment sheet for your specific installation. Pay close  
attention to these when setting up your system.  
Items specific to CC1 production for units leaving the factory include the following:  
1. Configuration files (flat files) that correspond to your specific system  
configuration are created and exist, as a set, in two locations. One set  
is located within the C:\9740 directory on the drive of the CM9740-CC1.  
The other backup set is located on a floppy disk labeled Utility Disk.  
Figure 6  
Category IFleshed Out  
2. The directory structure of your drive has been set up and includes  
those items alluded to in Section 3.2 and discussed in detail in Ap-  
pendix VII of this manual.  
3. The MGR program, which is a software extension of the 9740.EXE,  
exists on a five-unit floppy disk installation set that accompanied your  
unit. This program should be installed on the external PC that will be  
connected to COM 1 on the rear of the CC1. The MGR program  
should be loaded on the external PC and the PC should be connected  
to the CC1 before any power to the CC1 is turned on in preparation  
for the initialization process.The inclusion of MGR operability is not a  
necessary component of the initialization process; however, its exclu-  
sion would mean the loss of a valuable tool for viewing, verifying, and  
probing various aspects of that process.  
5.1.1 Category INew Installation  
1. CC1s are normally installed in close physical proximity to matrix bays,  
as these are the first items to be connected to the rear of the CC1, start-  
ing at Port 5 on the rear of the CC1.  
Keyboards are installed after matrix bays; then, after that, everything  
else is installed on a next available portbasis according to the port  
assignment sheets.  
2. If the MGR program is to be used, it is installed on an external PC  
connected to COM1 on the rear of the CC1. The cable between the  
external PC and CC1 is not supplied by Pelco. Use the convenient  
pinout information given in Figures 2 and 4 for wiring up the cable.If you  
followed the exercise for the beginner referenced in the first part of the  
manual, you have already installed the MGR on an external PC. If that  
NOTE:Remember that each peripheral device  
is unique and has its own requirements. If ques-  
tions arise with respect to any of the parameters  
for an individual piece of equipment, it is impera-  
tive that you consult the manuals for the device  
in question.  
is not the case or if you wish to use a different PC, then the MGR pro-  
gram must be installed on the PC at any point before power is applied  
to the system. Use the quick-start installation guide in Appendix I to  
install the program on the external PC.  
3. Connect the external VGA PC monitor to the VGA port provided on the  
rear of the CC1. This will display your diagnostic screen.  
**Note that video paths are independent of the  
9740.EXE being in operational mode.The fact  
that pictures appear on monitors when periph-  
eral equipment is turned on does not mean  
that the system is operational. It is a neces-  
sary item for proper system operation, but has  
nothing to do with system initialization.  
4. Once you are satisfied with the physical hook-up of all peripheral de-  
vices and have double-checked all communication parameters and  
switch settings, you are ready to do the following:  
a.  
Turn on power to all peripheral equipment connected to the CC1.**  
b. Apply power to the CC1.  
5. Proceed to the Section 6.1, which discusses system initialization for  
single-nodes.  
The next example is that rare case where the act of having saved a cur-  
rent copy of your configuration files (flat files) can save you a lot of work.  
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5.1.2 Category IUpgrade Replacement (Hardware Only)  
Object: Physical Replacement of the CC1  
Assumptions:  
The CC1 to be replaced is part of an existing operational system configu-  
ration that has failed.  
NOTE: Normally, one thinks of hardware  
and software as separate entities and that  
upgrading or replacing one would not sig-  
nificantly affect the upgrade or replacement  
of the other. For new system configurations,  
this is not a problem.Areas of concern do  
arise, however, when upgrading or replac-  
ing existing units within systems that are  
out in the field. If the replacement equip-  
ment contains preloaded software (for ex-  
ample, the CC1) or contains programmed  
ROMs (for example, the CM9760-KBD),  
care must be taken.You must make a rea-  
sonable effort to ensure that the new  
hardware and the software it contains are  
compatible with the system within which  
it is to be placed.  
The software environment that existed on the failed CC1 is to be used on  
the replacement CC1.  
To physically replace the CC1:  
1. Shut down any parts of the system that are running and turn off power  
(where applicable). We assume here that the failed CC1s power is al-  
ready off.  
2. Disconnect all peripheral equipment from the failed CC1, noting what is  
connected to what.  
3. Connect a PS/2 keyboard to the replacement CC1 and power it up inde-  
pendent of the system to which it will be connected.  
4. Take your most current copy of configuration files (flat files) for the system  
in question and copy them to the C:\9740 directory on the hard drive of the  
replacement CC1. If you dont have a set, you are going to have create  
one from scratch.  
NOTE: You should always save your old  
executables and flat files, along with your  
autoexec.bat file, in case the upgrade in-  
stallation doesnt pan out.  
5. The 9740.EXE that exists on the replacement CC1 will be configured with  
the latest revision of system software.  
NOTE: You should always have a list of  
the current version levels of all the soft-  
ware that you are running on your system  
or at least know where to find the informa-  
tion. In general, its best to make a list as  
soon as possible after receiving new soft-  
ware or equipment containing software and  
keep the list current.  
6. When power is applied to the replacement CC1 in step 3, it should boot to  
the diagnostic screen after loading system files.This is a reflection of the  
standard factory configuration of the autoexec.bat file and nothing else.  
NOTE:You can choose to edit and effect changes in the autoexec.bat file  
after the system is hooked up and power is turned on. If you do, just keep  
in mind that the following instructions assume that you have already  
made the changes referenced.  
7. Once you have loaded a copy of your current configuration files, the old  
executable and the adjusted autoexec.bat (if applicable) on the new CC1,  
turn off power to the CC1.  
The list would include version information  
on the following:  
1. The CM9740.exe  
2. The 9760MGR software  
3. The CM9760-KBDs  
8. Replace the old unit with the new CC1 and reinstall, connector for con-  
nector, all peripheral equipment disconnected in step 2.  
9. Turn on power to all the peripheral equipment and to the new CC1. Check  
system initialization and look for system errors. Correct any found, and  
then, again, save to disk any copies of your configuration files and any  
other files that you dont want to have to create or scrounge around for  
should similar circumstances occur in the future.  
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5.1.3 Category IUpgrade Replacement  
(Hardware and Software)  
Object: Physcial replacement of the CC1, in conjunction with software upgrade or re-  
placement.  
Assumptions:  
The CC1 to be replaced is part of an existing, operational, system configuration.  
The operational software within the existing CC1 needs to be replaced and/or up-  
graded, depending on circumstances covered in the steps below.  
1. Repeat steps 1, 2, and 8 of the previous section, ignoring remarks about CC1 status.  
Do not, however, reconnect the external PC (containing the MGR program) to the  
new CC1 just yet.  
**IMPORTANT NOTE  
The status of the new CC1 and its associated software files are as follows:**  
If you are doing an across-the-  
board upgrade of the system  
software associated with the  
CC1 (namely, the MGR program  
and the system executable),  
then any CM9760-KBD used  
with the upgraded system must  
also contain software that is  
compatible with the upgrade.  
The latest 9740 executable will reside in the C:\9740 directory on the drive of the  
CC1. Backups of the executable are on the Operations and Utility disks that ac-  
companied the shipment of the replacement CC1.  
A five-disk set of the latest MGR program also accompanied the shipment.  
2. If the software version of your current MGR program is less than that of the MGR pro-  
gram in the upgrade package, then the latest MGR software must be installed on your  
external PC.  
To accomplish that, do the following:  
a. Remove your old MGR software according to Appendix V.  
b. Install the new MGR software using the five-disk set of the System Manager. Use  
the quick-start guide located in Appendix I of this manual for instructions.  
3. Connect any new equipment that is part of your hardware upgrade to the appropriate  
port(s) on the rear of the CC1, according to the installation instructions found in the  
manual(s) accompanying the new equipment.  
4. If the equipment connected in step 3 requires updates to your existing configuration  
files (which it will if the hardware portion of the upgrade necessitated the use of any  
additional Sercom ports), then do the following; otherwise, proceed to step 6:  
a. Power-up the external PC containing the MGR program and use the READ utility  
to read in your existing configuration set (flat files) into the MGR program (refer to  
Appendix IV, if needed).  
b. Make the necessary changes in your current configuration files to accommodate  
any new equipment. As part of those changes, dont forget to enter a PIN for the  
new equipment in the COMMS file and to assign operator access. Consult the  
applicable device manual and the MGR documentation as needed until all the pa-  
rameters that need to be changed are taken into account.  
c.  
Save your updated flat files to the database and then use the WRITE utility of the  
MGR program to write out the changed configuration set to floppy disk.  
d. Copy the new configuration set into the C:\9740 directory of the new CC1 (refer  
to Appendix II, if necessary).  
5. Reconnect the external PC containing the upgraded MGR software to the new CC1  
and load the upgraded configuration set into the C:\9740 directory of the new CC1.  
Proceed to step 7.  
6. Reconnect the external PC containing the upgraded MGR software to the new CC1  
and load your existing flat files into the C:\9740 directory of the new CC1.  
7. Repeat step 9 of Section 5.1.2.  
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5.1.4 Category IUpgrade Replacement (Software Only)  
Object:To upgrade current system software to the latest available.  
Assumptions:  
You re currently running a fully operational CC1 to which is attached an external PC  
containing the MGR program.  
You have ordered the current software upgrade package for the CC1.  
You have also ordered (if applicable) compatible keyboard software for use with the  
system software upgrade (CM9760-KBD-XXX).  
To upgrade your system software:  
1. Halt system operation (if applicable) with the familiar Ctrl + Q key combination.  
2. Replace the old MGR program on the external PC with the upgrade MGR program by  
doing the following:  
a. Remove the old MGR program, following the instructions in Appendix V.  
b. Install the new MGR program using the quick-start guide in Appendix I.  
3. Use the READ utility of the justinstalled MGR program to read in a copy of your cur-  
rent configuration files.  
4. Effect any changes desired, save the files to the database and use the WRITE utility to  
write a copy of your configuration files to floppy disk. Make sure you continue to use  
the same global prefix name for your configuration set that you used before or you will  
have to change your autoexec.bat file later.  
5. Copy the new configuration set to the C:\9740 directory on the hard drive of the CC1  
and overwrite any files existing there.  
6. Copy the latest system executable (CM9740.EXE) [located on the Utility Disk] and  
overwrite the old executable located in the C:\9740 directory of the CC1.  
7. Upgrade the keyboard software (if applicable) using the appropriate KBD upgrade kit.  
8. Attach all equipment not yet connected to the CC1.  
9. Power-up all peripheral equipment; turn on the CC1.  
10. Initialize the system and check for errors.  
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6.0 CC1 INITIALIZATION  
The initialization process occurs during the time that the CM9740.EXE program is booting  
up. During this time configuration files and diagnostic programs are loaded enabling system  
parameters for CCTV matrix operation. As the initialization process proceeds, the execut-  
able calls for its associated diagnostic and corresponding information screen. The primary  
visual verification of successful initialization is signaled by the information displayed there.  
That, and other indicators of successful initialization (for example, the 9760 KBD LCD  
screen and the Manager system window, which are both discussed in the next section) give  
a range of items to check to verify successful initialization.  
In the absence of perfect system initialization, what you hope to see is verification that the  
system is a least up and running. Small problems might be indicated by system messages  
other than the one you wanted to see, but you are essentially in business.”  
6.1 SINGLE-NODE INITIALIZATION  
As just discussed, normal initialization is the result of a successful boot process, which,  
more often than not, ends with a display of its associated diagnostic screen indicating suc-  
cess. It will do this either because (1) it was configured that way at the factory or (2) be-  
cause the autoexec.bat file was edited by the user to call the appropriate executable during  
the boot process.  
6.1.1 Diagnostic Screen  
Initialization begins when the CC1 is turned on (we assume all peripheral equipment is  
powered on).The boot process executes as a standard DOS boot. When the executable in  
the autoexec.bat file is called, a bare outline of the diagnostic screen appears on the attached  
monitor. A syncopated series of messages appears in the System box until the process  
ends and, if successful, aSetup Completediagnostic screen like that shown in Figure 7  
appears.  
6.1.2 Keyboard  
Within your system configuration, you may also have  
other devices connected that give online system indica-  
tions, some more helpful than others.  
Figure 7  
Single-Node Initialization  
For example, consider the CM9760-KBD.If you have  
one attached to your system, the LCD screen display  
will look as follows before the system boots:  
When the system boots, and initialization is com-  
plete, the keyboard LCD display will change from  
the above LCD screen to the following one:  
SYSTEM 9740 v7.8  
The keyboard will go through this display process re-  
gardless of the type of configuration to which it is con-  
nected.  
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Figure 8  
InitializationSystem Window  
6.1.3 MGR Program  
System Window  
That leaves the MGR system window, which is  
part of the MGR program proper. If you have an  
external PC connected to the CC1 that contains  
the MGR program, there are multiple indications of  
online status associated with this program that can  
be checked.  
Just before the boot process, have the MGR pro-  
gram up and running with the system window show-  
ing. Click on the SysWindow icon as indicated in  
Figure 8; the window should be blank. If it isnt,  
close the system window and answer Noto the  
dialog inquiry about retaining current system win-  
dow messages. Then, reopen the window and it  
will be blank. At the end of the initialization process  
when the Setup Completemessage appears on  
the diagnostic screen, a corresponding display in-  
dicating system status will appear in the system  
window of the MGR program, like that shown in  
Figure 8, indicating that the system is up and  
online.  
6.1.4 Configuration File  
In addition to the SysWindow message regarding  
online status, you can click on the 9760 Setup  
icon on the MGR program toolbar, which will bring  
up the Configuration Files dialog box (refer to  
Figure 9). On the far right side of the line indicat-  
ing the Node # and the groupconfiguration file  
name associated with that node is another indica-  
tion that the system is online. The word Online”  
appears, as shown in Figure 9. A dash , nor-  
mally occupies that spot when the system is not  
online.  
Figure 9  
InitializationConfiguration File  
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6.1.5 Online Node Dialog Box  
If you close the Configuration File menu and click on  
the Nodes icon on the MGR program toolbar, you  
will see what appears in Figure 10.  
This indicates the node number and the associated  
groupflat file name associated with the node cur-  
rently online.  
Figure 10  
InitializationOnline Nodes  
A CAUTIONARY NOTE  
Be aware when looking at secondary  
window dialog boxes. The Online  
Nodes box and theConfiguration Files box,  
for example, are windows that are not dynami-  
cally updated by the MGR program whenever ad-  
ditional changesother than the one currently  
postedhappen in the online environment. The  
SysWindow of the MGR program, however, is  
dynamically updated.  
To show this, look at the diagnostic screen of Fig-  
ure 7. If you exit the program with a Ctrl + Q key  
combination, the diagnostic program ends and  
you immediately revert to the system prompt.  
At the same time, on the external PC containing  
the MGR program, the SysWindow mirrors the  
off-line status as shown in Figure 11.It is dynami-  
cally updated. On the other hand, the Configu-  
ration Files subwindow still indicates that the  
system is Online.It is not dynamically updated.  
The same is also true of the Nodes Dialogbox,  
if you were to look at it.  
To update the Configuration File box or the  
Nodes Dialog box to reflect the current state  
of online status, you must close their respective  
windows and perform the following step:  
Figure 11  
MGR WindowsA Precaution  
The Configuration File window still indicates the system as  
being online.You must close the Configuration File  
window and cycle the Filter Sys icon on the  
MGR toolbar to update system  
Click on the Filter SYS icon on the MGR tool-  
bar. Clicking on this icon opens up the Message  
Mapping window. Opening and closing this win-  
dow causes an update of system information be-  
ing reported to the MGR program.  
information.  
It is best to think of the information contained in  
these subwindows as snapshots of the state of  
the system at the time they are opened.  
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6.1.6 Single-Node Hot Switch Configurations  
Refer back to Figure 7 and note the information in the lower right-hand corner of the  
diagnostic screen. Specifically, note the A OFF phrase. This means Asynchronous  
OFF,which means the CC1 is not part of a hot switch configuration.  
NOTE: The diagnostic monitor and  
the external PC containing the MGR  
program are attached to the hot switch  
interface CM9760-CCS-PNL.  
If, however, the CC1 is part of a hot switch configuration, that portion of the diagnostic  
screen represents the state of the CC1 being visually sampled at the time. This, in  
turn, depends on the switch settings on the processor board located in the hot switch  
interface. You might see any one of the four different diagnostic screens displayed in  
Figure 12 at the conclusion of CC1 initialization. However, this would be the only area  
of difference in the diagnostic display to indicate that the boot up initialization process  
had been successful. MGR program displays for hot switch configurations are the  
same as those already discussed.  
NOTE: In the diagrams below, the  
hot switch terminology references  
mean the following:  
A = Asynchronous  
S = Synchronous  
SLV = Slave  
MST = Master  
Figure 12  
Single-Node Hot Switch Configurations  
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7.0 CC1 CONTROLLER OPERATION  
The center of 9740 system operation is the CC1 controller.  
Monitoring operations and performing housekeeping chores are important parts of main-  
taining the CC1 and system integrity.First, we will discuss the tools used to monitor CC1  
operation in general; then, we will discuss specific examples. Later, we will talk about system  
time and its relationship to maintaining system integrity.  
7.1 MONITORING CC1 FUNCTIONS  
The diagnostic screen on the VGA monitor and the SysWindow of the MGR program lo-  
cated on the external PC are adjuncts of the controller that are used for monitoring system  
functions and errors. In most single-node applications, the VGA monitor and associated  
keyboard are connected, respectively, directly to the VGA port and keyboard connector on  
the CC1.  
Similarly, the MGR program and its associated SysWindow, as well as other useful dialog  
windows, are located on an external PC and connected to the CC1s Comm port.  
For multi-node configurations (the CM9740-CC1 can be configured as a node in a multi-  
node system), the VGA monitor (for the diagnostic) and the external PC containing the  
MGR program are attached to the CC1 containing the NIU.  
To avoid confusion over equipment configurations and the type of display screen you can  
expect to see on monitors attached to specific points within a configuration, refer to Figure 18.  
7.1.2 The Diagnostic Screen  
Once initialization takes place, the multi-node diagnostic screen is rather passive; it sits  
there unless system status changes.Nothing will change on the display screen. The single-  
node diagnostic screen, however, is a bit more engaging.  
Description  
You have already seen how the diagnostic screen is used to observe system functions dur-  
ing CC1 initialization.  
Moreover, at the end of the initialization process, the VGA monitor diagnostic displays a  
Setup Completemessage on the System box (or the System Error line as it sometimes  
called) of the screen. Information pertaining to system errors appear here, as well as infor-  
mation pertaining to system operation. In addition, the results of PC keyboard commands  
appear here, which well discuss later.  
Initialization will occur any time that the CC1 goes through the boot process. That happens  
when any of the following circumstances occur:  
1. When power is cycled on the CC1.  
2. When the reset button is pressed.  
3. When an Alt + Ctrl + Delete key combination is invoked.  
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Figure 13  
Display Screen Geometry  
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In addition to the area of the screen where the System box appears, there are two other ar-  
eas of significance on the diagnostic screen. Refer to the sample diagnostic screen in Fig-  
ure 14.  
First, there is the GPI and Ax (short for Aux) box located in the lower left-hand portion of the  
screen.  
GPI displays the GPI currently selected (if applicable). The GPI number will be updated  
when an auxiliary command is executed.  
Ax displays the auxiliary currently selected and whether it is ON or OFF.  
Second, there are eight identical Monitor boxes.  
Each Monitor box represents a monitor and the camera currently being displayed on that  
monitor. The information displayed within each monitor box is detailed by the numbered ref-  
erences in Figure 14.  
We might point out some other miscellaneous information areas associated with the diag-  
nostic screen. Below the vertically placed PELCO CM9740 logo, on the right side of the  
screen, there is a boxed area within which information is given about the CC1 and its rela-  
tionship to hot switch configurations.The term A OFF means your CC1 is not part of a hot  
switch configuration.The A stands for asynchronous. If the CC1 is part of a hot switch con-  
figuration operating in asynchronous mode, then it may read A SLV or A MST.The normal  
state for hot switch operation is, however, the synchronous mode, in which case you would  
see S MST or S SLV depending on hot switch parameters. Directly below this, the current  
version level of the system executable is listed using the format Ver xxx xxx.  
That concludes the general description of  
the layout of the diagnostic screen. Next,  
Figure 14  
Diagnostic Screen and Monitor Box Geometry  
well look at a few examples of what you  
might see on the monitor boxes and  
show you how to change monitor box al-  
location.Then, we shall list some key-  
board commands that are used to gather  
specifics on system operation.  
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7.1.2.1 Monitor Box Examples  
Figure 15 shows a normal online diagnostic screen. If a CM9760-KBD connected to the  
system is using monitor 4 for camera display, the FWD and BWD buttons on the keyboard  
can be used to cycle through the available cameras.On the diagnostic screen, the corre-  
sponding cameras numbers cycled on the keyboard are mirrored in the numbered display  
for the camera in the diagnostic screen. As each camera is cycled, the ident associated  
with that camera also appear and the monitor box color changes. This is indicated in the il-  
lustration.  
If a camera capable of presets, such as a  
Spectra IIwere connected, then the moni-  
tor box would look like that shown in Figure  
16, which shows that a preset call was made  
from the keyboard.  
Figure 15  
Monitor Box Camera Switching  
Unfortunately, more advanced functions like  
pattern or zone activity are not reflected in  
the diagnostic display. Your normal PTZ func-  
tions, presets, and so forth will have their  
functions identified by some activity in the di-  
agnostic screen monitor boxes.  
A CAUTIONARY NOTE  
The diagnostic screen only indicates  
that a message or action was sent by  
the CC1 to an affected device in response to,  
for example, a keyboard command to send a  
camera to a preset. It does not confirm, in fact,  
that the action actually occurred.  
For example, if you issued a preset call for  
the camera depicted in Figure 16 to go to  
preset 41, the diagnostic screen would look  
the same except the number 41 would re-  
place the number 21.This would occur even if  
you had never programmed the camera for  
that preset. So be aware of this when inter-  
preting the meaning of what you see on the  
diagnostic screen.  
Figure 16  
Monitor Box Preset Call  
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7.1.2.2 Monitor Box  
Allocation  
Monitor boxes can be re-allocated. To do so,  
perform the following steps:  
Figure 17  
Monitor Box Allocation  
Press one of the Fx keys (F1 through F8,  
as illustrated in Figure 17, show the relation-  
ship of the Fx key and Monitor box alloca-  
tion) that corresponds to the number of the  
box that you wish to move a monitor too.  
Take the F1 monitor position, for example.  
When F1 is pressed, the System box will  
read (refer to Figure 18):  
Figure 18  
Monitor BoxF1 Allocation  
Allocate Box 1 to ?  
Type in the number of the box containing the  
monitor that you wish to move there.  
Allocate Box 1 to? 3  
Press the Enter key  
(Refer to Figure 19)  
Box 3 will become blank and Mon 3 will now  
appear in the box for the Mon 1 position.The  
System Box will now display the following:  
Box 1 allocated to Physical Monitor 3  
(Refer to Figure 19)  
Figure 19  
Monitor BoxAllocate 3 to 1  
You can now allocate vacated Box 3 for Mon 1  
(which is now not represented on the diag-  
nostic monitor)in effect exchanging the posi-  
tions of Mon 1 and Mon 3 displays on the di-  
agnostic monitor; or, you may press the F3  
key and reallocate Box 3 to a different moni-  
tor position altogether. To perform the first op-  
tion, press F3 key and the System box will  
read:  
Allocate Box 3 to ?  
If you enter 1, then the diagnostic screen is  
again complete, with eight monitors repre-  
sented and with the MON1 and MON3 dis-  
play positions switched (refer to Figure 20).  
Figure 20  
Monitor Box Switch  
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7.1.2.3 Screen OperationKeystrokes  
There are a number of helpful screen functions associated with certain keystroke combinations that result in a process being en-  
abled or result in information being obtained.You have just seen how the Fx keys are used to reallocate monitor boxes.Those, as  
well as other key combinations, are listed in Table A.  
Table A  
Command Key Functions  
NOTE: Be careful when using the ALT key in combination with other keys. Keyboard lockup can occur if you press an odd  
key combination.  
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A number of these key combinations are quite helpful. Below we illustrate the diagnostic  
screens of some when the referenced key combination is invoked.  
ALT+V  
ALT+A  
ALT+N  
ALT+J  
There may be times when an error message appears on the System box (System Error  
line) that might be due to system noise or other temporary communication problems.To  
separate genuine from occasional hits,press the spacebar. Pressing the spacebar clears  
the System box. If the error message is transient, it will not reappear again. If it does, then  
investigate the possible source of the error.  
Figure 21  
Keys CommandExamples  
7.2 SYSTEM TIME  
7.2.1 Setting and Adjusting System TimeFor Single-Node  
One special key combination is ALT + L, which is used in the process of making adjustments  
to system time. System time is one of the onscreen attributes that appears on all displays  
within a system. How the time is displayed is set up in the System configuration file; how  
time is set or changed is discussed here.  
Single-node setup or adjustment of system time is functionally the same as that followed for  
multi-node setup of system time.For single-node operation, the single-node diagnostic  
screen is used.  
Determine your current globalconfiguration file name (if you dont already know it) by in-  
voking an ALT + N key combination command.You will need that piece of information later.  
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To adjust the time:  
We first synchronize the system clock (this is the clock kept by the DOS operating system)  
to an RTC (a Reference Time Clock).We then let the system run for 24 hours (or a multiple  
of 24 hours, if necessary). We then compare the system clock again with the RTC and note  
any difference.We then synchro-  
nize the system clock with the  
RTC again and then enter a time  
correction to the system clock  
based on our earlier observation.  
To accomplish this, do the following:  
Figure 22  
Time Synchronization  
1. Exit the diagnostic program  
with the Ctrl + Q key combi-  
nation.This should take you  
to the C:\9740> prompt.  
2. At the DOS prompt, enter  
the TIME command. The dis-  
play should be similar to that  
shown in Figure 22.  
3. Enter a time using the time  
format displayed on the DOS  
screen xx:xx:xx:xx (a or p for  
AM or PM, respectively).  
NOTE: The best way to pre-  
pare for the synchronization  
process is to start the proce-  
dure just before the top of the  
hour, set your new time value  
to equal it and then wait for your  
reference time to approach that  
time and, when it does, press  
the ENTER key, synchronizing  
system time with RTC time. See  
the sample DOS screen repre-  
sentation in Figure 22.  
4. Use an RTC time acceptable  
to you as a reference (this  
may be an accurate digital watch, or, more than likely, a call on your phone to a local time  
reference). When the top of the hour is reached by the RTC, press the ENTER key on  
your keyboard.  
5. Proceed to the C:\9740 directory, if not already there. DO NOT REBOOT IN ORDER  
TO GET BACK TO THE DIAGNOSTIC SCREEN. This would interfere with the time  
setting you just made to the system clock.  
6. While in the C:\9740 directory, invoke the system executable using the configuration  
file name obtained earlier with the Alt + L key combination. Assuming a file name of  
TEST, the command line would look as follows:  
C:\9740>CM9740 TEST  
This starts the system executable and takes you to the diagnostic screen.The time you  
entered in step 4 will be displayed on all monitors in the system after initialization is  
complete.  
7. Twenty-four hours later, check the system time against the RTC time by comparing the  
time displayed on any monitor screen in the system against that of the RTC. Make a note  
of this difference in time.  
8. Repeat steps 1 through 6, ending up at the diagnostic screen (repeating steps 1  
through 6 synchronizes system time with RTC time again). This time, however, enter  
an ALT + L keyboard command in preparation for making an adjustment to system time  
based on your observation in step 7. The System box (System Error line) will read as  
follows:  
NOTE: Since system time is dis-  
played on Monitor screens in for-  
mat variations based on the (HH/  
MM/SS) format, you will never  
have occasion to enter adjust-  
ments in the hundredths of a sec-  
ond field in response to the ALT +  
L diagnostic command line screen.  
System : -Last Adj 0 : 0 . 0 Total 0 : 0 . 0  
Enter a time using the following format:  
MM : SS . HH [Minutes : Seconds . Hundredths of a Sec.] based on the time differ-  
ence between RTC and system time that was noted in step 7.  
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For example, if system time in step 7 had read 2:02.30 (2 minutes and 30 seconds after  
2 PM) at the time RTC time read 2 PM, then we know that system time, over the next 24  
hours, must be slowed by 2 minutes and 30 seconds to synchronize system and RTC  
time. To accomplish that, enter a negative (-) sign in front of the time differential that you  
enter. In this case, that would be:  
-02 : 30 . 00  
This subtracts 2 minutes, 30 seconds from system time over the next 24 hour time period  
so that when you compare system time with RTC time again, they should theoretically be  
equal. Be sure to use the above format.  
If you wish to refine the adjustments to your original effort, you can quit to the DOS screen,  
set RTC and system time to be equal to each other, invoke the executable for the diagnostic  
screen from the C:\9740 directory, and then use your original time adjustment (in our example  
-02 : 30 . 00) as a basis for entering a new time adjustment that differs incrementally from  
the original.That might work based on something like the following reasoning: Say that five  
days (five 24 hour periods of time) have passed and you again check system time against  
RTC time. This time you discover that over the five-day period, you are running 10 seconds  
slow, or, on average, 2 seconds slower for each 24 hours of elapsed time. This time you  
must change the original time adjustment by ADDING 2 seconds to the original, NEGA-  
TIVE time adjustment.  
In order to factor in the new adjustment, you should perform the following steps again, pref-  
erably, just before the top of the hour:  
1. Quit the diagnostic and revert to the DOS screen using Ctrl + Q.  
2. Invoke the DOS line commandTIMEto bring up current system time.  
3. Pre-enter your system time to read top of the hour time. For our example, continue to use  
2 PM as RTC time, so at the NEW TIME prompt on the DOS screen, you would enter:  
2:00:00.0p  
When RTC time reaches 2 PM, press the ENTER key, proceed to the C:\9740 direc-  
tory and invoke the system executable, which includes your global configuration file-  
name as an argument, (CM9740 TEST, for example) and boot to the diagnostic screen.  
4. At the diagnostic screen, issue the ALT + L key combination.  
5. On the command line, the following should appear:  
Last Adj -2 :30 . 0 Total -2:30 . 0  
6. Now enter in your refined time adjustment as a change to the last adjustment shown  
on the screen. In this example, you would enter the following:  
-2 : 28 .0  
that is, [(-2 : 30 . 0 ) + (00 : 02 . 0)] = -2 : 28 .0  
7. After pressing the ENTER key, the System box will read  
Last Time Adj -2:28.0 Total -4:58.0  
Subsequent adjustments, if necessary, can be made using the previous discussion as  
a guide.  
7.2.2 General Remarks Regarding System Time Adjustment  
We have just discussed setting and adjusting system time for single-node operation. How is  
this accomplished for other configurations?  
For a hot-switch configured node, the CC1s are synchronized through the intermediation of  
the hot switch. Setting or adjusting time on one CC1 will, when it is brought back online and  
put in synchronous mode, cause the time adjustment to be synchronized for both CC1s.  
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For multi-node situations, time adjustments are carried out utilizing the CC1 containing the  
NIU. The NIU, in turn, provides to the rest of the network the parameters for displaying sys-  
tem time. The time for the system is updated each minute by the NIU, which, of course, is  
initially adjusted to RTC by the user.If the NIU goes offline, each node reverts to its own in-  
ternal system time.  
7.3 CC1 SYSTEM INTEGRITY  
Right now, we want to cover one of the more important aspects of maintaining CC1 system  
integrity. Specifically, this deals with keeping the configuration sets that reside in the data-  
base of the MGR program and the configuration sets that exist in the C:\9740 directory on  
the drive of each CC1, synchronized. The configuration sets that exist in either location  
should be duplicates of each other.  
No system is static, changes will occur as equipment is added or moved, which means that  
the configuration files for the node on which this occurs may change. In many cases,  
changes to existing equipment may require an adjustment to the applicable configuration file  
that, in many cases, can be taken care of directly by using the dynamic update process  
available from within the MGR program itself. Of the eleven possible configuration files that  
can exist per node, seven can be dynamically updated. Those that can, are identified by the  
[Save & Send] bar tab, generally located in the lower left portion of each opened configu-  
ration file (the textual exception is the System configuration file which reads Save Send  
System Options). The Comms, V.Amp, Macro, and NIU files cannot be dynamically up-  
dated.  
Dynamic updates cause two potential problems that are easily remedied. The first, and more  
important problem, is the fact that a dynamic updates affect system integrity if you dont fol-  
low through with a procedure called Updating the Hard Drive.The second problem is  
caused by the solution to the first. Every time a hard drive update is invoked, you run the risk  
of losing your original file parameters because the number of updates you can perform are  
limited.We will discuss this process in the next few paragraphs.  
7.3.1 Dynamically Updating a Configuration File  
Refer to the Dynamic Update Block diagram (Figure 23), which shows the process that you  
should follow and what occurs every time you do an update to the system. It is very impor-  
tant to make sure that you maintain the synchronization between the configuration files that  
exist in the MGR database and the corresponding  
files that exist on the CC1 hard drive.  
Figure 23  
Configuration File Dialog Box  
Single-node and multi-node dynamic updates  
are processed exactly the same way.You first  
open the Configuration File dialog box and  
select the node (by highlighting) that contains  
the configuration file you wish to update.  
In single-node situations only one node will  
be represented unless you run different con-  
figuration sets at different times on the same  
equipment configuration. Refer to Figure 23.  
Click on the Setup Files bar tab which opens  
the tabbed set of configuration files for the  
node in question.  
As an example, we will do a sample update to  
the ident field in the monitor file. Click on the  
Monitor FileTab and perform the following  
steps:  
1. Make the desired change to the ident  
field of the Monitor file.  
2. Press the Save & Send tab bar lo-  
cated in the lower left portion of the  
monitor configuration file.  
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3. When the Save & Send bar tab is pressed, a splash screen appears and in the Sys-  
tem Window of the MGR program, the following message appears:  
DYNREQ Monitor code OK from Node 1  
4. If there are no more changes, close the Configuration dialog window. When you do,  
the following dialog box appears (refer to Figure 24).  
Figure 24  
Hard Drive Update  
5. Click on the Send Update Request bar tab.  
6. The System Window of the MGR program will report the following message:  
UPDT HardDrv Monitor File OK from Node 1.  
At this point you are finished with the dynamic update of your Monitor configuration file. You  
have saved the changes to the configuration file to the MGR database and you have also  
updated the corresponding configuration file on the node in question; therefore, system in-  
tegrity is preserved.  
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One more aspect of dynamic updates must be considered. Whenever you click on a Send  
Update Request, the following happens (lets stay with the same example):  
a. First of all, the original TEST.MON file, which existed in the C:\9740 directory on  
the hard drive of the CC1 whose configuration set we are changing, is not lost,  
but is saved under the new file name of TEST.MO0.Refer to the Dynamic Update  
/
Block Diagram.The change to the TEST.MON file we made when we sent the Up-  
date Request now occupies the file by that same name.  
b. Subsequent update requests to the Monitor file will result in the same scenario  
being played out. TEST.MO0 will move to TEST.MO1, TEST.MON will move to  
/
TEST.MO0 and our latest update will now occupy TEST.MON. Each time we  
press the Update Request bar tab, the information for the new file will occupy the  
TEST.MON file and the old file information will be saved to a file of a different  
name. This process, however, does not continue forever.  
Any TEST.MON updates after TEST.MO2 is filled will cause the original TEST.MON  
file we started with to be lost forever.Therefore, if any of the previously displaced  
configuration information is important to you and you wish to save it, then you  
should rename the applicable file from TEST.MO0/, .MO1 or .MO2 to some other  
name and save it to another directory or archive it on disk.  
Figure 25  
Dynamic Update Block Diagram  
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8.0 TROUBLESHOOTING/COMMON PROBLEMS  
In the tables below, some of the more common problems associated with CC1 power up,  
initialization, and operation are shown. For many of these, we also list possible causes  
and solutions.  
Problems with the CC1 may occur in the following areas:  
The CC1 itself.  
Setup files (also known as configuration files or flat files).  
Peripheral Devices connected to the CC1.  
The DOS operating system.  
It is important that a log be kept of all changes made to the system whether they be hard-  
ware or software related. The commentary should document the change made, why it was  
made, the date it was made, and the person responsible for the change.That way it will be  
easier to backtrack if errors occur. It also makes it easier to separate errors caused by the  
last recorded change from other types of errors, whenever one occurs.  
Table B lists some common CC1 equipment errors.  
Table C lists some common CC1 initialization problems.  
Table B  
CC1 Hardware Errors  
Symptom  
Possible Cause  
There is no AC power to the unit.  
Fuse has blown.  
Corrective Action  
Check power cord connection.  
Replace fuse.  
Green Power LED not lit  
No VGA display  
Video cable is not seated.  
Power cord not plugged in.  
VGA card is bad.  
Reseat cable.  
Plug in cord.  
Replace card.  
Table C  
CC1 System Errors  
Symptom  
Possible Cause  
Corrective Action  
Port x ERR Coms Framing  
Mismatched baud rate (actually, after  
initialization and Setup Completethe  
diagnostic line would first report Port x  
ERR Coms Parityfollowed by the  
Framing error message.  
Correct the Comms file baud rate  
settings to match those of the equipment  
it is attached to.  
Port x ERR Coms Fatal  
Port x ERR Coms Parity  
Port x ERR Coms Max Retry  
Failure of Comms line after power up  
and initialization.  
Check and correct hardware fault.  
Mismatched parity entry in the Comms  
file.  
Correct the Comms/configuration file for  
correct settings.  
If the communications line is faulty (mis-  
wired or not seated, for example), then,  
on initial power-up, the diagnostic  
screen will indicate this error message.  
If the communication line goes bad after  
power-up and initialization, then a Port x  
ERR Coms Fatal error will occur  
followed by a Port x ERR Max Retry  
message.  
Check and correct the hardware fault.  
Temporary communications fault.  
Noise on the data line.  
Fault will automatically be corrected  
when communications resume.  
Check data cables.  
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APPENDIX I INSTALLING THE MGR PROGRAM  
The reason the installation of the MGR program is reiterated here is that the 9740 DOS executable on the CC1 and the Windows® 95  
based MGR program interact. If an external PC containing the MGR program is connected to a COM port on the CC1, the CC1 will  
report operational activity to the MGR program where it can be viewed by the operator in the MGR system window. Conversely, the  
operator of the system can, through the MGR program, change many of the configuration files of the 9740 online operational pro-  
gram via dynamic on the flyupdates.  
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APPENDIX II DOS ENVIRONMENT AND COMMAND  
REFERENCE  
DOS is an acronym for Disk Operating System. Every time you turn on  
the CM9740-CC1 or every time you reboot (Alt + Ctrl + Delete), the  
computer loads DOS from disk (the CC1s drive) into memory (RAM).  
Once loaded, DOS lets you run other programs, in particular, the  
CM9740.EXE program, which is located in the C:\9740 directory of the  
CC1. On factory-produced systems, the boot process doesnt end at a  
basic system prompt (C:\ > ), as would be the case for a normal PC.  
Instead, the process ends either at the C:\9740> prompt, or else the  
boot process loads and executes the CM9740.EXE program. The rea-  
son for this, in both instances, is the result of autoexec.bat file configu-  
ration. Well examine the details of autoexec.bat configuration, but first,  
lets look briefly at the highlights of the boot process and how the  
autoexec.bat file is invoked in the first place.  
IMPORTANT NOTE  
Generally speaking, the CM9740-CC1 that you or-  
der is configured in one of two ways and depends  
on whether the CC1 exists as part of a system or-  
der or whether it has been purchased as a stand-  
alone unit.  
If the CC1 is configured as part of a system, flat  
files are created for the system configuration ac-  
cording to customer ordered criteria and placed in  
the 9740 directory on the CC1 hard drive. The  
AUTOEXEC.BAT file is configured to call the  
CM9740 executable program at the end of the DOS  
boot process instead of reverting to an onscreen  
system prompt.The result is that, at the end of the  
boot process, the 9740 diagnostic screen should  
appear on your monitor. Assuming you have cor-  
rectly connected and configured all of the equipment  
attached to the CC1, aSetup Completemessage  
appears in the System Window of the diagnostic  
screen.  
M The Boot Process  
The following process occurs when the CC1 is turned on or is  
rebooted:  
1. If turned OFF and then turned ON, the CC1 goes through a power-  
on self-test (POST). Here the computer essentially examines its  
electronic components.  
2. The computer looks at drive A for a DOS system disk. If one is not  
there, the CC1 will load DOS from its hard drive.  
3. This process looks for two hiddensystem files: IO.SYS and  
MSDOS.SYS. If these files are not present, DOS displays the fol-  
lowing error message:  
CC1s purchased as stand-alone units differ in that  
there usually is not enough information with respect  
to where or how the unit is to be used; therefore,  
the factory cannot create flat files for the unit. With-  
out flat files, no reason exists for altering the  
autoexec.bat file to invoke the 9740 executable;  
the flat files the executable needs dont exist. The  
result of the DOS boot process, in this case, is sim-  
ply an on-screen system prompt. It then becomes  
the users responsibility to create flat files, load them  
into the 9740 directory and appropriately alter the  
autoexec.bat file for the boot process to call the  
executable. All the information you need to accom-  
plish this is contained in this and the rest of the sys-  
tem manuals.  
Non-System disk or disk error*  
(The CC1 will also display this error during the boot process if  
youve left a floppy disk in your A drive that has no system files).  
4. If the hiddenfiles are present, IO.SYS loads first and executes.  
An initialization program called SYSINIT contained within IO.SYS  
reads in the MSDOS.SYS file; SYSINIT next locates the  
CONFIG.SYS file and executes its files in order for it to configure  
itself in memory. Then SYSINIT locates and invokes  
COMMAND.COM.If SYSINIT cannot find COMMAND.COM, DOS  
will display the following error message:  
Bad or missing Command Interpreter**  
*
The error listed in step 3 should not occur with  
respect to the hidden system files as these were  
put on the hard drive when it was configured at  
the factory. If you see this error during the boot  
process, you probably have a disk in the A:drive.  
5. If SYSINIT finds and loads COMMAND.COM, it, in turn, searches  
your root directory for the AUTOEXEC.BAT file.If it exists,  
COMMAND.COM will cause the AUTOEXEC.BAT file to execute.  
If AUTOEXEC.BAT doesnt exist, the DATE andTIME commands  
will be invoked by COMMAND.COM. After entering date and time  
information, the basic system prompt (C:>) appears.This com-  
pletes the startup or boot process.  
** Since COMMAND.COM is not a hidden file, its  
possible that it could accidentally be moved,  
corrupted, or erased. If this occurs, you may  
need to start DOS from a floppy disk and COPY  
COMMAND.COM into the CC1s root directory.  
You cannot separate the boot process from CC1 initialization. The DOS  
boot process must succeed before the CM9740.EXE program can run.  
The result of the DOS initialization process is that you are either sitting  
at a system prompt on a DOS screen or, as part of the boot process,  
the CM9740.EXE program has been invoked. In the latter case, the  
System Window of the diagnostic screen will read Setup Complete”  
if everything initialized OK; otherwise, an applicable error message  
should appear.  
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M A Closer Look at AUTOEXEC.BAT and  
the BOOT Process  
The AUTOEXEC.BAT file is the last file called during the boot process as described in the  
previous section. For CC1s configured as part of a system node at the factory, the end re-  
sult of this process is the appearance of the CM9740 diagnostic screen on the attached  
monitor instead of what one would normally expect to seethe system prompt.  
The factory-configured boot process occurs because of the  
instructions added to the AUTOEXEC.BAT file. The  
AUTOEXEC.BAT file is a batch file, which contains a series  
of instructions that are executed serially when the file is  
called. Figure 26 is a sample autoexec.bat file.  
Figure 26  
Sample AUTOEXEC.BAT File  
Invoking the CM9740 Executable  
Focus on the last two instructions or commands in Figure 26.  
Here is what they do.The command CD 9740directs DOS  
to the 9740 directory where the 9740 executable resides.  
The last command starts the executable and directs the pro-  
gram to load into memory all flat files having the collective  
prefix name of test(also located in the same directory). The  
program continues to configure the system environment and  
goes online. If everything is OK, the Setup Completemes-  
sage appears on the CM9740 diagnostic System Window on  
the attached monitor.  
NOTE: The prompt command line in the figure above con-  
tains what are called metacharacterswhich tell the  
PROMPT command what to display when these charac-  
ters are encountered. If the last two lines of the file above  
didnt exist, the end of the boot process would be the sys-  
tem prompt. The system prompt displayed would depend  
on themetacharactersused with the PROMPT command.  
In the example above, the characters have the following  
meanings:  
If you change the name (the prefix) of your current flat files  
or copy a new set of flat files (with a different name) to the  
9740 directory, then your AUTOEXEC.BAT file must be  
changed to correspond. Otherwise, the CM9740.EXE will not  
execute properly. To effect the change, you need to edit the  
autoexec.bat file and change the old flat file name (in Figure  
26, the old flat file name would be test) to the new name;  
save the file and reboot. On the other hand, if you were to  
delete or REM outthe last two entries (if you type in the let-  
ters REM at the beginning of a line, the line is ignored when  
the program executes) in the AUTOEXEC.BAT listed in Fig-  
ure 26, save the file and reboot, you would arrive at a basic  
system prompt and not call the executable at all. Then, in or-  
der to start the CM9740 executable, you would have to  
manually navigate to the 9740 directory and type in  
$t means display current time  
$d means display current date  
$p means display current directory  
$g means display thegreater thancharacter, >.  
CM9740 test to activate the diagnostic program.  
As a result, the system prompt would look some-  
thing like the following:  
File Names and DOS  
Keep in mind the eight-character limit imposed by DOS on  
file names. If you issue a command to change the name of  
the flat files in the 9740 directory to one exceeding eight  
characters, the name will be truncated. No problem arises  
12:29:22.23 Fri 02-19-1999 C:\ >  
when creating flat file names using the Win95-based 9760-MGR program as it does not al-  
low you to use more than eight alphanumeric characters when creating a global name for  
your flat files or configuration set.  
DOS Commands  
DOS commands are divided into two groups.Because of their large number, only those  
used most often are loaded into memory (RAM). The rest reside in the DOS directory.  
The former commands are called internal and the latter are called external commands.  
Whenever DOS comes across a command to act upon, it looks first in RAM, then it looks in  
the DOS directory, and then it looks in the directory from which the command was issued.  
Nothing is wrong with this unless you try to invoke an executable type file that isnt in any  
one of those places. Instead, you are forced to navigate to the directory in which the execut-  
able file is located. Putting a PATH command statement into the AUTOEXEC.BAT file avoids  
having to do this.  
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The PATH Statement  
The PATH statement causes DOS to look in each of the directory paths listed there for any  
executable [.EXE, .COM or .BAT file] its instructed to carry out. The syntax of the PATH  
statement is as follows:  
PATH = { [drive:]path; [drive:]path; [drive:]path..] }  
Example: PATH=c:\;c:\dos;c:\windows  
(We included spacing in the syntax statement to make it easier to see  
the elements that make up the path statement. In actual use, spaces  
are not allowed, as the example demonstrates.)  
Semicolons separate drive-path statements.There are no spaces. The complete drive path  
must be given for each directory you wish to include in the search. The search is for files  
with .EXE and .COM extensions only.An additional note: if the executable you call, in turn,  
issues a call for a non-executable file (that is, one without an .exe or .com extension), then  
the PATH statement doesnt apply.Instructions for using the executable must tell you either  
where to place needed non-executable files or the executable itself must provide the means  
whereby the file can be found. DOS will not look for these files.  
You might think that inserting the directory path for the CM9740 executable file into the  
PATH statement would be a good thing to do, but it will not work.The CM9740 executable,  
at one point, needs to use a non-executable file that always resides in the C:\9740 direc-  
tory.If you invoked the CM9740 executable from any directory location other than the  
C:\9740 directory, the executable wouldnt finish successfully because CM9740.EXE ex-  
pects to find the file residing in the same directory that its in. If you manually invoke the  
command (CM9740 test) while in the C:\9740 directory, the executable works OK. Some-  
times, you actually need to do this. However, in most cases, you reboot to let changes to  
flat files take effect and the result is that, by default, DOS boots to the root directory. That is  
why the CD command to switch to the 9740 directory is included in the AUTOEXEC.BAT  
file. If you used the PATH command statement alone, the CM9740.EXE would be found,  
but the other non-executable file needed to finish the process would not be found and sys-  
tem initialization would fail.  
M Navigating the DOS Directory Tree  
Whenever you exit to DOS on the CC1, you will normally be at the following screen prompt:  
C:\9740>  
While in the directory, you may manipulate any file there or you may navigate to any  
subdirectory contained in that directory.  
To navigate to a subdirectory of the 9740 directory, use the following syntax:  
NOTE: In DOS, the \ symbol  
when used alone refers to the  
root directory.The ..symbol re-  
fers to the parent directory. The  
action performed in the example  
where we issued the CD (change  
directory) command in conjunc-  
tion with the ..symbol moved  
us from the current directory to  
the directory immediately above  
the one we were in; that is, the  
parent directory.  
C:\9740> CD [subdirectory name] [ENTER]  
For example, if a 9740 subdirectory had the name BKUPTST, your entry would read as fol-  
lows:  
C:\9740> CD BKUPTST [ENTER]  
which puts you at the screen prompt in the BKUPTST directory:  
C:\9740\BKUPTST>  
Once there, files within the directory can be manipulated. The key entries used to backtrack  
on the directory tree depend on where you want to go. From the BKUPTST directory, you  
either can go back to the root directory with one single key entry or you can go in steps,  
one directory at a time. To proceed directly to the root directory, enter the following:  
C:\9740\BKUPTST> CD\ [ENTER]  
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The\ symbol, when used alone represents the root directory; otherwise it indicates sepa-  
ration of various levels of the directory tree, collectively known as the directory path.  
The result of the above entry takes you directly to the root directory and the following  
screen prompt:  
C:\>  
To backtrack one directory at a time, enter the following at the system prompt:  
C:\9740\BKUPTST> CD.. [ENTER]  
The result of that key entry is as follows:  
C:\9740>  
If you enter the same command again (CD..) at the C:\9740> prompt and press the ENTER  
key, you would finally end up again at the root directory as was previously done.  
To proceed directly from the directory you are in to another directory, no matter where in the  
directory tree you are, enter the total directory path of the location you wish to go to at the  
system prompt. For example, if you are in the root directory and wish to proceed to the  
C:\9740\BKUPTST directory, then use the following syntax:  
C:\> CD [directory path] [ENTER]  
Enter the desired directory as follows:  
C:\> CD C:9740\BKUPTST [ENTER]  
The result would be a change to  
C:\9740\BKUPTST>  
M Manipulating Files in the DOS Environment  
The safest way to manipulate files is to do so from within the directory in which those files  
are located. There are two reasons for this:  
(1) If you enter a DIR command at the directory prompt, the names of the file(s)  
you wish to manipulate are on the screen.This reduces the risk of making  
simple mistakes, such as entering an incorrect file name as part of an erase  
command, for example.  
(2) When using commands directed at file manipulation, the format of the com-  
mand requires that the command name be listed first, followed by the file  
name to be acted upon. If you issue a command for a file that is in another  
directory, then you must enter the complete directory path where that file is  
found in addition to the name of the file at which the command is directed.  
The command formats (COPY, MOVE, RENAME, DELETE, and so on) for the most com-  
monly used commands are covered through associated examples in Table D on the next page.  
Using the Wild Card Character  
The most commonly used wild card character recognized by DOS is the asterisk [ * ].  
The asterisk can be used effectively as a placeholder to collectively coral large groups of  
files which are going to be acted upon by the same DOS command.The asterisk helps you  
specify character positions that are of the dont caretype in file names. When DOS en-  
counters the asterisk, DOS ignores the characters in the position containing the wildcard as  
well as all the characters that follow it.  
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The flat files used by the CM9740-CC1 are a prime example of how the wildcard can be  
used.  
Example 1 To copy flat files from the A floppy drive to the 9740 directory on the CC1  
hard disk:  
Change to the A: directory and use the following syntax at the A prompt:  
A:> copy [flat file name].* [destination] [ENTER]  
For example, if the filename prefix for the flat files is TEST, the command line would look as  
follows:  
A:> copy TEST.* C:\9740 [ENTER]  
Example 2 To move flat files from the 9740 directory to another directory (previously cre-  
ated) for, say, archiving purposes:  
From the 9740 directory, use the following command syntax to move the files:  
C:\9740>copy [source] [destination]  
Since you are already in the 9740 directory, the source portion of the command consists of  
just the file name(s) to be moved. The destination contains the path to the directory where  
the files are to be moved to (assume a destination directory named archive and the same  
flat file prefix name of TEST). The command line would read as follows:  
C:\9740>copy TEST.* C:\archive  
MMDOS Reference Directory  
The following is a Command Reference Directory of the most common DOS commands that you are most likely to use when operat-  
ing the CC1. This list, along with the HELP command reference that resides on the CC1 hard disk itself, should provide you with  
more than enough working information on DOS.  
Table D  
DOS Command Reference Directory  
COMMAND  
EXAMPLE(s)  
SWITCHES  
COMMENTS  
CD  
C:\>CD  
Displays the name of the current directory or  
changes the current directory if specified (and if  
the directory specified exists).  
C:\>CD 9740  
Changes to the 9740 directory.  
CLS  
C:\>CLS  
If you want to clear a full screen display, the Clear  
Screen command will do it. It clears the screen to  
just the command prompt and the cursor.  
COPY  
C:\>COPY [source] [destination]  
Copies one or more files to the location you  
specify. Source specifies the location and name  
of a file or set of files. Source can consist of a  
drive letter and colon, a directory name, a  
filename, or a combination of files you want to  
copy. Destination specifies the name and  
location of a file or set of files to which you want to  
copy. Destination can consist of a drive letter  
and colon, a directory name, a filename, or a  
combination of both.  
C:\>COPY A:\TEST.* C:\9740  
C:\>COPY A:\*.* C:\9740  
C:\>COPY A:\TEST.MON C:\9740  
When more than one file is copied, MS-DOS  
displays each filename as the file is copied.  
(Continued on next page)  
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Table D  
DOS Command Reference Directory (Continued)  
COMMAND  
EXAMPLE(s)  
SWITCHES  
COMMENTS  
DEL  
C:\>DEL C:\9740\TEST.MON  
C:\>DEL A:TEST.MON  
C:\9740>DEL TEST.*  
Deletes the file or files you specify. You must  
include the location (if other than your current  
location) and name of the file or set of files you  
want to delete.  
C:\9740>DEL TEST.* /P  
/P  
Prompts you for confirmation before deleting  
each file.  
DIR  
C:\>DIR  
Displays a list of files and subdirectories that are  
in the directory you specify. When you use the DIR  
command without switches, it displays the disks  
volume label and serial number, one directory or  
filename per line, including the filename extension,  
size, date and time the file was last modified; the  
total number of files listed, their cumulative size  
and free space left on the disk.  
C:\>DIR/W  
/W  
/P  
Displays the listing in wide format, with as many  
as five filenames or directory names on each line.  
C:\>DIR/P  
C:\>DIR/W/P  
Displays one screen of the listing (in whatever  
format) at a time.Its useful to use these switches  
when looking at the contents of the DOS  
directory.  
This switch will look for all instances of the  
filename in all directories.  
C:\ >DIR {filename} /S [syntax]  
/S  
In the example the location of all file names  
having the .mon extension will be found and  
displayed.  
example: C:\ >DIR *.mon /S  
EDIT  
C:\>EDIT AUTOEXEC.BAT  
C:\>FASTHELP  
Starts the MS-DOS editor, a test editor you can  
use to create and edit ASCII text files.The  
example shown would load the autoexec.bat file  
for editing.  
FASTHELP  
Lists and briefly describes every command  
provided with MS-DOS.This list is much less  
detailed than the list you get using the HELP  
command.  
C:\>FASTHELP DIR  
Specifies the name of the command that you  
want FASTHELP to give information about. In this  
example: DIR.  
FORMAT  
HELP  
MD  
C:\>FORMAT A:  
Formats a disk for use with MS-DOS.  
C:\>FORMAT A:/S  
/S  
Transfers system files to the formatted disk.You  
can boot from the floppy of a disk formatted using  
this switch.  
C:\>HELP  
Starts the MS-DOS command reference located  
on the CC1s hard disk.  
C:\>HELP DIR  
C:\>MD 9740  
Specifies the command whose help topic you  
want to display. In this example: DIR.  
Creates a directory.The example creates a 9740  
directory.  
(Continued on next page)  
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Table D  
DOS Command Reference Directory (Continued)  
COMMAND  
EXAMPLE(S)  
SWITCHES  
COMMENTS  
MORE  
C:\>DIR C:\DOS MORE  
Displays one screen of information at a time.Can  
also be used with theTYPE command when  
viewing a long text file. The symbol is called a  
redirection operator. On the keyboard, it is located  
above the backslash \ symbol.  
PATH  
PATH=C:\;C:\dos;C:\windows  
Indicates which directories DOS should search for  
executables. By default, DOS searches just the  
current directory.  
RENAME or C:\>RENAME C:\9740\TEST.*  
Changes the name of the file or files you specify.  
Specify the name and location of the file or files to  
be changed.The last part of the command  
specifies the new name.You cannot specify a new  
drive or path.  
REN  
TESTALL.*  
C:\>REN C:\9740\TEST.* TESTALL.*  
TYPE  
C:\>TYPE C:\9740\TEST.MON  
Displays the contents of the text file you specify.  
You must specify a directory path if the location of  
the file is in a directory other than the one you are  
in.  
C:\>TYPE C:\9740\TEST.ALM  
MORE  
MORE  
Here the MORE redirection operator is used to  
enable us to view the alarm file (usually quite  
long), one page at a time.  
UNDELETE C:\>UNDELETE C:\9740\TEST.BAT  
C:\>UNDELETE C:\9740\ /LIST  
Restores files that were previously deleted using  
the DEL command.  
/LIST  
/ALL  
Lists the deleted files can be recovered, but does  
not recover any files.  
C:\>UNDELETE C:\9740\ /ALL  
Recovers deleted files without prompting for  
confirmation on each file.  
RMDIR or  
RD  
C:\>RMDIR NETWORK  
Deletes or removes a directory.Before the  
directory can be deleted, it must contain no files  
or other subdirectories. The directory must be  
completely empty except for the . and . . ”  
symbols.  
C:\>RD NETWORK  
VER  
C:\>VER  
Displays the current version of DOS on your  
machine.  
TREE  
C:\> TREE  
Displays the directory structure of all the  
directories on your hard drive if it is issued while  
in the root directory; otherwise, it will display only  
the subdirectories of the directory you are  
currently in.  
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APPDENDIX III MGR WRITE UTILITY  
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APPENDIX IV MGR READ UTILITY  
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APPENDIX V REMOVING AN EXISTING MGR PROGRAM  
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APPENDIX VI EDITING THE AUTOEXEC.BAT FILE  
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APPENDIX VII EXERCISES  
The Directory Structure of the CC1 Exercise I  
Take the CC1 that came with your order and hook it up according to the illustration in Figure 27.  
Figure 27  
CC1 ConnectionsExercise I  
When finished, your hook-up should look something like that illustrated in Figure 28.  
If this looks a lot like a standard PC setup to you, youre right, it is.  
The CC1 is a CPU that has been designed and adapted for the singular purpose of operat-  
ing a CCTV matrix system.  
All you are going to do right now is look at the directory structure of the hard drive on the CC1.  
Do the following:  
1. Plug in the power cord for the monitor.  
2. Turn on the monitor.  
3. Plug in the power cord for the CC1.  
Figure 28  
CC1 SetupFinal  
It is not necessary to understand what happens next. Because flat files are pre-  
configured for your system and installed at the factory, the CC1, when turned on,  
tries to operate just as if it were connected to all the equipment described by the  
information contained in the configuration files (flat files). These flat files are located  
on the hard drive along with the system executable. When the CC1 is turned on  
and boots, the 9740 system.exe loads and executes. In the process, it reads in all  
the system flat files. On the monitor, there appears what is called a diagnostic  
screen. There is a lot of activity taking place, especially in the System box at the  
bottom of the screen. Eventually diagnostic screen activity ceases. Ignore every-  
thing, including error messages. Dont be concerned about them.  
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Next, hold the CTRL key on the keyboard down and, at the same time, press the Q key.***  
This action exits the System 9740 program and the associated diagnostic screen and takes  
you to the following DOS prompt:  
***Using the CTRL + Q key com-  
bination is also the proper  
method for exiting a fully op-  
erational system that is online.  
C:\9740>_  
You should arrive at this prompt using any CC1 received from the factory as part of any  
new system configuration. There may be date or time information associated with the  
prompt, but a flashing cursor should be located just to the right of the [ > ] symbol in the DOS  
prompt, as indicated in the prompt shown above.  
At the prompt, type the letters CD, immediately followed by a backslash [ \ ]. This looks as  
follows:  
C:\9740> cd\  
Next, press the ENTER key.You should now see:  
C:\ >  
This is called the root directory. It is the starting point for discussing the directory structure  
of the CC1. That discussion is laid out in the following sections of this Appendix. Follow the  
discussion, which takes you through the entire directory structure of the CC1 and discusses  
the primary contents of each. At the same time, verify for yourself that what is discussed  
applies to the CC1 with which you are performing the exercise.What you learn there is ap-  
plicable to any CC1 within this or any system configuration. When you are finished,  
unplug the unit.  
Preliminaries Exercise I  
IMPORTANT NOTE: The executable for  
the System 9740 resides on the CM9740-  
CC1.This is NOT aWindows environment;  
it is a DOS environment. However, if instal-  
lation and initialization go well, you may in-  
terface, on a limited basis, with the System  
9740via the Windows-based MGR program,  
and dynamically update certain operating  
files. Even so, you must understand that if  
CC1 initialization goes awry, or if  
problems with respect to the CC1 or  
any of the files it contains occurs,  
then a large part of your working en-  
vironment will be the DOS ENVIRON-  
MENT until those problems are fixed.  
Whether or not the CC1 you receive is part of a system order or is a stand-  
alone unit (ordered as a replacement for an existing unit or an upgrade unit),  
the system executable resides on thedisk of the CC1 and operates in a DOS  
environment.Therefore, as pointed out in the note to the left, if problems arise,  
you will be working in a DOS environment. A basic knowledge of DOS and  
its structure as well as a familiarity with the more commonly used DOS com-  
mands** is required for you to manipulate files and/or fix problems.  
Additionally, it is important to become familiar with the directory structure of  
the CC1 itself so that you can work there comfortably and safely. To ensure  
this happens, you should become conversant with the following items:  
1. The location of important files and programs on the CC1.  
2. The order of the boot process, how it works using factory default en-  
tries, and what you can do if you want to make changes to it.  
** For those not acquainted with DOS, a quick  
reference on the DOS environment and ba-  
sic DOS commands exists in the DOS Com-  
mand Reference located in Appendix II.  
3. Where the flat files that contain the information used by the executable  
to run your system are located (whether installed at the factory or put  
there at some point by you).  
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Directory Structure Hands-On Exercise II  
Figure 29  
CC1 Directory Structure  
Figure 29 is a sample directory tree which represents the file structure of the  
CC1. Pay no attention to the VGACAP directory and its CAPS subdirectory. It  
doesnt exist on your hard drive.Its an extraneous DOS screen capture utility  
that was used for capturing some of the figures you see in this manual.  
The tree command gives you a directory path listing of all the directories on  
the hard drive as long as it is issued while you are in the root directory. Just  
type in the word tree(minus the parentheses) after the [ > ] prompt. Refer to  
Figure 29.  
If there are other files that are part of the root directory, they wont appear un-  
less you issue a directory command (dir). If you issue the directory command  
while in the root directory, you will again get a listing of all the directories on  
the hard drive.However, you will also get a listing of any other files that are  
within the root directory.In general, the directory command will list all subdirecto-  
ries and files that exist within the directory from the directory in which the com-  
mand was issued. Figure 30gives a listing of files and directories found when  
the dir command is issued from the root directory (enter dir just like you did for  
tree).  
Figure 30  
Root Directory  
Root Directory  
Notice that in addition to what amounts to an expanded directory listing just  
like that obtained using the treecommand, there are now listed all of the files  
that are part of the root directory. Of special significance (with respect to the  
boot process and also part of CC1 initialization), are the autoexec.bat and  
config.sys files.Well come back to them later. First, focus on the 9740 direc-  
tory.With respect to CC1 file maintenance, this directory is the most important  
of those listed. It contains your current flat file configuration as well as the ex-  
ecutable for the system [CM9740.EXE]. If you navigate to that directory and  
open it you should see something like the listing in Figure 31.To get there, do  
the following (type in what you see in bold letters):  
From the root directory,  
C:\> cd 9740 [press the ENTER key]  
Figure 31  
9740 Directory  
RESULT:C:\9740> (takes you to 9740 direc-  
tory)  
Next, invoke the dir command as follows:  
C:\9740> dir [press the ENTER key]  
Alternately, dir/w displays the file listing in  
columns across the screen.  
RESULT: Figure 31  
CM9740. EXE  
This is THE executable for the operational program that  
handles all tasks related to 9740 matrix system operation.  
The DOS program that calls the CM9740 executable is  
normally configured at the factory such that if (1) all  
equipment has been configured and attached to the CC1  
and that (2) all flat files corresponding to the equipment  
hook-up exist in the CM9740 directory, then when the  
system is turned on, the CM9740 program will execute, and  
load the information in the flat files for system operation.  
We shall cover how and why this takes place; in what order  
this take place, and other aspects of successful CC1  
initialization and operation in the upcoming sections of the  
manual.  
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9740 Directory  
Flat Files  
Note that in addition to the previously mentioned CM9740.exe, which is the system ex-  
ecutable, there are a group of files, all of which have a common TEST prefix.These are  
the flat files that the system program uses to configure the system for operational mode.  
The suffixes on the TEST files tell you what type of file it is. These flat files are generated  
using the write file utilitywithin the CM9760-MGR program that resides on an external  
PC, which normally is connected to the CC1.  
These files reflect the specific configuration of your system node and, for most systems,  
were created at the factory during the time the system was put together and checked out  
prior to shipment.  
Those of you already familiar with flat files will notice that there are only 7 flat files listed  
here out of 11 possible.Why this occurs is for the following reasons:  
1. When the CM9760-MGR program* is used to create the files represented by the  
tabbed folders for the different configuration files for your system, you program  
only those files needed for your specific configuration. In this example, the only  
devices in the system were cameras, monitors, a matrix bay, keyboards and a re-  
lay unit; therefore, the programmed information files reflect just those files: Mes-  
sages [.msg] (optional), Macro [.mac] (we had no macros), and Video Amp [.idn]  
(no MDAs or associated equipment for producing idents).  
* Consult your CM9760-MGR  
manual (C547M) for detailed in-  
formation on programming sys-  
tem configuration files, more  
commonly referred to as flat  
files.  
2. However, when you use the Write utility** of the MGR program to write these flat  
files to disk, you will find that all 11 files are written out to disk by the utility.On closer ex-  
amination, though, you will find that the files for which you entered no information  
have a file size of 0 bytes. When you perform a wildcard [*] copy of all the TEST files  
to the CC1s hard drive, only those files containing information are read into the CC1  
database.  
** For information on how to use  
the CM9760 Write/Read utilities,  
consult Appendixes III and IV in  
this manual.  
Executables  
The main executable file in this directory (CM9740.EXE) is highlighted and discussed in  
Figure 31.  
DOS Directory  
More than likely, the version of DOS that exists on your  
machine is version 6.22 of MS-DOS. As expected, all the  
normal commands and programs associated with the MS-  
DOS environment are located here.  
Figure 32  
The DOS Directory  
You cannot be online to access any of these programs or  
files, which means you must first exit your program.Press-  
ing the Ctrlkey and the Qkey at the same time will exit the  
program and take you to the familiar on-screen DOS  
prompt, which, more than likely, appears as follows:  
C:\9740>  
To use any of the programs or files located within any  
DOS directory, you must be within that directory. A work-  
around to this requirement exists if the name of the direc-  
tory in question is included as part of what is called a  
path statement in your autoexec.bat file (refer to Ap-  
pendix II for more information). At present, you need to  
navigate to the DOS directory.Type in the following [entries  
in bold] at the onscreen prompt and press the ENTER key:  
C:\9740> cd c:\dos [ENTER]  
or alternately, you can get there by navigating first to  
the root directory by typing the following:  
C:\9740> c:\ or C:\9740> cd. . [ENTER]  
(yes, thats cd, dot, dot)  
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and then change to the DOS directory by typing the following:  
C:\> cd dos [ENTER]  
In either case, you will arrive at the DOS directory and the on-screen prompt will as follows:  
C:\DOS>  
At the DOS directory, again invoke the dir command.You may want to use the /w/p  
switches with the command. Refer to Appendix II on the use of switches with commands.  
The command would look like this: dir/w/p.  
HELP File  
The first program file of interest within the DOS directory is activated by typing in the  
word HELP at the C:\DOS onscreen prompt.This would be invoked as follows:  
C:\DOS>HELP [ENTER]  
As soon as the ENTER key is pressed, the program appears.This program is an exten-  
sive interactive help file for MS-DOS commands and their associated switches. Follow  
the on-screen instructions to use and exit the program. An abbreviated table of DOS  
COMMANDS pertinent to CC1 use is included in Appendix II.  
EDIT Command  
The EDIT command is used to bring up the MS-DOS editor, which is used to create or  
edit ASCII text files. For example, to create an ASCII text file named SAVETXT, use the  
following command syntax at the onscreen prompt:  
C:\DOS> EDIT filename [ENTER]  
(now substitute SAVETXT for filename)  
Your entry would be as follows:  
C:\DOS> EDIT SAVETXT [ENTER]  
The program loads.The filename you entered, SAVETXT, appears at the top of the  
screen. Text is entered on the main screen below. When the file is saved, it will be saved  
under the given name as an ASCII text file.  
You can also edit existing ASCII text files, such as the autoexec.bat file located in  
your root directory.Other than specific instances in the manual where certain changes to  
the autoexec.bat file are discussed, we suggest that you do NOT alter this file until you  
become familiar with the DOS environment.  
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TESTPORT Directory  
Figure 33  
The TESTPORT directory contains files that can be used to test  
whether or not the RJ-45 communication ports on the rear of the CC1  
are good. If you issue a dir command while in the TESTPORT direc-  
tory, you should see something like to the following:  
TESTPORT Directory  
The MGR and Your System Configuration Files (Flat Files)–  
Exercise II  
For the second part of this familiarization exercise, you need an external PC (equipped with  
a mouse) and a VGA monitor. By externalwe mean external to the CC1, since it is also a  
PC.You shouldnt use the CC1 for this exercise.You can, however, use the PC that you plan  
to use later for connecting to the CC1. However, any PC with Windows® 95 installed on it  
will do, even a laptop.  
IMPORTANT NOTE:  
If you already have an  
external PC with an ex-  
isting MGR program installed,  
we advise that you not use it to  
perform the second part of this  
exercise; rather, skip it alto-  
gether and proceed with the rest  
of the manual. Follow the in-  
structions for the installation  
phase of single- and multi-node  
systems with respect to CC1s.  
In the first two parts of this suggested exercise, you will to do the following:  
1. Load the MGR program onto the hard disk of the external PC.  
2. Once the program is loaded, use the MGR programs READ utility to read in your con-  
figuration files from a floppy disk.  
The reason for performing this exercise at all is to encourage those of you who are new to  
MGR operation the opportunity to explore the MGR program, and, at the same time, famil-  
iarize yourselves with the configuration files that define your system or, more precisely, that  
define a particular node in your system (each node in a multi-node system has its own set  
of configuration files). If you have only one CC1 in your system, then the phrase that we  
used configuration files that define your systemwould be appropriate. This setup and ex-  
ercise occurs in an isolated environment (you are not connected to the CC1) and youre  
working with a just a copy of your configuration files.The originals still exist on floppy disk  
and on the CC1 hard drive.You can learn a lot about your system setup and about 9740 op-  
eration without worrying about messing anything up.  
Loading the MGR  
To load the MGR program, follow the quick-start installation guide for the 9760MGR (just  
substitute 9740 wherever you see 9760 and remember that Windows 95 must be installed  
on the PC you use). For your convenience, a copy is located in Appendix I of this manual.  
If you follow the installation guide you should have no problems installing the MGR program.  
We are also assuming here that this is a clean install of the MGR program and that no pre-  
viously installed version exists on the PC.That being the case, you can ignore the warning  
step found about midpoint in the quick-start installation instructions.  
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Reading in Your Configuration Files  
After the MGR program is installed, a 9740MGR Pelco icon should appear on your desktop.  
If it is not there, look for the 9740MGR folder in the root directory of your C drive (refer to  
Figure 34). The 9740MGR application program will be located there.  
Double-click on the MGR icon and the MGR program starts.  
Now proceed with the following:  
Figure 34  
MGR Program Location  
1. Proceed to Section 2.3 of the 9760 MGR manual and follow the instruc-  
tions for logging on.  
2. Next, proceed to Appendix IV in this manual and follow the instructions  
there for reading in your configuration files (flat files) into the MGR pro-  
gram.  
3. One set of your flat files is located on the disk labeled System 9740  
Utility Disk(as a precautionary measure, you might use the Windows  
diskcopy command to make a copy of the utility disk and use the copy  
for the exercise rather than the original).  
4. Once the files are read in, click on the 9740 Setup files icon on the MGR  
program toolbar (refer to Figure 2-2 in the CM9760-MGR manual).  
This will bring up a Configuration Files Dialog box.  
5. Click on the rectangular Setup Files tab (refer to Figure 3-2 in the  
CM9760-MGR manual).  
6. This brings up the Windows Set9740 Setup Files  
Dialog Box. Each tab there is associated with a  
dialog box for various setup files. The information  
contained within the files comes from the files you  
loaded in step 2.That data is now contained within  
the associated tabbed dialog boxes for purposes  
of viewing, editing, etc. We suggest you proceed  
to Chapter 3 of the 9760 MGR manual and follow  
the discussions there about these tabbed setup  
files (monitor, camera, etc.) and try to relate the  
information given there to the information you  
loaded for your individualized configuration files.  
This will at least enable you to get a feelfor your  
own system configuration as well as introduce you  
to the use of one important aspect of the MGR  
program.  
7. When finished, just click on the Close button to exit  
the Setup files and then close out the 9740 System  
Manager just as you would any other Windows pro-  
gram.  
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9.0 SPECIFICATIONS  
ELECTRICAL  
Processor:  
CPU  
Clock Speed:  
133 MHz or better  
Memory:  
16 MB RAM  
Disk Drive:  
3.5-inch, 1.44 MB  
Hard Drive:  
16 MB  
Monitor Output:  
I/O Ports:  
VGA (VGA graphics card supplied, monitor is not supplied)  
16 RS-422 ports on two SerCom boards, expandable to 32  
2
1
1
1
1
RS-232 COM ports, COM 1 and COM 2  
Parallel printer port  
VGA output port  
PS/2 keyboard ports  
PS/2 mouse port (not supported at this time)  
Input Voltage:  
115-230 VAC~ @ 50/60 Hz  
750 mA  
Input Current:  
Power Consumption:  
90 watts  
Operating Temperature: 14° to 122°F (-10° to 50°C)  
MECHANICAL  
Mounting:  
Dimensions:  
Weight:  
19-inch rack mount  
19.00 (W) x 5.25 (H) x 19.5 (D) inches (48.26 x 17.78 x 49.53 cm)  
13.6 lb (6.17 kg)  
(Design and product specifications subject to change without notice.)  
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10.0 WARRANTY AND RETURN INFORMATION  
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:  
1. Model and serial number  
Exceptions to this warranty are as noted below:  
2. Date of shipment, P.O. number, Sales Order number, or Pelco invoice number  
3. Details of the defect or problem  
Five years on FT/FR8000 Series fiber optic products.  
Three years on Genex® Series products (multiplexers, server, and keyboard).  
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 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.  
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.  
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 Spectra®, Esprit®, ExSite, and PS20 scanners, including when used in  
continuous motion applications.  
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.  
Eighteen months on DX Series digital video recorders, NVR300 Series network video  
recorders, and EnduraSeries distributed network-based video products.  
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.  
One year (except video heads) on video cassette recorders (VCRs). Video heads will be  
covered for a period of six months.  
If you are located within the continental U.S., Alaska, Hawaii or Puerto Rico, send goods to:  
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).  
Service Department  
Pelco  
3500 Pelco Way  
Clovis, CA 93612-5699  
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 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. Pelcos 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.  
Pelco  
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  
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.  
South San Francisco, CA 94080 USA  
Phone: 650-737-1700  
Fax: 650-737-0933  
Pelco, the Pelco logo, Spectra, Genex, Legacy, Esprit, Camclosure, and PelcoVision are registered trademarks of Pelco.  
Endura, ExSite, and System 9740 are trademarks of Pelco.  
Windows is a registered trademarks of Microsoft.  
© Copyright 2001, Pelco. All rights reserved.  
REVISION HISTORY  
Manual # Date  
Comments  
Original version.  
Updated to include certification information.  
C1508M  
6/00  
C1508M-A  
02/01  
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