- Small, 144 pin SODIMM form factor (2.66" x 1.5)
- Atmel ARM Cortex A5 536Mhz Processor
- 4GB of eMMC Flash
- 512 MB or LP DDR2 RAM
- 5x serial ports with handshake (1x serial port with no handshake)
- 1x 10/100 BaseT Ethernet port
- 2x USB 2.0 High Speed Host ports
- 1x USB 2.0 High Speed Host/Device port
- 4x A/D Channels with 12-bit A/D Converter
- Internal Real time clock/calendar (with external battery backup)
- 18x GPIO (3.3V) Lines
- 8x PWM Channels
- 4x Timer/Counters
- 3x Programmable Clock outputs
- 1x I2S Audio Port
- 2x SPI Port (2 SPI CS)
- 2x 12C Ports
- 2x CAN 2.0B Ports
- External Reset Button provision and green Status (software controlled) LED
- 1x SDIO SD Ports
- +3.3 volt board input voltage required
- Power consumption at 3.3VDc
- Typical 175mA
- Max Boot 210mA
- Constant Busy 180mA
- Idle System 160mA
- Idle w/o PHY 65mA
- APM w/ PHY 60ma
- APM w/o PHY 9.5mA
- Special Cases
- APM w/o PHY&USB 4.2mA
- RoHS 2 (2011) compliance
The SoM-A5D35 is a System on Module (SoM) based on the Atmel ARM Cortex A5 ATSAMA5D35 processor. Designed and manufactured in the USA, this wide temperature, fanless ARM 536 MHz SoM has a 10/100 BaseT Ethernet included along with 4 serial ports with handshake. It utilizes up to 4GB of eMMC Flash, up to 16MB of serial data flash, and up to 512MB of LP DDR2 RAM. While also offering APM sleep mode, which allows for low power consumption, while still supporting real-time operating systems (RTOS) such as Xenomai. A SoM is a small embedded module that contains the core of a microprocessor system.
Using the same small 144 pin SODIMM form-factor utilized by other EMAC SoM modules, the SoM-A5D35 is the ideal processor engine for your next design. All of the ARM processor core functionality is included on this tiny board including: Flash, Memory, Serial Ports, Ethernet, I2S Audio, PWMs, Timer/Counters, A/D, digital I/O lines, Clock/Calendar, and more.
The SoM-A5D35 is designed to plug into a carrier board that contains all the connectors and any custom I/O required for the application. This approach allows the customer or EMAC to design a Custom Carrier Board, that meets the customer's I/O, dimensional, and connector requirements without having to worry about the processor, memory, and standard I/O functionality. With this System on Module approach, a semi-custom hardware platform can be developed in as little as a month.
In addition to the option of the developing a custom carrier board, one can be purchased off-the-shelf from EMAC. EMAC provides off-the-shelf Carrier boards that feature A/D, D/A, MMC/SD card, keypad, LCD, Audio, and Modem interfaces. The recommended off-the-shelf Carrier Board for the SoM-A5D35 is the SoM-150ES which allows the user to immediately start coding their application using the powerful Linux Operating System and Tools.
The System On Module approach provides the flexibility of a fully customized product at a greatly reduced cost.