Flash memory microcontroller features embedded flash technology
The sample shipment of the flash memory microcontroller using a 28nm process technology has been announced by Renesas Electronics. To contribute to the realisation of next-gen green cars and autonomous vehicles with higher efficiency and higher reliability, the RH850/E2x Series MCU incorporates up to six 400MHz CPU cores, which according to the company makes it the first on-chip flash memory automotive MCU to achieve the industry's highest processing performance of 9600 MIPS.
The new MCU series also features a built-in flash memory of up to 16MB as well as enhanced security functions and functional safety.
Under Renesas autonomy, an open and trusted platform for assisted and automated driving, Renesas provides end-to-end solutions that advance the evolution of vehicles towards next-gen green cars, connected cars, and autonomous-driving vehicles.
The 28nm-generation automotive control MCU is a new product featuring next-gen technology for achieving vehicle control, which, together with the R-Car Family of Systems-on-Chip (SoCs) designed for cloud connectivity and sensing, constitute the two main pillars of the Renesas autonomy Platform.
Car OEMs and Tier 1 manufacturers, such as Denso Corporation, have already started to adopt the new 28nm MCU, recognising the MCU’s processing performance capable of developing next-gen fuel-efficient engines, as well as its scalability as a platform that addresses the expected Electronic Control Unit (ECU) integration to come from changes in automotive Electrics/Electronics (E/E) architecture.
High processing performance to enable complex automotive control for green cars
To develop environmentally-friendly vehicles, next-gen fuel-efficient engines require high processing performance to allow the implementation of new fuel combustion systems.
In addition, both high processing performance and high integration densities are required to achieve miniaturisation and higher efficiency in the motors and inverters used in Electric Vehicles (EV) and plug-in hybrid electric vehicles (PHEV). According to the company, the newly-developed 28nm-process flash memory MCU is the world’s first to achieve up to six 400MHz CPU cores and 9600 MIPS processing capabilities.
Compared to the earlier 40nm MCUs, the new RH850/E2x Series of MCUs also achieves approximately three times the performance at the same power level. The RH850/E2x realises increased automotive control system integration by including enhanced sensor interfaces necessary for precise automotive control functions. Multi-core virtual environments and model-based development environments for the new MCUs will be available from Renesas partner companies.
Advanced OTA updates with large flash memory capacities for connected cars
Demand for built-in large capacity flash memory is rising to support Over-The-Air (OTA) functionality which automatically and wirelessly updates the ECU software to control programmes with improved safety. The RH850/E2x Series is equipped with up to 16MB of flash ROM and, to suit the user’s needs and preferences, it is possible to only update certain arbitrary areas during programme operation.
The RH850/E2x Series also comes with improved serial interfaces, including up to ten channels of CAN FD and one Ethernet channel. Security functions that support Evita Medium enable the MCUs to support safe and rapid OTA updating of the software.
Enhanced functional safety for autonomous-driving vehicles
Targeting ASIL-D, the highest level of the ISO 26262 functional safety standard for automotive E/E systems, the RH850/E2x Series adopts the dual core lock step CPU structure that guarantees that the calculations performed by two CPU cores are identical. The RH850/E2x also provides up to four sets of CPU pairs, and features a variety of hardware functional safety improvements.
In applications where a system malfunction could lead to life-endangering accidents, these features immediately detect faults should a malfunction occur and allow system safety to be maintained. Renesas will provide safety analysis tools that can flexibly support a wide range of use cases to implement safe systems.