Virtual controls Write virtual inputs
Reset individual room map Reset all room presets
Reset individual room preset
Reset RGB delays
Reset global presets and names
Reset an individual global preset
Reset all room map

Commmand and response table for SIS commmands (continued)

Commmand

ASCII commmand

Response

Additional

 

(host to switcher)

(switcher to host)

description

Resets

 

 

 

Intialize virtual map size

EX!*X@ZM}

ZpmX!*X@]

Intialize the virtual map size.

 

EZG}

Zpg]

Clear all global presets and

 

 

 

their names.

EX(ZG} ZpgX(]

EZR} Zpr]

EX1)ZR} ZprX1)]

EZP} Zpp]

Clear preset X( and its name.

Clear all rooms.

Clear room X1).

Clear all room presets and their names.

EX1)*X1@} ZppX1)*X1@]

EZD} Zpd]

Clear room X1), preset X1@! and its name.

Reset all RGB delays to 0.0 seconds.

Reset audio input levels

EZA}

Zpa]

Reset all audio input levels

 

 

 

(gain and attenuation) to 0 dB.

Reset all RGB and audio

EZZ}

Zpz]

Reset all video and audio

mutes

 

 

mutes.

Reset flash

EZFFF]

Zpf]

Reset flash memory

 

 

 

(erase user-supplied files).

Reset whole switcher

EZXXX}

Zpx]

Clear all ties and all presets,

 

 

 

resets all audio gains to 0 dB,

 

 

 

resets the RGB delay, and

 

 

 

unmutes all video and audio

 

 

 

outputs.

Absolute reset

EZQQQ}

Zpq]

Similar to Reset whole

 

 

 

switcher, plus sets the IP

 

 

 

address to 192.168.254.254

 

 

 

and the subnet mask to

 

 

 

255.255.0.0.

EX@,X1(,X1!,X2)1,X2)2 ... X2)nMI}

MpiX@,X1(,X1!,X2)1,X2)2 ... X2)n]

Read virtual inputs

EX@MI}

X1(,X1!,X2)1,X2)2

... X2)n]

Write virtual outputs

EX#,X1(,X1!,X2)1,X2)2 ... X2)nMO}

 

 

 

MpoX#,X1(,X1!,X2)1,X2)2 ... X2)n]

Read virtual outputs

EX#MO}

X1(,X1!,X2)1,X2)2

... X2)n]

Read plane types

EMC}

letter and BME# pairs

NA letter and BME# pair consists of a letter that identifies the video or audio plane (Red, Blue, Mono, Audio, and so on) and a number that identifies the BME assigment. Example: R0G1B2S3A4.

N X@ = Output number

001 through maximum number of outputs

X% = Input number

001 through maximum number of inputs

X( = Preset #

32 maximum (0 = current configuration)

X1)

= Room number

32 max. (Each can have up to 10 presets (X1@s) assigned.)

X1@ = Room preset number

10 maximum

X1( = Signal type. See page 4-7.

 

X1! = Name

12 characters maximum

X2)

= Virtual input or output

Example: 4i003 (BME 3, input connector 003)

Matrix 12800 Switchers • Programming Guide 4-15

Page 80
Image 80
Extron electronic 12800 manual ZpmX!*X@, Exzg ZpgX, EX1ZR ZprX1, EX1*X1@ ZppX1*X1@, EX# ,X1 ,X1! ,X2 1 ,X2 2 ... X2 n MO

12800 specifications

Extron Electronics, a leading manufacturer in the realm of audiovisual (AV) solutions, has continually pushed the boundaries of technology to enhance user experiences. Among its innovative offerings, the Extron 12800 series stands out as a robust solution designed for a variety of applications, including classrooms, corporate environments, and large venues. This article explores the main features, technologies, and characteristics that define the Extron 12800.

One of the core attributes of the Extron 12800 is its advanced video processing capabilities. Equipped with high-performance scaling technology, the device ensures that video sources are optimally processed for both clarity and detail. This results in stunning image quality, eliminating artifacts and preserving the integrity of the original content. The 12800 can handle multiple resolutions, making it versatile enough to accommodate various media types.

Another notable feature is the 12800's support for an array of input and output options. With multiple HDMI, VGA, and audio connections, it provides seamless integration with an existing AV infrastructure. Users can easily switch between different sources without compromising on performance. The inclusion of HDCP compliance ensures that content protection remains intact during playback, allowing for smooth operation with copyrighted materials.

In addition to its connectivity capabilities, the Extron 12800 also offers robust control options. Users can manage the system through a variety of interfaces, including Ethernet, RS-232, and USB, facilitating compatibility with popular control systems. This flexibility in control enhances user experience, enabling easy operation regardless of the environment.

The 12800 series is designed with reliability in mind. Built from high-quality components, it ensures consistent performance over time. Its fanless design minimizes noise during operation, making it an ideal choice for environments demanding quiet performance, such as conference rooms and lecture halls. Furthermore, the device features comprehensive diagnostics and monitoring tools, allowing users to troubleshoot and maintain optimal performance effortlessly.

In conclusion, the Extron 12800 series epitomizes a blend of innovative design, versatile connectivity, and advanced video processing technologies. Its reliability, ease of use, and high performance make it a preferred choice for AV professionals looking to elevate their installations. Whether used for presentations, teaching, or large-scale events, the Extron 12800 stands ready to meet diverse AV needs with prowess and precision.