Japan IT Week特別講演「CASE+E時代における車載E/Eアーキテクチャの変化と半導体への取組み」
CASE+Eのこれからの自動車業界において半導体
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CASE+Eのこれからの自動車業界において半導体
に求められる価値提供、及び当社のアプローチをご紹介します。
Fast chargers and power supplies designed with Renesas' Rapid Charge™ controllers cannot be hacked, because they are hard-wired state machines that have no firmware that can be accessed and corrupted.
Learn about the prototyping process and challenges encountered in the development of a next-generation wireless charging solution to address wearable tech.
For the RX MCU family, consumer and industrial applications will continue to be our primary focus in the next few years. We will also focus on IoT-related applications in these two areas.
/node/1601921This is a detailed description of a solution for a multi-cell USB Power Delivery (USB-PD) enabled power bank using a 2S to 4S battery stack that supports USB-PD 3.0, PPS and Qualcomm Quick Charge.
Here, we show solutions for Precision Time Protocol (PTP) time distribution to virtualized OS with the help of hardware-assisted virtualization (Renesas R-Switch2) to solve challenges quickly.
In the third entry of this series on automotive radar, we will analyze the factors which limit the range of detection of automotive radar and how they relate to the performance of the RF IC.
Indoor air quality is important to our health and being able to monitor it with battery-operated devices using Renesas’ ZMOD4410 ultra-low power air quality sensor is beneficial.
We make the core software that drives the brain, the semiconductors, at the center of the increasingly highly featured and complex systems brought together through E/E architectures.
Renesas is working on the development of computer vision software and the provision of an automated driving platform that supports functional safety in order to realize a highly automated driving society.