G3Sberry
Evaluation Board for Gateway Applications
The G3Sberry baseboard is build around the MSRZG3S System on Module. The G3Sberry supports users to have a smooth start-up with the new CPU architecture RZ/G3S by Renesas. It supports all necessary features to make first steps with the CortexA55 CPU architecture, develop and debug drivers and the bootloader and even to use it in prototype setups.
The MSRZG3S is based on Renesas RZ Family architecture offering high-performance 64-bit CortexA55 core. The MSRZG3S combines compact design and a wide range of services, bringing low power consumption, thermal efficiency and low-cost to embedded systems. The MSRZG3S was designed to meet the specification of the OSM-standard as much as possible.
The RZ/G3S general-purpose microprocessor units (MPUs) are built around a 64-bit CortexA55 CPU core. Peripheral functions include support for multiple interfaces, such as two Gigabit Ethernet channels, two USB 2.0 channels, and two CAN channels, as well as dual A/D converter modules, making it ideal for applications such as entry-class social infrastructure gateway control and industrial gateway control.
Features
- MSRZG3S-A0A System on Module
- Renesas RZ/G3S
- 512MB LPDDR4 RAM
- no eMMC NAND Flash
- 128MBit SPI-NOR
- -25°...+85°C
- two Ethernet ports 10/100/1000MBit/s on RJ45
- PCIe on M.2 connector
- console via USB to UART
- USB2.0 Host
- USB2.0 OTG
- 2xI2C
- GPIO
- SD-card interface
- 5V single voltage supply via USB
Block Diagram
Pictures
Order Codes
G3Sberry-A0A
supporting
- MSRZG3S-A0A System on Module
- Renesas RZ/G3S
- 512MB LPDDR4 RAM
- no eMMC NAND Flash
- 128MBit SPI-NOR
- -25°...+85°C
- two Ethernet ports 10/100/1000MBit/s on RJ45
- PCIe on M.2 connector
- console via USB to UART
- USB2.0 Host
- USB2.0 OTG
- 2xI2C
- GPIO
- SD-card interface
- 5V single voltage supply via USB
The idea of all Open Standard Modules is to create a new, future proof and versatile standard for small-size, low-cost embedded computer modules, combining the following key characteristics:
- Completely machine processible during soldering, assembly and testing
- different possible packages for direct PCB soldering without connector
- Pre-defined soft- and hardware interfaces
- Open-Source in soft- and hardware
The Open Standard Module specification allows developing, producing and distributing embedded modules for the most popular MCU32, ARM and RSICV architectures. For a growing number of IoT applications this standard helps to combine the advantages of modular embedded computing with increasing requirements regarding costs, space and interfaces.