6.[SDL]
This command displays the Sync Delay programmed for each output.
Command Format: [SDLCnUi]
Cn = Card ID (n = # from 1 to max slots)
Ui = Unit ID (i = from 0 to 9)
Example:
There is an
SYNC DELAY FOR OUTPUT 1 THROUGH 8 (SDL1 to SDL8):
SDL1=01 (00.25 Sec)
SDL2=03 (00.75 Sec)
SDL3=04 (01.00 Sec)
SDL4=10 (02.50 Sec)
SDL5=20 (05.00 Sec)
SDL6=00 (00.00 Sec)
SDL7=00 (00.00 Sec)
SDL8=00 (00.00 Sec)
7.[SDLm=s]
This command sets the Sync Delay for each output. The Sync Delay is the amount of time to wait after switching the Horizontal and Vertical Sync signals to the new output. When switching input to output connections, the RGB signals are disabled first. Then, the RGBHV signals are switched to the new output with the H and V signals enabled. After the delay, the RGB signals are enabled on the new output. Each individual output may be programmed with a Sync Delay ranging from zero to 24.75 seconds, in increments of 250mS.
Command Format: [SDLm=sCnUi]
m = Output (m = # 1 to 8)
s= Sync Multiplier (s = # from 0 to 99) Delay = Multiplier X 250mS.
Cn | = | Card ID (n = # from 1 to max slots) |
Ui | = | Unit ID (i = from 0 to 9) |
Example:
There is an
8.[SIGI]
The Signal Present command tests for the presence of an input signal. The
1 = Signal detected
0 = No signal detected Command Format: [SIGImCnUi]
m = Input (m = # from 1 to 8)
Cn = Card ID (n = # from 1 to max slots)
i= Unit ID (i = # from 0 to 9) Example:
There is a properly formatted input signal being applied to Input 2 of the card in slot #4. Check for the presence of an input signal by sending the command [SIGI2C4]. The feedback will be a "1" immediately following the command sent:
[SIGI2C4] 1
[SIGI2C4] = command sent
1= feedback, signal is present
9.[SIGO]
The Output Signal Detect command tests for the presence of an output signal on one output The
1= Signal detected
0 = No signal detected
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