Overview

Description

This scalable SMARC 2.1 system on module (SoM) with artificial intelligence (AI) solution is based on the powerful Renesas RZ/G2 microprocessor family and a full power and timing tree. It demonstrates a turn-key architecture for AI-enabled human machine interface (HMI) applications, such as smart industrial control terminals.

System Benefits​:

  • Linux operating system
  • Single-core configurations for low power consumption
  • Single programmable clock generator on board
  • Extensive communications interface support
  • Robust power supply with hot plug/swap support
  • Low-cost logic ICs cover the SMARC standard requirement with minimum space

Comparison

Applications

Applications

  • Human machine interface (HMI)
  • Embedded vision application
  • AI IoT
  • Barcode scanner
  • Industrial gateway
  • Sound system

Winning Combinations Interactive Diagram

Select a block to discover products for your design

4:3 ratio Sheet.78 Sheet.1 Sheet.2 Sheet.3 Sheet.4 US219 US219 US219 DDR4 DDR4 DDR4 QSPI QSPI QSPI eMMC eMMC eMMC uSD uSD uSD Ethernet PHY Ethernet PHY Ethernet PHY Ethernet PHY Ethernet PHY Ethernet PHY SPDT Switch SPDT Switch SPDT Switch USB Logic USB Logic USB Logic Boot Logic Boot Logic Boot Logic Power Logic Power Logic Power Logic Power/Reset/Boot SW Power/Reset/Boot Software Power/Reset/Boot Software Interface Interface Interface US 222 Carrier Board Carrier Board Carrier Board Sheet.28 Sheet.29 Sheet.30 Sheet.32 Sheet.33 Sheet.34 Sheet.36 Sheet.37 Sheet.38 Sheet.39 Sheet.40 Sheet.42 Sheet.43 Sheet.44 Sheet.45 Sheet.46 Sheet.47 Sheet.48 Sheet.49 Sheet.50 Sheet.51 Sheet.52 Sheet.53 Sheet.54 Sheet.55 Sheet.56 Sheet.57 Sheet.58 Sheet.59 Sheet.60 Sheet.61 Sheet.62 Sheet.63 Sheet.64 Sheet.65 Sheet.67 Sheet.68 Sheet.69 Sheet.70 Sheet.71 Sheet.72 Sheet.73 Sheet.74 Sheet.75 Sheet.76 Sheet.80 Sheet.82 Sheet.83 Sheet.84 Sheet.85 Sheet.86 Sheet.88 Sheet.89 Sheet.90 Sheet.91 Sheet.92 Sheet.93 Sheet.94 Sheet.95 Sheet.96 Sheet.98 Sheet.99 Sheet.100 Sheet.101 VTT VTT VTT VTT (0.5*VDDQ) VTT (0.5*VDDQ) VTT (0.5*VDDQ) Connector 1 DDR VTT Power DDR VTT Power DDR VTT Power PG00D PG00D PG00D Connector 1.119 Connector 1.120 Connector 1.121 RTC RTC RTC Lever Shifter Lever Shifter Lever Shifter Sheet.77 Sheet.136 Connector 1.137 Connector 1.138 Connector 1.140 Connector 1.141 Sheet.143 Sheet.144 Connector 1.145 Connector 1.149 Clock Clock Clock DDR VPP (2.5V) DDR VPP (2.5V) DDR VPP (2.5V) Ethercore (1.2V) Ethercore (1.2V) Ethercore (1.2V) Vcore (1.1V) VCore (1.1V) VCore (1.1V) VDDQ (1.2V) VDDQ (1.2V) VDDQ (1.2V) D3.3V (3.3V) D3.3V (3.3V) D3.3V (3.3V) SD Card 1 (1.8V/3.3V) SD Card 1 (1.8V/3.3V) SD Card 1(1.8V/3.3V) D1.8 (1.8V) D1.8 (1.8V) D1.8 (1.8V) SD Card0 (1.8V/3.3V) SD Card0 (1.8V/3.3V) SD Card0 (1.8V/3.3V) 24MHz 24MHz 24MHz Audio Audio Audio Audio Audio Audio RTC RTC RTC Audio Audio Audio 25MHz, 3.3V 25MHz, 3.3V 25MHz, 3.3V 25MHz, 3.3V 25MHz, 3.3V 25MHz, 3.3V PMIC DA9062 PMIC PMIC LD03,4/VIN LD03,4/VIN LD03,4/VIN LD01 LD01 LD01 LD03.4 LD03,4 LD03,4 Buck1 Buck1 Buck1 Buck2 Buck2 Buck2 Buck3 Buck3 Buck3 Buck4 Buck4 Buck4 LD02 LD02 LD02 I2C I2C I2C RESET RESET RESET RTC RTC RTC Buckx/VIN Buckx_VIN Buckx_VIN MCU RZ/G2UL MCU MCU DBSC DBSC DBSC QSPI QSPI QSPI SDHI SDHI SDHI UART UART UART CAN CAN CAN MMC* MMC* MMC* I2C I2C I2C SPI SPI SPI I2C/UART I2C/UART I2C/UART SDHI*/USB UART SDHI*/USB UART SDHI*/USB UART Parallel IF Parallel IF Parallel IF MIPI/CS12 Parallel MIPI/CS12 Parallel MIPI/CS12 Parallel SSI SSI SSI USB 2.0 USB 2.0 USB 2.0 EXTAL EXTAL EXTAL Ether MAC Ether MAC Ether MAC Ether MAC Ether MAC Ether MAC USB 2.0 USB 2.0 USB 2.0
Exiting Interactive Block Diagram