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Input Specifications

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The table below lists PDS input specifications.

Table A-1.PDS Input Specifications

Parameter

Detail

 

Specification

Inputs 1 - 4

Connector

HD-15 VGA

 

Format

RGBHV / RGBS / RGsB computer video, YPbPr video

 

 

(SD or HD), S-video, or composite video

 

Sampling

10-bits/color at 150 MHz maximum

 

 

 

 

 

Supports 1:1 sampling up to 1920x1080p @60Hz

 

 

 

 

 

Sources with native pixel rates > 150 MHz will be filtered

 

 

and undersampled at 150 Mhz, including:

 

 

1600x1200@60 (162 MHz)

 

 

1920x1080p@60 (173.0 MHz)

 

 

1920x1200@60 (193.25 MHz)

 

 

2048x1080p@60 (183.75 MHz)

Inputs 5 - 8

Connector

DVI-I,per DDWG 1.0

 

Format (Digital)

8-bit DVI, RGBHV data via analog pins

 

Format (Analog)

RGBHV / RGBS / RGsB computer video, YPbPr video

 

 

(SD or HD), S-video, or composite video

 

HDCP hardware support

HDCP version 1.0 compliant

Input 9

Connector

BNC

 

 

Format

SD-SDI per SMPTE 259M-C (NTSC/PAL resolution)

 

 

 

 

 

HD-SDI per SMPTE 292M (HDTV)

 

 

 

 

 

3G-SDI per SMPTE 425

 

 

 

 

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The table below lists PDS output specifications:

Table A-2.PDS Output Specifications

Parameter

Detail

Specification

Outputs

DVI output

1 x DVI connector

 

RGB output

1 x HD-15 VGA connector

 

HDCP Encryption

On DVI connector only

122

 

PDS • User’s Guide

 

Page 138
Image 138
Barco SJ/T 11363-2006 manual Fåéìí=péÉÅáÑáÅ~íáçåë=, Lìíéìí=péÉÅáÑáÅ~íáçåë

SJ/T 11363-2006 specifications

Barco SJ/T 11363-2006 is a significant technical standard issued in China that focuses on the methods and guidelines for determining the optical performance of digital displays. Developed to enhance the quality and consistency of visual display technologies, this standard serves as a crucial reference for manufacturers and end-users alike.

One of the main features of Barco SJ/T 11363-2006 is its emphasis on quantitative assessment of attributes that are vital for display performance. This includes parameters such as brightness, contrast ratio, color accuracy, and response time. By establishing clear testing protocols and benchmarks, the standard enables a uniform evaluation process across various display technologies including LCD, LED, and OLED displays.

A key aspect of Barco SJ/T 11363-2006 is its incorporation of technologies that measure the viewing experience. This includes both subjective and objective test methods. The subjective methods involve human observers assessing the display quality under controlled lighting conditions, whereas objective methods employ sophisticated instruments to measure optical properties. This dual approach ensures a comprehensive analysis of how displays perform in real-world scenarios and their alignment with user expectations.

The standard also addresses energy efficiency, prompting manufacturers to consider power consumption alongside performance metrics. This characteristic is increasingly important as consumers demand more environmentally friendly technologies. By promoting energy-efficient designs, Barco SJ/T 11363-2006 aligns with global efforts to reduce the carbon footprint of electronic devices.

Moreover, Barco SJ/T 11363-2006 encourages innovation in display technologies by providing a framework where manufacturers can test and showcase their advancements in optical performance. This not only fosters healthy competition in the market but also accelerates technological progress in display manufacturing.

In summary, Barco SJ/T 11363-2006 plays a vital role in standardizing the evaluation of digital displays in China. Through its focus on various optical performance metrics, the incorporation of advanced testing technologies, and a commitment to energy efficiency, this standard not only enhances product quality but also improves user satisfaction. Its influence extends beyond national borders, as it sets a precedent for similar standards worldwide in the digital display industry.