Featuring a very compact footprint as well as excellent usability, Vision Components VCSBCnano Z-RH-2 series embedded cameras enable high-speed image processing in real time. The ultra-small products are available for cost-sensitive OEM applications where installation space is limited. The smart cameras are equipped with a Xilinx ZYNQ dual-core Cortex A9 ARM processor clocked at 2 × 866 MHz, which comes with an integrated FPGA running the VC Linux operating system. The miniature board dimensions of 40 × 65 mm for the main board and 24 × 18 mm for the sensor boards combined with custom installation and connection options facilitate a flexible integration into industrial or other applications (e.g., high-speed and line camera applications).
Two external sensor boards connected to the CPU board via 30 mm or 80 mm ribbon cables (other lengths on request) enable stereo vision applications. Vision Components also provides models with an on-board sensor or single external sensor to give users maximum flexibility for machine or robot integration.
All VCSBCnano Z-RH-2 cameras feature 12 programmable inputs and outputs, an optically isolated trigger output, a flash trigger, Gbit Ethernet interface, RS-232 interface, and I²C interface. They are available with five different CMOS sensors with a global shutter that provide resolutions up to 4.2 Megapixels. An optional IP67 case, either with or without integrated optics and lighting, ensures protection in harsh environments. For users seeking to fully exploit the performance potential of the hardware, Vision Components also offers an FPGA programming service which can accelerate processing speeds many times over. Like all VC cameras, VCSBCnano Z series cameras come complete with the free-of-charge VCLib software library, which provides over 300 basic industrial image processing functions such as pattern matching.
Source: Vision ComponentsSponsor this Article
Circuit Cellar's editorial team comprises professional engineers, technical editors, and digital media specialists. You can reach the Editorial Department at firstname.lastname@example.org, @circuitcellar, and facebook.com/circuitcellar