THine Introduces a small package, low power consumption MIPI CSI-2 Serializer IC for Video Applications

Ideal for High Definition Endoscope Camera Applications

SANTA CLARA, CA (March 24, 2020) - THine®, the leader in high-speed serial interfaces and image signal processing, today announced the high-volume availability of their new MIPI CSI-2 serializer IC, THCV243.


This new chip allows engineers to extend MIPI CSI-2 transmission to greater than 15 meters with a tiny 2.1mm x 2.9mm package! It also allows the reduction of a significant number of cables between the camera and processor board by aggregating the GPIO-type bidirectional control signals.

An Application Example

Demands for higher resolution and/or higher frame rate cameras require MIPI CSI-2 output, which are limited to a short transmission range of approximately 1 foot. To extend this distance to 10 feet or more, the THCV243 serializes up to 4 lanes of MIPI CSI-2 signals and converts it into a single lane of V-by-One® HS. V-by-One® HS technology is a high-speed digital interface protocol developed and owned by THine. It supports up to 4 Gbps per lane which can extend the transmission of 1080p60 2Mpixel uncompressed video over long distances.

THCV243's companion chip, THCV242, deserializes the V-by-One® HS signal generated by the THCV243 back to the original MIPI CSI-2 signal.

THCV243's small package size of 2.1 x 2.9 mm allows a small camera form factor, which is a critical requirement for medical endoscope camera applications.

The chipset supports "Sub-Link" that aggregates bidirectional low speed signals, such as GPIO. The separation of the V-by-One® HS high speed signal path and Sub-Link enables easy debugging and gives more choices for physical harnesses including the utilization of Keyssa®'s contactless connection for systems benefiting from or requiring a ruggedized, low latency, detachable camera (http://www.cel.com/pdf/press/cel_thine_01032019.pdf).

"The demand for medical camera devices to be smaller and have higher resolution is very strong and growing because it enables patients' fast recovery due to minimizing invasive procedures and allowing improved surgeon performance," said Tak Iizuka, Chief Solution Architect of THine. "The small size and low power consumption features of the THCV243 are a perfect fit for medical endoscope applications."

The chip will be available at major distributors including Digi-Key and Mouser shortly.

About THine, THine Electronics, Inc.
THine provides innovative mixed signal, analog, and wireless system technologies. The technologies provided include V-by-One® HS, LVDS, other high-speed data signaling, ISP, timing controller, analog-to-digital converter, power management, drivers for LEDs and motors, and IoT/M2M devices, LTE/5G cellular communication devices. THine is headquartered in Tokyo, and has subsidiaries in Yokohama, Santa Clara, Taipei, Seoul, Hong Kong, Shenzhen, and Shanghai. THine is listed on JASDAQ of Tokyo Stock Exchange under the security code of 6769. For more information, visit http://www.thine.co.jp/en/.

About CEL, California Eastern Laboratories, Inc.
CEL offers a broad selection of wireless and high-speed interface components. CEL also designs and produces MeshConnect® modules and other wireless solutions for IoT applications. CEL has technical centers in Santa Clara, California (Silicon Valley) and Buffalo Grove, Illinois (Chicago area). CEL supports customers through direct sales offices, sales representatives and distributors worldwide, with offices in Hong Kong and Tokyo that support the Asia Pacific region. For more information, visit http://www.cel.com.

Featured Product

Discover how human-robot collaboration can take flexibility to new heights!

Discover how human-robot collaboration can take flexibility to new heights!

Humans and robots can now share tasks - and this new partnership is on the verge of revolutionizing the production line. Today's drivers like data-driven services, decreasing product lifetimes and the need for product differentiation are putting flexibility paramount, and no technology is better suited to meet these needs than the Omron TM Series Collaborative Robot. With force feedback, collision detection technology and an intuitive, hand-guided teaching mechanism, the TM Series cobot is designed to work in immediate proximity to a human worker and is easier than ever to train on new tasks.