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Preliminar y, Programming and control, cont’d – Extron electronic VGA MATRIX SWITCHERS MVX PLUS 128 User Manual

Page 80

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SIS

Programming and Control, cont’d

MVX Plus 128 VGA Matrix Switchers • Programmer’s Guide

4-10

PRELIMINAR

Y

Command/response table for SIS commands (continued)

Command

ASCII command

(host to switcher)

Response

(switcher to host)

Additional
description

Audio mute commands

Audio mute

X#

*1Z

Amt

X#

*1

]

Mute output

X#

audio

(audio off).

Audio unmute

X#

*0Z

Amt

X#

*0

]

Unmute output

X#

audio

(audio on).

Read audio mute

X#

Z

X(]

1 = mute on, 0 = mute off.

Global audio mute

1*Z

Amt1

]

Mute all audio outputs.

Global audio unmute

0*Z

Amt0

]

Unmute all audio outputs.

Names

Write global preset name

EX1!,X2#

NG

}

Nmg

X1!,X2@]

Example:

E

1,Security 1NG

}

Nmg01

,

Security 1

]

Name global preset 1
“Security 1”.

Read global preset name

EX1!

NG

}

X2#]

Example:

E

2NG

}

Security 2

]

Write room name

EX*,X2#

NR

}

Nmr

X*,X2#]

Example:

E

1

,

Classrm 1NR

}

Nmr01

,

Classrm 1

]

Name room 1 “Classrm 1”.

Read room name

EX*

NR

}

X2#}

Write room preset name

EX*

*

X1@,X2#

NP

}

Nmp

X*

*

X1@,X2#]

Example:

E

1*3

,

Podium_DVDNP

}

Nmp01*3

,

Podium_DVD

]

Name room1, preset 3
“Podium_DVD”.

Read room preset name

EX*,X1@

NP

}

X2#]

N

If a preset is unassigned, the X2# displays [unassigned].

If a global preset is saved, but not yet named, the default name is Preset

X1!

.

If a room preset is saved, but not yet named, the default name is Rm

X*

Prst

X1@

.

Write input name

EX!,X2#

NI

}

Nmi

X!,X2#]

Example:

E

1

,

Podium camNI

}

Nmi01

,

Podium cam

]

Name input 1
“Podium cam”.

Read input name

EX!

NI

}

X2#]

Write output name

EX!,X2#

NO

}

Nmo

X!,X2#}

Example:

E

1,Main PJ1NO

}

Nmo01,Main PJ1

]

Name output 1 “Main PJ1”.

Read output name

EX!

NO

}

X2#]

I/O Grouping

N The group that is assigned in each of the following I/O grouping commands (

X1)

) must be 1, 2, 3, 4, or 0 (not grouped).

Write input grouping

EX1)

1

X1)

2

...

X1)

12

I

}

GrI

X1)

1

X1)

2

X1)

3

...

X1)

12

]

Each

X1)

entry is the group

number assigned to an input
position, starting from input 1.

Example:

E

401330000444I

}

See below.

01

Input:

GrI

Response #s = group:

Input 1 in group 4

02 03 04 05 06 07 08 09 10 11 12

4 0 1 3 3 0 0 0 0 4 4 4

Input 2 not grouped Input 12 in group 4

Input 1 - Group 4, Input 2 -
Group 0 (not grouped), ...
Input 12 - Group 4.

Write output grouping

EX1)

1

X1)

2

...

X1)

12

O

}

Gro

X1)

1

X1)

2

X1)

3

...

X1)

12

]

Each

X1)

entry is the group

number assigned to an output
position, starting from output 2.

Read input grouping

E

I

}

X1)

1

X1)

2

X1)

3

...

X1)

12

]

Example:

E

I

}

See below.

01

Input:

Response = group:

Input 1 in group 1

02 03 04 05 06 07 08 09 10 11 12

1 1 1 3 3 0 0

0

0

4 4 4

Input 8 not grouped Input 12 in group 4

Read output grouping

E

O

}

X1)

1

X1)

2

X1)

3

...

X1)

12

]