Processor: 2.2 GHz i7 Dual-Core
Operating System: Real-Time OS
System Memory: 8 GB
Storage Memory: 4 GB
GigE Vision Inputs: 4
USB3 Vision Inputs: 2
Quadrature Encoder Inputs: 1
Isolated Input Channels: 8
Isolated Output Channels: 8
TTL Input Channels: 8 Bi-Directional
TTL Output Channels: Same
FPGA: Kintex-7 160T
This controller features a 2.20 GHz Intel Core i7 dual-core processor, 8 GB DDR3 RAM, and 4 GB memory in a rugged design with no moving parts. A Kintex-7 FPGA offers more system performance and flexibility. Developers can use the FPGA both to accelerate image processing as a coprocessor and to create custom digital I/O timing, synchronization, and communication. This optimized hardware design is paired with the NI Linux Real-Time OS to ensure total system reliability and help developers take advantage of the extensive Linux ecosystem.
The IC-3173 provides ideal connectivity to both GigE Vision and USB3 Vision cameras. Developers can use its 4 Gigabit Ethernet and 2 USB 3.0 ports as well as its onboard CPU and FPGA processing to work with large, multicamera systems. The IC-3173 has onboard ISO, TTL, and differential digital I/O, so it can perform synchronization and control tasks without additional tethered I/O. The controller also supports the most popular industrial communication protocols like EtherCAT, EtherNet/IP, and Modbus to control and communicate with other automation equipment such as motor drives, robots, and programmable logic controllers.
Developers can use LabVIEW system design software to create, debug, and deploy logic to the IC-3173 through hundreds of prewritten libraries for image processing, analysis, communication, control, and motion. With these validated software libraries, developers can reduce the time they spend piecing together software components from different vendors and troubleshooting compatibility issues.
The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.