SerDes chip GX9295A/GX96717 replaces MAX9295A/MAX96717 for endoscopic image transmission

SerDes is a high-speed data transmission technology that converts data from parallel and serial signals. Its design is divided into a deserializer and a deserializer. The deserializer integrates multiple data streams into high-speed serial data, and the deserializer then splits the serial data into parallel data. This design can reduce the number of signal lines during transmission, reduce signal crosstalk and loss, and achieve high-speed, low-power, and high bandwidth transmission effects.

The SerDes chip is highly suitable for integrated circuits and reference designs in endoscopes, helping them achieve high-quality imaging while minimizing power consumption and size. It not only provides high common mode voltage tolerance, but also effectively suppresses electromagnetic interference, ensuring stability and reliability of data transmission.

Modern endoscope design requirements:

Control lighting level and time

Processing sensor data, such as analog front-end, programmable gain amplifier, and analog-to-digital converter.

Small external dimensions.

The GX9295A sequencer and GX96717 deserializer are compatible with MAX9295A/MAX96717 and MAX96712/MAX96722 via pin2pin, ensuring seamless integration with existing devices, greatly reducing the threshold and cost of upgrading and transformation, ensuring high-speed and stable data transmission, and meeting the high-definition display requirements of modern endoscopes.

The GX9295A sequencer and GX96717 deserializer chipset fully utilize the powerful features of the MIPI A-PHY protocol, supporting up to 4Gbps bandwidth, 15 meter coaxial or 10 meter shielded twisted pair long-distance transmission, and integrating remote power supply and GPIO control functions, achieving "one line three uses" (data transmission, power supply, control), greatly simplifying system wiring, reducing costs by about 20% to 30% compared to competitors, and significantly improving the overall reliability of the system.