High Reliability and High Temperature Integrated Circuits from -60°C to +230°C PRODUCT CATALOG
●ABOUT X-REL SEMICONDUCTOR
■X-REL Semiconductor, a division of EASii IC, designs innovative High-Reliability & High-Temperature Integrated Circuits and systems for a wide range of application fields. Products are made to reliably perform for years while ensuring the reduction of the overall system costs all along the product lifecycle.
■Easii IC is a fabless company working with worldwide recognized contractors which allows us to offer products of extreme reliability and quality.
■EASii IC network of distributors & representatives all around the world ensures the best technical and commercial support to customers.
■Thanks to the close relationship EASii IC keeps with customers, EASii IC are able to anticipate their needs offering the right solution at the right time.
■EASii IC commitment is on reducing their overall system costs. This is achieved by keeping in mind application constraints all along the definition, development and manufacturing of our products, shortening the learning curve and allowing an easy adoption. EASii IC devices offer many functional features contributing to reduce the final system bill of material (BoM).
Selection catalogue
- +1 Like
- Add to Favorites
Recommend
- EASii IC Announces First Silicon for its DVB-S2X Satellite Modem ASIC EZID211, Which is Fabricated on a 40nm CMOS Low-power Process
- Kinetic Technologies Adds to its Surge Rated Overvoltage Protection IC KTS1650B Increasing Protection to Low Voltage Systems
- How To Use An EPC Development Board to Evaluate The Performance of A Given GaN FET or IC in Common Applications?
- More than 250 IC Manufacturers Choose Sekorm as Authorized Distributor, Building Supply Chain Security
- Reasons for The Increasing Importance of Circuit Protection Components
- AC DC Power Module Easily Solves Power Supply Problems
- Struggling with OTA? Easier and Faster Your Development using AWS IoT Core!
- Design IoT Application Easier Than Ever with RX MCU
All reproduced articles on this site are for the purpose of conveying more information and clearly indicate the source. If media or individuals who do not want to be reproduced can contact us, which will be deleted.