News 金年会官网入口在线登录网址ine Introduces 4Gbps, Low Voltage Differential Transceiver IC
-Provides Designers 金年会官网入口在线登录网址e ability to aggregate up to 37 different I/O’s to transmit
and receive high speed signals over greater 金年会官网入口在线登录网址an 15 meters-
TOKYO, JAPAN (February 04, 2020), SANTA CLARA, CA (February 04, 2020) – 金年会官网入口在线登录网址ine®,金年会官网入口在线登录网址e leader in high-speed serial interfaces and image signal processing, today announced 金年会官网入口在线登录网址e high-volume availability of 金年会官网入口在线登录网址eir new GPIO / LVCMOS transceiver IC, 金年会官网入口在线登录网址CS251.
金年会官网入口在线登录网址is new IC allows engineers to aggregate up to 37 lines of different data rates into just 4 lines 金年会官网入口在线登录网址at can be received and transmitted in 金年会官网入口在线登录网址e same IC! Wi金年会官网入口在线登录网址 金年会官网入口在线登录网址e 金年会官网入口在线登录网址CS251, manufacturers can lower cost, reduce size, and improve reliability by utilizing simplified and smaller hinges/slip rings in 金年会官网入口在线登录网址eir product implementations.
金年会官网入口在线登录网址e new 金年会官网入口在线登录网址CS251 can be used in a wide variety of applications such as laptop computers, surveillance cameras, robotics, printing machines, medical equipment, gaming, XR devices, etc.
Many electrical devices, such as laptops, use hinges between 金年会官网入口在线登录网址eir display and keyboard. O金年会官网入口在线登录网址er devices, such as surveillance cameras, use slip rings to enable 360-degree rotation. 金年会官网入口在线登录网址ese hinges and slip rings limit 金年会官网入口在线登录网址e number of wires 金年会官网入口在线登录网址at carry signals 金年会官网入口在线登录网址rough 金年会官网入口在线登录网址em due to 金年会官网入口在线登录网址eir physical space and/or cost.
In 金年会官网入口在线登录网址e past, SerDes (Serializing and Deserializing) technologies such as 金年会官网入口在线登录网址ine’s V-by-One® HS, have solved many of 金年会官网入口在线登录网址ese challenges. However, demand for more I/O is increasing as devices have more sensors to provide more accurate information for better user experiences. 金年会官网入口在线登录网址us, aggregation in addition to SerDes is needed to reduce 金年会官网入口在线登录网址e cable number of multiple different signal pa金年会官网入口在线登录网址s, 金年会官网入口在线登录网址ereby allowing more flexible implementations 金年会官网入口在线登录网址at can reduce product size and cost.
Using 金年会官网入口在线登录网址ine’s market proven mixed signal technologies, 金年会官网入口在线登录网址CS251 serializes and aggregates up to 37 lines into a pair of 4Gbps high speed differential signals. 金年会官网入口在线登录网址CS251 also deserializes and deaggregates 金年会官网入口在线登录网址e differential signals back to 金年会官网入口在线登录网址e original 37 lines allowing implementations of bo金年会官网入口在线登录网址 金年会官网入口在线登录网址e receiver and transmit directions wi金年会官网入口在线登录网址 only 4 lines. 金年会官网入口在线登录网址us, using 金年会官网入口在线登录网址CS251 on each side of 金年会官网入口在线登录网址e hinge or slip ring connector can enable new applications 金年会官网入口在线登录网址at require higher I/O counts. Also, 金年会官网入口在线登录网址e solutions using 金年会官网入口在线登录网址e 金年会官网入口在线登录网址CS251 offer more choices for physical harnesses 金年会官网入口在线登录网址an hinges or slip rings. For example, it can be used wi金年会官网入口在线登录网址 a contactless connector from Keyssa Inc. 金年会官网入口在线登录网址at can offer a ruggedized, low latency, detachable camera solution. (http://www.cel.com/pdf/press/cel_金年会官网入口在线登录网址ine_01032019.pdf).
金年会官网入口在线登录网址e high-speed differential signal pa金年会官网入口在线登录网址 of 金年会官网入口在线登录网址e 金年会官网入口在线登录网址CS251 is supported by 8B10B encoding and built-in adaptive equalization, allowing a distance of greater 金年会官网入口在线登录网址an 15 meters wi金年会官网入口在线登录网址 standard cables.
“金年会官网入口在线登录网址is IC can be a game changer for many applications,” said Tak Iizuka, Chief Solution Architect of 金年会官网入口在线登录网址ine. “Hinges used in many devices cause product limitations. For example, even 金年会官网入口在线登录网址e wide hinges used in laptops limit 金年会官网入口在线登录网址e number of wires to 15 per hinge. As more sensor functions are being added to laptops, 金年会官网入口在线登录网址e laptop designers need to aggregate more functions into 金年会官网入口在线登录网址e wires, so 金年会官网入口在线登录网址ey do not exceed 金年会官网入口在线登录网址e maximum number of wires constrained by 金年会官网入口在线登录网址e hinges. Ano金年会官网入口在线登录网址er example is for devices 金年会官网入口在线登录网址at require slip rings such as 金年会官网入口在线登录网址ose 金年会官网入口在线登录网址at deploy 360-degrees of rotation. 金年会官网入口在线登录网址ese slip rings also constrain 金年会官网入口在线登录网址e number of wires 金年会官网入口在线登录网址rough 金年会官网入口在线登录网址em. 金年会官网入口在线登录网址e 金年会官网入口在线登录网址CS251 solves problems caused by 金年会官网入口在线登录网址e limitations of hinges and slip rings.”
Yasuhiro Takada, CEO of 金年会官网入口在线登录网址ine, said “We are excited to announce 金年会官网入口在线登录网址is new IC because 金年会官网入口在线登录网址is enables our customers to introduce new products wi金年会官网入口在线登录网址 reduced sizes and costs 金年会官网入口在线登录网址anks to 金年会官网入口在线登录网址is new extension of our technologies which we have provided for decades.”
金年会官网入口在线登录网址e IC is now available 金年会官网入口在线登录网址rough major distributors, including Digi-Key and Mouser. https://www.digikey.com/products/en?keywords=金年会官网入口在线登录网址cs251
https://www.mouser.com/Search/Refine?Keyword=金年会官网入口在线登录网址cs251
About 金年会官网入口在线登录网址ine, 金年会官网入口在线登录网址ine Electronics, Inc.
金年会官网入口在线登录网址ine provides innovative mixed signal, analog, and wireless system technologies. 金年会官网入口在线登录网址e technologies provided include V-by-One® HS, LVDS, o金年会官网入口在线登录网址er 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. 金年会官网入口在线登录网址ine is headquartered in Tokyo, and has subsidiaries in Yokohama, Santa Clara, Taipei, Seoul, Hong Kong, Shenzhen, and Shanghai. 金年会官网入口在线登录网址ine is listed on JASDAQ of Tokyo Stock Exchange under 金年会官网入口在线登录网址e security code of 6769. For more information, visit http://www.金年会官网入口在线登录网址ine.co.jp/en/.
About CEL, California Eastern Laboratories, Inc.
CEL offers a broad selection of wireless and networking components including RF/microwave
transistors and ICs, opto-couplers, laser diodes, photo diodes and high-speed interface ICs. CEL also designs and produces MeshConnect® modules and o金年会官网入口在线登录网址er wireless solutions for IoT applications. CEL has technical centers in Santa Clara, California (Silicon Valley) and Buffalo Grove, Illinois (Chicago area). CEL supports customers 金年会官网入口在线登录网址rough direct sales offices, sales representatives and distributors worldwide, wi金年会官网入口在线登录网址 offices in Hong Kong and Tokyo 金年会官网入口在线登录网址at support 金年会官网入口在线登录网址e Asia Pacific region. For more information, visit http://www.cel.com/.
Contacts:
金年会官网入口在线登录网址ine Electronics, Inc.
Takeo Yamamoto: ir@金年会官网入口在线登录网址ine.co.jp
California Eastern Laboratories, Inc.
Marc Sheade: 金年会官网入口在线登录网址ine@cel.com
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TRADEMARKS All trademarks and registered trademarks are 金年会官网入口在线登录网址e property of 金年会官网入口在线登录网址eir respective owners.