29 May 2015
Operating with Linux firmware, the systems follow a new processor approach: Until now, Vision Components has been using freely programmable DSPs combined with the proprietary VCRT operating system which ensures optimal hardware utilization. Now, the VC Z series employs a new Xilinx hardware module that integrates FPGA logic and a dual core ARM processor. Both elements can be programmed. This design not only minimizes the required space on the board, but also enables a considerable speed boost, if required: Since the FPGA can now be used for image processing, this process can be executed up to ten times faster than without FPGA support.
“We see the combination of Linux as an operating system and an ARM processor as a future-proof approach that opens up new possibilities for our users. Our VC Z cameras are now for instance suitable for high-speed or line scan applications that were not easy to implement with former models”, says VC CEO and founder Michael Engel. With VC Z units, users can continue to rely on ready-to-use intelligent cameras that independently execute all image processing routines. At the same time, Vision Components have made the recently extended VC Lib image processing library which encompasses the basic software for all intelligent VC cameras available free of charge. Users can now employ more than 300 VC Lib functions free of charge, without any additional costs for runtime licenses or other fees. Customers can now choose between ARM/VC Linux-based and DSP/VCRT-based camera models, depending on what solution is best for their application.
STEMMER IMAGING as the sales channel for these Vision Components industrial embedded machine vision systems offers a wide range of consulting services and if required, support customers along the way.
After more than 25 years of experience in developing industrial cameras, Vision Components still pushing the development of the technology even further and setting new limits to what is feasible. The portfolio of cameras is so diverse that every user across the globe can find the best possible solution for their application scenario. The most common areas of application include integration into industrial production processes, quality assurance or safety equipment, measurement technology, filling control, optical character recognition, biometric access control and detecting barcodes, 2D or 3D matrix codes.