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4K Time Lag Checker

EDD-5400

A Timely Measurement Solution for Measurement of Video/Audio Delay

Measures video delay, audio delay, relative delay between audio channels, or relative delay between video and audio, based on test time code signals.

Generates and transmits TTC signals in video, audio, or VANC output that match the phase of source video, audio, or VANC signals. Transmitted video and audio signals reenter the checker and are compared to the current time to determine video and audio delay. Measurement of delay over long distances is possible via GNSS using two checkers.

12G/3G/HD-SDI signal format support

Broad format support enables a single checker to be used in measurement of transmission delay involving format conversion. Useful for live international broadcasts. (12G-SDI support is available as an option.)

Original test time code signals

Broad format support enables a single checker to be used in measurement of transmission delay involving format conversion. Useful for live international broadcasts. (12G-SDI support is available as an option.)

12G/3G/HD-SDI signal format support

Resistant to attenuation, even with data compression. Time information (active video period) is listed on the screen. For audio signals, an original, LTC-based signal is used. Regarding the systems or equipment measured, measurement is not system-dependent. Also enables checking of differences in the time required for compression or decompression of source video by the system measured, by multiplexing TTC signals onto input signals.

Measurement of video/VANC discrepancies

Measures discrepancies between video and VANC signals by multiplexing TTC signals into VANC areas.

Measurement of transmission delay over long distances

Transmission delay from a remote site can be measured using two checkers with GNSS-synchronized clocks. Audio and video delay can be measured even without GNSS synchronization.

Note: GNSS-based long-distance transmission delay measurement may not be possible depending on antenna coverage or weather conditions. (Initially, signals must be acquired from at least four GNSS satellites.)

High-precision internal clock (GNSS synchronized)

Measurement is accurate to within 1 msec. if performed within eight hours of outdoor GNSS synchronization of the internal clock used for measurement. (GNSS time synchronization is available as an option.)

Measurement logging

Enables efficient analysis on a computer. Output via Ethernet is possible for data needed in delay analysis, such as time code data, reference signal data, and delay measurement values for each signal relative to reference signals.

High-precision measurement

Measurement of delay is accurate to 0.001 ms. (High accuracy mode will be planned in the future)

Full-featured measurement

Supports the following measurement: video and audio delay, video transmission delay, discrepancy of delay between video signals and VANC, audio transmission delay, and delay between any combination of audio channels. Can also measure delay of signals with different input and output formats.

Materials

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