ManualPartNumberMN3128-00B
RoutingSwitch Instruction Manual
NVISION
NV3128
PrintingHistory
Copyright
AllRightsReserved
ModelNV3128Manual,Edition2 Printed in the U.S.A
Year2000WarrantyStatement
WarrantyStatement
Disclaimer
TechnicalSupport
FCCUSAComplianceStatement
EuropeanCommunityCEDeclarationofConformance
Telephone
ImportantSafeguardsandNotices
SymbolsandTheirMeanings
Warnings
Cautions
NorthAmericanPowerSupplyCords
InternationalPowerSupplyCords
Brown Line Blue Neutral Ground Earth Green or Green
with Yellow Stripe
TABLEOFCONTENTS
4. THEORY
Page
NV3128 RS-422A Machine-Control Data Switch
CHAPTER1GENERALINFORMATION
NV3128 RS-422A Machine-Control Data Switch
1.1 GENERAL
CHAPTER 1 - GENERALINFORMATION
NV3128 RS-422A Machine-Control Data Switch
1.2 ARCHITECTURE BACKGROUND
NV3128 RS-422A Machine-Control Data Switch
NV3128 RS-422A Machine-Control Data Switch
NV3128 RS-422A Machine-Control Data Switch
Because commands are broadcast on one balanced pair and responses received on another, the systems crosspoint count, wiring density and complexity are inherently double that of a video or audio router. Fig. 1.2 shows the two- level connection required to implement a route through a conventional data switch. To pass through the switch, the connection must be separated into two components the command, which travels from source to destination, and the response, which returns through the switch from destination to source. Cables are split such that transmitting pins from both machines are hooked to switch input blocks, and receivers to output blocks. Additionally, the router-control system must be highly specialized, for it now must address two connections with every connect command it issues
To further complicate matters, the sense of transmit and receive connections in many modern machines is switchable. That is, internal circuitry within the machine reassigns the interface pin assignments to allow it to operate in either controlled or controlling mode. Fig. 1.3 illustrates the physical pin swapping within each of two directly connected devices. On most units the changeover is a physical switch, but on some, such as the Sony D1 VTR, the pin flip is under software control. In either case, the traditional routing switch cannot adapt to a reversal of data direction, and thus severely compromises a systems flexibility. Referring again to Fig. 2, note that the physical connection fixes the operating mode - controlled or controlling - of the device. If pin pair 3/8 from a machine is connected to a router input, then that machine is a controlling device from now until someone gets out a crimping tool and rewires the connection
NV3128 RS-422A Machine-Control Data Switch
A SOLUTION
NV3128 RS-422A Machine-Control Data Switch
DYNAMIC PORTS
NV3128 RS-422A Machine-Control Data Switch
1-10
CROSSPOINTARCHITECTURE
NV3128 RS-422A Machine-Control Data Switch
1-11
NV3128 RS-422A Machine-Control Data Switch
MULTIDROP COMMAND CHAINS
1.3 I/O
1.4 PHYSICAL
1-12
1.6 SYSTEM SPECIFICATIONS
1.5 ANCILLARY EQUIPMENT
1-13
NV3128 RS-422A Machine-Control Data Switch
TABLE1-1NV3128SPECIFICATIONS
1-14
NV3128 RS-422A Machine-Control Data Switch
INPUTS/OUTPUTS
CHAPTER 2 INSTALLATION
NV3128 RS-422A Machine-Control Routing Switch
NV3128 RS-422A Machine-Control Routing Switch
2.1 HARDWARE INSTALLATION
CHAPTER TWO - INSTALLATION
NV3128 RS-422A Machine-Control Routing Switch
a. LEDs on the Power Supply front panel should glow
NV3128 RS-422A Machine-Control Routing Switch
FIGURE 2.1 FRAME INSTALLATION
NV3128 RS-422A Machine-Control Routing Switch
2.2 CONFIGURATION
2.2.1 THE UNIVERSAL CONTROL OR COMMAND INTERPRETER
2.2.2 PARTITIONING OBSOLETE
NV3128 RS-422A Machine-Control Routing Switch
PARTITION DIP SWITCHES OBSOLETE
PARTITION BIT SWITCH - SECTION B
NV3128 RS-422A Machine-Control Routing Switch
S293
SETTINGS
ENABLE s8
RE-INITIALIZE BIT/MULTIDROP ENABLE s7
NV3128 RS-422A Machine-Control Routing Switch
SETTINGS
2.2.3 MATRIX CONTROL II JUMPERS OBSOLETE
JUMPER
MEANING
2.2.4 CONFIGURING THE SERIAL INTERFACE OBSOLETE
2.2.4.1 JUMPER SETTINGS OBSOLETE
RS-422A
RS-232
2.2.6 CONFIGURING THE DIAGNOSTIC INTERFACE OBSOLETE
2.2.5 PARALLEL INTERFACE OBSOLETE
2-11
NV3128 RS-422A Machine-Control Routing Switch
SIGNAL
ENABLED
DISABLED
FLOAT
2.2.7 CONFIGURING THE REFERENCE INPUT
FUNCTION
FLOATING
REFERENCE INPUT GROUND OBSOLETE
2.3.2 CABLING THE SERIAL COMMAND INTERFACE
2.3 CABLING THE NV3128
2.3.1 DATA I/O
RS-422A
ControllingDevice
ControlledDevice
2-15
NV3128 RS-422A Machine-Control Routing Switch
RS232 OBSOLETE
RS-232 DCE VS. DTE DECISION OBSOLETE
2-16
1. Configure the Control Interface Module as a DTE
2-17
9-PIN CONNECTOR
25-PIN CONNECTOR
NV3128 RS-422A Machine-Control Routing Switch
2.4 ADDING A REDUNDANT CONTROLLER
2.5 IMPLEMENTING HOT CHANGEOVER OBSOLETE
2-18
NV3128 RS-422A Machine-Control Routing Switch
2.6 PC DIAGNOSTIC INTERFACE UNIDIAG/NVUTILS
CABLING COMPLETE
2-19
NV3128 RS-422A Machine-Control Routing Switch
2-20
NV3128 RS-422A Machine-Control Routing Switch
CONTROL SYSTEM CONNECTORS UNIDIAG REAR CONNECTOR VIDEO REF INPUTS 1
MACHINE CONTROL CONNECTORS 1
NV3128 RS-422A Machine-Control Routing Switch
2-21
FIG 2-3. REAR CONNECTIONS OLD FRAME
2.4 PC-BASED SOFTWARE INSTALLATION OBSOLETE
INSTALLATION
GENERAL
NVTAKE
SOFTWARE INSTALLATION FIXED DISK
E. SAMPLE INSTALL SESSION
NVTAKE V 1
=========================
HARDWARE CONFIGURATION
OPERATION FROM A FLOPPY DISK
2-24
NV3128 RS-422A Machine-Control Routing Switch
NV3128 RS-422A Machine Control Data Routing Switch
CHAPTER3OPERATION
NV3128 RS-422A Machine Control Data Routing Switch
3.1 CONNECTION NOTES
CHAPTER 3 - OPERATIONS
NV3128 RS-422A Machine Control Data Routing Switch
3.1.2 MULTIDROP CONNECTION RULES
3.1.1 POINT-TO-POINT CONNECTION RULES
NV3128 RS-422A Machine Control Data Routing Switch
3.2 COMPUTER UTILITIES OBSOLETE
Command Interpreter module. Newer systems with the Universal
NV3128 RS-422A Machine Control Data Routing Switch
The following information applies only to older systems with the
3.2.1 OPERATING INSTRUCTIONS - NVTAKE OBSOLETE
INVOCATION
NVTAKE H U V E R 12
OPERATIONS
F1 SENDING A SINGLE TAKE
EXAMPLE
NV3128 RS-422A Machine Control Data Routing Switch
SOURCE ADDRESS
NV3128 RS-422A Machine Control Data Routing Switch
F9 - BUILD A SALVO TABLE
F10 - LOAD A SALVO FROM DISK
F2 - SEND A SALVO
NV3128 RS-422A Machine Control Data Routing Switch
The F10 function key loads a file from the current directory from which NVTAKER was launched. The program asks for the name of the file defining the salvo. Enter the name with no extension
QUERYING SYSTEM CONNECTIONS VISTEK PROTOCOL ONLY
F4 - QUERY A SINGLE CROSSPOINT
F5 - QUERY MULTIPLE CONNECTIONS
F6 - LIST DESTINATIONS CONNECTED TO A SOURCE
3.2.2 OPERATING INSTRUCTIONS - NVMAP OBSOLETE
INVOCATION NVMAP H U V E R
OPERATION
3-11
3-12
NV3128 RS-422A Machine Control Data Routing Switch
NV3128 RS-422A Machine Control Data Routing Switch
3-13
Screen
NV3128 RS-422A Machine Control Data Routing Switch
3-14
Editing the scramble map
NV3128 RS-422A Machine-Control Data Routing Switch
CHAPTER4 THEORYOFOPERATION
NV3128 RS-422A Machine-Control Data Routing Switch
CHAPTER FOUR - THEORY OF OPERATION
4.1 SYSTEM
4.1.1 CONTROL STRUCTURE
NV3128 RS-422A Machine-Control Data Routing Switch
NV3128 RS-422A Machine-Control Data Routing Switch
4.2.1 I/O CONNECTOR INTERFACE
4.2.2 SIGNAL BACKPLANE
4.2 CIRCUIT OPERATION
ASSY EM0038-XX
4.2.3 CROSSPOINT MODULE ASSY EM0041-XX
INPUT DATA
CROSSPOINTS
OUTPUT DATA
4.2.4 I/O ASSEMBLY EM0040-XX
NV3128 RS-422A Machine-Control Data Routing Switch
Further, the assembly contains all circuitry required to configure the
MAPPING
NV3128 RS-422A Machine-Control Data Routing Switch
PARALLEL INTERFACE COMMAND INTERPRETER ONLY
POWER REGULATION
ASYNCHRONOUS TIMING
PARTITIONING
4-10
4.2.5 POWER SUPPLY ASSY PS2001-XX
NV3128 RS-422A Machine-Control Data Routing Switch
NV3128 RS-422A Machine-Control Data Routing Switch
4-11
Metal oxide varistors DV1 and DV2 clamp voltage spikes on the AC input lines to safe levels
4-12
NV3128 RS-422A Machine-Control Data Routing Switch
CHAPTER 5 MAINTENANCEAND TROUBLESHOOTING
NV3128 RS-422A Machine Control Data Routing Switch
NV3128 RS-422A Machine Control Data Routing Switch
CHAPTER 5 - MAINTENANCE AND TROUBLESHOOTING
5.2 SCHEDULED MAINTENANCE
5.1 CUSTOMER SUPPORT
5.3 RELIABILITY
5.4 TROUBLESHOOTING
5.4.1 ISOLATING FAULTS
POWER
NV3128 RS-422A Machine Control Data Routing Switch
SIGNAL PATH
MAPPING AND COMMAND PROBLEMS
1. Route the problem signal to a new crosspoint/output address
NV3128 RS-422A Machine Control Data Routing Switch
NV3128 RS-422A Machine Control Data Routing Switch
GLOSSARY
NV3128 RS-422A Machine-Control Data Routing Switch
NV3128 RS-422A Machine-Control Data Routing Switch
GLOSSARY
NV3128 RS-422A Machine-Control Data Routing Switch
AES/EBU
NV3128 RS-422A Machine-Control Data Routing Switch
NTSC
Picture element of a television signal
NV3128 RS-422A Machine-Control Data Routing Switch
VCXO
Voltage Controlled Crystal Oscillator
NV3128 RS-422A Machine-Control Data Routing Switch
Index-1
INDEX
NV3128 RS-422A Machine-Control Data Switch
Index-2
NV3128 RS-422A Machine-Control Data Switch
NV3128 RS-422A Machine-Control Data Switch
Index-3
Index
Index-4
NV3128 RS-422A Machine-Control Data Switch
I/O Assembly theory
Jumper and Switch Settings 2-6 Jumper J1 - 115/230 VAC
Index-5
NV3128 RS-422A Machine-Control Data Switch
ST type connector
Simplex
Index-6
NV3128 RS-422A Machine-Control Data Switch