- Small, 200-pin SODIMM form factor (2.66" x 2.375")
- Atmel ARM9 Jazelle AT91SAM9G45 or AT91SAM9M10 400Mhz Processor
- 10/100BaseT Ethernet with on-board PHY
- 5 Serial ports, 4 with handshake
- 1 USB 2.0 (High Speed) Host port
- 1 USB 2.0 (High Speed) Host/Device (USB OTG) port
- Up to 128 MB of DDR2 RAM
- Up to 128 MB of SDRAM
- Up to 1 GB of NAND Flash
- Up to 8 MB of Serial Data Flash
- Battery backed Real Time Clock
- On-Module Micro SD Card Socket
- SD/MMC Flash Card Interface
- 2 I2C and 2 SPI ports
- 2 I2S Audio ports
- Image Sensor Interface (ISI), ITU-R BT 601/656
- Timer/Counters and Pulse Width Modulation (PWM) ports
- 8 Channel, 10-bit Analog-to-Digital converter with 4-wire Touchscreen Interface
- Graphic LCD Interface with 2D acceleration up to 1280 x 860 Resolution
- Multi-format Video Decoder (SoM-9M10 only)
- True Random Number Generator
- Typical power requirement less than 1 Watt
- JTAG for debug, including real-time trace
- FREE Eclipse IDE with GCC & GDB development tools
- Linux
- Green Hills Integrity BSP in development
Designed and manufactured in the USA the SoM-9M10 is a System-on-Module (SoM) based on either the Atmel ARM9 AT91SAM9G45 or AT91SAM9M10 processor. This Fanless ARM9, 400 MHz SoM has an Ethernet PHY included along with 4 serial ports. It utilizes up to 256MB of external DDR2 / SDRAM, 1GB of NAND Flash and includes an MMU which allows it to run Linux Operating System. A SoM is a small embedded module that contains the core of a microprocessor system.
Using the same small 200 pin SODIMM form-factor utilized by other EMAC SoM modules, the SoM-9M10 is the ideal processor engine for your next design. All of the ARM processor core is included on this tiny board including: Flash, Memory, Serial Ports, Ethernet, I2S Audio, PWMs, Timer/Counters, A/D, digital I/O lines, video, Clock/Calendar, and more.
The SoM-9M10 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 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, Touchscreen, and Audio interfaces. The recommended off-the-shelf Carrier Board for the SoM-9M10 is the SoM-200ES 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.