FPGA (Field Programmable Gate Array)-based full-configuration type Camera link fiber-converting real-time image optical transceiver

Abstract

The invention relates to an FPGA (Field Programmable Gate Array)-based full-configuration type Camera link fiber-converting real-time image optical transceiver; the optical transceiver realizes a conversion function from the input of high-bandwidth (85MHz), high-reliability full-configuration type Camera link real-time images into the output of optical fiber real-time images, has a self-adaptive configuration function of inputting full, medium or basic type Camera link real-time images and a self-adaptive function of Camera link input working frequency; the conversion function from the input of the serial port and time sequence control optical fiber data steams to the output of the Camera link interface is realized and the reliability of the remote serial port communication and time sequence control of the Camera link real-time image optical transceiver is improved; the optical transceiver breaks through the technical difficulty of full-configuration type Camera link real-time image fiber conversion; the flexible configuration of the SFP (Small Form Factor Pluggable) fiber module is designed and realized, the transmission distance ranges from 500m to 120km, the anti-electromagnetic interference capability of the Camera link real-time image transmission system is strengthened and the requirements of various engineering application occasions are satisfied.

Description

technical field [0001] The present invention relates to high-bandwidth (85MHz), high-reliability full-configuration (Full) Camera link real-time image long-distance transmission, in particular to a Camera link high-speed real-time image remote transmission based on FPGA (Field Programmable Gate Array, Field Programmable Gate Array) Distance transmission is realized. Background technique [0002] In the traditional camera link image transmission system, the transmission medium between devices is directly connected by camera link cable. Due to the poor anti-interference performance of the camera link cable and the short transmission distance (less than 10 meters), it cannot meet the requirements Long-distance transmission. In recent years, with the development of optical fiber interconnection transmission technology, basic (Base) Camera link image optical transceivers based on optical fiber transmission have gradually appeared, but they can only realize basic (Base) Camera li...

AI Technical Summary

Problems solved by technology

[0002] In the traditional camera link image transmission system, the transmission medium between devices is directly connected by camera link cable. Due to the poor anti-interference performance of the camera link cable and the short transmission distance (less than 10 meters), it cannot meet the requirements long-distance transmission

In recent years, with the development of optical fiber interconnection transmission technology, basic (Base) Camera link image optical transceivers based on optical fiber transmission have gradually appeared, but they can only realize basic (Base) Camera link image transmission, and the transmission distance is short (about 300 meters), which fail to meet the needs of the project for medium configuration (Medium), full configuration (Full), high bandwidth (85MHz) Camera link real-time image long-distance transmission, and fail to meet longer-distance (100 kilometers and above) transmission

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