Renesas Blog

Debugging is an important part of embedded design; one that requires bridging the hardware/software gap.

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.

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.

There are 2 types of security IP on RH850 automotive MCUs, ICU-S and ICU-M. In this blog article, part 2 in a three-part series, we introduce how secure boot is realized on both types of devices.

Introducing a reference design demo that can measure the amount of remaining liquid with the RX130 MCU, using its built-in Capacitive Touch Sensor Unit (CTSU) and copper electrodes.

Learn about Renesas’ BLDC Traction Motor Drive solution that is built around two dedicated motor control devices for the perfect combination of processing speed and power efficiency.

In this blog, we will explain security acceleration methods that are being standardized for CAN and Ethernet to improve the security performance and offload tasks to hardware.

Renesas has prepared a “Migration Guide” and “Points of Differences” to support replacement from Renesas legacy MCU products to the RX 32-bit MCU family, as well as between the RX family itself.

Quickly develop a low power data logger application on the RA2E1 32-bit MCU using its “Snooze” mode for significant power savings, Flexible Software Package (FSP) and Fast Prototyping Board (FPB).

Introducing the RX66N 32-bit MCU that realizes real-time performance and firmware updates required for network-connected equipment such as smart meters and HVAC controllers.