User Guide User Manual
Table Of Contents
- Chapter 1 • Introduction
- Chapter 2 • Installation
- Chapter 3 • Virtualization/Control Software
- Explaining Virtual I/O Switching
- Virtualization/Control Program
- Creating a virtual I/O switching system (map)
- Reassigning virtual I/O connectors
- Creating rooms within the system
- Remote controlling the Matrix 12800 system
- Programming the matrix offline (emulate mode)
- Saving and restoring matrix settings
- Creating program byte strings
- Ethernet operation
- Windows buttons and drop boxes
- Special Characters
- Chapter 4 • Programming Guide
- Chapter 5 • Web Operations
- Chapter 6 • Upgrades and Maintenance
- Opening and Closing the Matrix Switcher
- Removing and Installing the Fan Assembly
- Removing and Installing the Power Supply Module
- Replacing the Fuse
- Removing and Cleaning the Filter
- Setting the DIP Switches
- Removing and Installing the Controller Card and Replacing the Firmware
- Removing and Installing the I/O Card and Setting the Audio Gain
- Troubleshooting
- Appendix A • Ethernet Connection
- Appendix B • Reference Information
- Inside rear cover: warranty
Prograing Guide, cont’d
Matrix 12800 Switchers • Programming Guide
4-8
PRELIMINARY
Coand and repone table for SIS coand
Coand ASCII coand
(hot to witcher)
Response
(witcher to hot)
Additional
decription
Create ties
N
• Commandscanbeenteredback-to-backinastring,withnospaces.Forexample:1*1!02*2&02*04%4*6$.
•
The quick multiple tie and tie input to all output commands activate all I/O switches simultaneously.
•
The matrix switchers support 1-, 2-, and 3-digit numeric entries (1*1, 02*02, or 003*003).
•
There can be up to 768 virtual inputs and outputs.
N
The& tiecommandforRGBandthe%tie command for video can be used interchangeably on the matrix switcher.
Tie input
X! to output X@,
video and audio
X!
*
X@
! Out
X@
•In
X!
•All
]
Tie the input
X!
video and
audio to output
X@
.
Example:
1*3!
Out003•In001•All
]
Tie input 1 video and audio
to output 3.
Tie input
X! to output X@,
RGB video only
X!
*
X@
& Out
X@
•In
X!
•RGB
]
Audio breakaway switching.
Example:
(see 2nd Note, above)
10*4&
Out004•In010•RGB
]
Tie input 10 RGB to output 4.
Tie input
X! to output X@,
video only
X!
*
X@
% Out
X@
•In
X!
•Vid
]
Audio breakaway switching.
Example:
(see 2nd Note, above)
7*5%
Out005•In007•Vid
]
Tie input 7 video to output 5.
Tie input
X! to output X@,
audio only
X!
*
X@
$ Out
X@
•In
X!
•Aud
]
Audio breakaway switching.
Example:
12*8$
Out008•In012•Aud
]
Tie input 12 audio to output 8.
Tie BME
X#
input
X!
to
output
X@
X!
*
X@
*
X#
! Out
X@
•In
X!
•BME
X$]
Example:
118*67*2!
Out067•In118*•BME02
]
Tie physical input 118 to
physical output 67 in BME 2.
Quick multiple tie
E
+Q
X!
*
X@
!...
X!
*
X@
$
}
Qik
]
Example:
E
+Q3*4!4*5%6*6$
}
Qik
]
Tie input 3 video and audio
to output 4, tie input 4 video
to output 5, and tie input 6
audio to output 6.
Tie input to all outputs,
video and audio
X!
*! In
X!
•All
]
Example:
5*!
In005•All
]
Tie input 5 video and audio
to all outputs.
Tie input to all outputs,
RGB only
X!
*& In
X!
•RGB
]
Audio breakaway switching.
Example
(see 2nd Note, above)
8*&
In008•RGB
]
Tie input to all outputs,
video only
X!
*% In
X!
•Vid
]
Audio breakaway switching.
Example
(see 2nd Note, above)
10*%
In010•Vid
]
Tie input to all outputs,
audio only
X!
*$ In
X!
•Aud
]
Audio breakaway switching.
N
X!
= Input number 000 – maximum number of inputs (000 = untied)
X@
= Output number 001 – maximum number of outputs
X#
= BME number 0 – 9