6

S E R I A L C O M M A N D S E T

Serial Command Set Usage

I N P U T C O M M A N D S

These commands allow you to make adjustments for your inputs and then save these settings into the unit’s internal memory.

Command

Arguments

Description

 

 

 

 

INput

<input # ALL> [AUTO

Sets the input mode for the specified input. Auto engages

 

LOCK DEBUG]

the autosync circuitry. Lock turns the autosync circuitry

 

 

off. Debug provides information on input status and

 

 

reports changes to measured parameters.

 

 

Factory default: AUTO

 

 

 

INputDELete

<1…50>

Deletes the specified saved input from the Input List.

 

 

 

INputFormat

<input #>

InputFormat is a read-only command for checking the

 

 

video format of the current video input selection. The

 

 

command is only valid when Input Type is set to either

 

 

Composite, Component, or S-Video. The response to the

 

 

command will be NTSC or PAL.

 

 

 

INputInteractive

<input#>

Enters input interactive mode to visually adjust timing

 

 

parameters of the specified input. A white box frame and

 

 

cross hair appear over the full screen input.

 

 

Starting with the upper-left corner of the image, use these

 

 

keyboard controls to position the image within the white

 

 

frame:

 

 

 

i = move up m = move down

 

 

j = move left

l = move right

 

 

With the upper-left corner properly adjusted, address the

 

 

lower-right corner next by using these keyboard controls:

 

 

I = move up M = move down

 

 

J = move left

L = move right

 

 

With the image properly adjusted, quit the utility:

 

 

q = quit

 

 

 

After you have adjusted the input to your satisfaction, use

 

 

the Input Name command to name your input source, and

 

 

the Input Save command to store the setting to the Input

 

 

List.

 

 

 

 

INputLIST

[<1…50>] [<1…50>]

Displays the entire Input List of saved input timings. If

 

[<ACTIVE>]

arguments are supplied, displays only the portion of the list

 

requested. The Active argument displays all saved list

 

 

 

 

entries.

 

 

 

 

INputLOAD

<input #> <1…50>

Loads the indicated entry from the Input List to the

 

 

specified input channel. The entry is loaded only if it

 

 

matches the measured parameters of the signal—sync

 

 

format and polarity, interlace state, vertical total, and

 

 

horizontal frequency.

 

 

 

INputName

<input #> <name>

Assigns a name to the specified input. The argument can

 

 

be up to 17 alphanumeric characters with no spaces

 

 

(underscore is acceptable).

 

 

Factory default: Auto_1

 

 

 

INputSave

<input#> <1…50>

Saves the specified input to the selected entry in the Input

 

 

List. These settings are recalled whenever the signal is

 

 

reapplied to the SuperView.

 

 

 

INputTiming

<input #> <hfp> <hs> <hbp>

Sets the timing of the selected input.

 

<hact> <vfp> <vs> <vbp>

Note: The vertical total cannot be changed from the

 

<vact>

 

measured value; that is, the total of <vfp> + <vs> + <vbp>

 

 

 

 

+ <vact> must remain constant.

 

 

See Table 4 for acceptable ranges.

 

 

 

 

28

SuperView 3000 User Manual

May 9, 2002

Page 32
Image 32
RGB Spectrum SuperView 3000 user manual Lock Debug, Active

SuperView 3000 specifications

The RGB Spectrum SuperView 3000 is a cutting-edge solution designed for multi-source video wall applications, offering unparalleled performance and flexibility for diverse industries, including control rooms, broadcasting, and corporate environments. This display processor harnesses advanced technologies to deliver superior video management capabilities, making it a preferred choice for professionals in need of high-resolution visual outputs.

One of the standout features of the SuperView 3000 is its ability to support a vast range of video formats, allowing for seamless integration of multiple source types. This includes HDMI, DisplayPort, DVI, and analog inputs, ensuring compatibility with a variety of devices from PCs to cameras. The system is engineered to handle resolutions up to 4K, providing crisp and vibrant visuals that enhance the viewing experience.

Another significant characteristic of the SuperView 3000 is its powerful processing capabilities. The unit can manage multi-window layouts, enabling users to display numerous sources simultaneously on large video walls. This is particularly beneficial in environments where real-time information dissemination is critical, such as in emergency operation centers or newsrooms.

The SuperView 3000 leverages a modular architecture, allowing users to configure the processor according to specific needs. This scalability is a key advantage, as it can grow with the requirements of an organization. Whether using a small setup with a few screens or a massive installation with dozens of monitors, the SuperView 3000 can adapt to varying scale and complexity.

User-friendliness is another hallmark of the SuperView 3000. The system includes intuitive software that facilitates easy content management and layout design. Operators can quickly arrange sources, transition between layouts, and implement real-time adjustments, all from a straightforward interface. This ease of use minimizes the learning curve and boosts operational efficiency.

With robust reliability and comprehensive support, including redundancy features and network management tools, the SuperView 3000 is engineered for continuous operation in demanding environments. Its versatility and performance make it an invaluable asset for any organization looking to enhance their visual communication capabilities. In summary, the RGB Spectrum SuperView 3000 stands out as a premier choice for advanced video wall processing, offering a suite of features designed to meet the diverse needs of modern enterprises.