Renesas Premieres RE Family For Its SOTB Process-Based Energy Harvesting Embedded Controller Portfolio

November 13, 2019

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Renesas Premieres RE Family For Its SOTB Process-Based Energy Harvesting Embedded Controller Portfolio

New Evaluation Kit Provides Powerful Support for the Development of Battery Maintenance Free IoT Equipment.

TOKYO, Japan, October 31, 2019 ? Renesas Electronics Corporation (TSE:6723), a premier supplier of advanced semiconductor solutions, today introduced its RE Family, which encompasses the company's current and future lineup of energy harvesting embedded controllers. The RE Family is based on Renesas' proprietary SOTB™ (Silicon on Thin Buried Oxide) process technology, which dramatically reduces power consumption in both the active and standby states, eliminating the need for battery replacement or recharging.

Following the mass production of the RE01 Group (formerly known as the R7F0E embedded controllers), the first of the RE Family, the new RE01 Group Evaluation Kit was launched today, which allows users working with the RE01 Group of devices to jump start system evaluations for energy harvesting applications.

"Energy harvesting eliminates the labor and costs associated with battery maintenance and is a key solution contributing to environmental conservation," said Hiroto Nitta, Senior Vice President, Head of SoC Business, IoT and Infrastructure Business Unit at Renesas. "I am extremely pleased that Renesas' technology innovation with SOTB has enabled these alternative energy solutions, and with the new RE01 Evaluation Kit, Renesas will be making it possible for engineers around the world to quickly start the evaluation. We hope this will accelerate the spread of IoT equipment powered by energy harvesting."

The new RE01 Evaluation Kit includes an evaluation board which features an RE01 embedded controller, an interface for the energy harvesting device and a rechargeable battery interface. The Kit also includes an Arduino-compatible interface for easy expansion and evaluation of sensor boards and a Pmod™ connector to expand and evaluate wireless functionality. In addition, there is an ultra-low power MIP LCD (note 1) expansion board so that users can evaluate display functions faster. The Kit also contains sample code and application notes that  serve as references for power management design that eliminates the need for battery maintenance, and driver software that supports CMSIS, Arm®'s Cortex Microcontroller Software Interface Standard. Sample code for ultra-low power A/D converters, digital filter and FFT (fast Fourier transform) routines, 2D graphics MIP LCD displays, and secure boot and secure firmware update functions for improved security are available. With these features, this kit makes it possible to adopt energy harvesting based on RE01 Group devices at the system level and will accelerate the development of equipment that does not require battery maintenance.

IAR Embedded Workbench® for Arm which can use the high efficiency IAR C/C++ compiler, and e2 studio (note 2) which can use the free GNU compiler are available as the developmental environment.

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