Eaton provides an overview of the trends and dynamics of advanced driver assistance systems (ADAS) and automated driving systems (ADS), including details of design and reliability challenges associated with these technologies.
In partnership with Eaton Electronic Components
Using this comprehensive guide, engineers will feel confident to switch to Silicon Carbide (SiC). They can leverage SiC's low switching losses, improved system efficiency, high power density in a smaller footprint, 3x superiority to silicon in thermal conduction, and many other benefits. Download your copy here!
August 18, 2022 by Future Electronics
MaaS is driving the need to add and improve features that support the heart of this new technology. This white paper explores how electronics and sensors are powering today's connected vehicles.
March 08, 2022 by Murata
This application note explains the effect of cosmic radiation on HV power semiconductors, describes the influencing factors of the application on the failure rate, and gives concrete results of robustness validation based on a generic mission profile for a bi-directional onboard-charger (OBC).
July 06, 2021 by Infineon Technologies
Since radars are critical to vehicles, manufacturers need to ensure that they do not malfunction or become non-responsive in critical situations. Stringent EMS testing in line with ISO11451-2 is carried out for vehicle level testing. However, one of the key challenges is replicating real life scenarios where the ADAS car radar functions are activated during EMS testing.
May 27, 2021 by Rohde & Schwarz
While a factory floor and a medical operating theater share little in common, the equipment used in both areas must deliver trusted and precise operation, which is often mission critical. With the need for smarter systems, more data, and higher fidelity, bandwidth requirements are increasing.
March 01, 2021 by Analog Devices
January 06, 2021 by Yokowo
December 03, 2020 by TE Connectivity
November 04, 2020 by TE Connectivity
