- 4x Serial Ports (3x RS232 & 1xRS232/422/485)
- 1x 10/100/1000 BaseT Ethernet with Status LEDs
- 2x USB 2.0 Hosts & 1x USB OTG Port
- 1x SD Flash Card Socket
- WiFi 802.11 b/g/n [optional]
- Bluetooth 3.0 + High Speed [optional]
- 1x CAN 2.0 Port
- 24x General Purpose Digital (PLD) I/O Lines (PLD Option)
- 8x Digital Input Lines
- 8x Digital Output Lines with 20 ma. drive
- 8x High Drive Digital Output Lines with Status LEDs (500 ma. sink)
- 32x SoM Specific I/O Lines
- Reset Button
- Power & SD/WiFi Activity Status LEDs
- 1x I2C
- 1x SPI (3 chip selects)
- 1x I2S Audio Line In/Out Port
- 1x 4.3" WQVGA (480x272)
- 1x 4-wire Resistive Touch Screen Interface
- Backlight Brightness Control
- 1x 44-pin dual row 2mm auxiliary video/touch connector
- 5V +/- 10% @ 100mA. (130mA with WiFi) Typical
- Floppy power supply connector and standard barrel power jack
- 0 to 60c [-40 to +85C optional]
- 90% Upper Operating Humidity
- 4.375" x 6.0" (111.13 x 152.40mm)
The SoM-200GS is a compact, low-power SoM Carrier/Socket board with a optional 4.3 inch WQVGA (480 x 272) color LCD and resistive touch screen. This versatile SoM Carrier/Socket board is ideal for evaluation and early development work. This Carrier is designed to work with all EMAC 200-pin SODIMM type SoMs. Note: The SoM-200GS is specifically designed for SoMs with Video & USB capability.
The SoM-200GS provides access to much of the SoM's I/O through on-board connectors as well as a number of additional I/O expansion blocks such as Video, Touchscreen, Wireless Networking, Gigabit Ethernet and Micro HCSD/MMC flash disk.
Although a good deal of customers will want a Carrier that is unique and is designed specifically for their application, the SoM-200GS when coupled with a SoM-A5D36, SoM-3354M, or SoM-3517M SODIMM SoM makes for a powerful User Interface Control System with USB and Ethernet capabilities. This allows the user to gather data and respond with Control commands via the Internet.
When a unique custom board is required, the amount of design work required is greatly minimized by the SoM approach. The custom Carrier designer does not have to worry about the processor, memory, and standard I/O functions and can concentrate on the I/O, connectors and dimensional aspects required for the application.
In situations where a custom Carrier is required but the customer does not have the capability to design such a board in-house, EMAC's Custom to Order Services (COS) can be utilized. Using COS the customer can select from a library of standard I/O blocks. These blocks can be put together quickly into a form-factor of the customer's choosing, providing prototypes in as little as 30 days.