iG200 is based on fully programmable Xilinx Zynq 7010. This System on Chip (SoC) is the main controller processing system. The advanced version has machine learning capability on the chip. It is the ideal platform to infuse intelligence into your embedded systems.
iG200 modular system controller offers a Dual ARM® Cortex®-A9 MPCore™ with CoreSight™ with 23K Logic Cells and Spartan 6 FPGA inside the expansion modules. This FPGA based system have very low power requirement to run the system. It is also less sensitive to temperature and heat conditions. The system can operate in harsh conditions ranging from -40° to 100° Celsius. FPGA based parallel processing provide efficient way of reading sensor signals and making sense out of it. The main controller supports 32 modules.
Controllers and modules can be mounted on DIN Rail mounts. It is easy to place it next to power DB (Distribution Box). Placing near the power DB allows it to continuously measure and report energy consumption. This helps you to control cost of energy heavy devices and appliances. iG200 optimizes energy consumption and provide an IoT gateway all in a single package.
ARM Cortex-A9 Based Application Processor Unit (APU)
2.5 DMIPS/MHz per CPU
CPU frequency: Up to 1 GHz
NEON™ media-processing engine
512 Mb DDR3 External memory and 256 Kb internal memory
Two 10/100/1000 tri-speed Ethernet Interface
Two USB 2.0 OTG peripherals, each supporting up to 12 Endpoints
Two full CAN 2.0B compliant CAN bus interfaces
Two SD/SDIO 2.0/MMC3.31 compliant controllers
Two full-duplex SPI ports with
Two high-speed UARTs (up to 1 Mb/s)
Management console interface
Media transmission distance up to 550m, 10km or longer, depending on the optional 1000BASE-SX/LX SFP transceiver modules
Acquisition of an analogue signal at a 16-bit resolution for standard signals +/- 10V, 0-20mA, 4-20mA
Free configuration of its 10 terminals as digital input or output
5 ports with maximum output current of 1.4 A for each terminal
5 PWM outputs which provide pulse width modulated signals (PWM) within the range of 0% to 100% for controlling of actuators