Camera Link frame grabbers in PCIe, PCI, cPCI, PMC form factors. Free downloadable SDK for Windows/Linux. Source code included. Support for base, medium, full and 80-bit modes. For use in machine vision and scientific applications where high resolution, high speed and low latency are required.
Camera Link frame grabber | PCI Express x1 The VisionLink F1 is a 1-lane PCIe framegrabber with one or optionally two SDR26 connectors for up to two base mode Camera Link cameras. It supports standard mode control (CC) lines and has an on-board UART for camera control and... Read more »
Camera Link frame grabber | PCI Express x4 The VisionLink F4 is a 4-lane PCIe framegrabber with two SDR26 connectors for up to two base through full mode Camera Link cameras. It supports standard mode control (CC) lines and has an on-board UART for camera control and external... Read more »
Camera Link frame grabber | PMC The PMC DV C-Link is a Camera Link frame grabber that provides high-resolution image capture for digital video in a PMC form-factor board. It has one MDR-26 pin connector to support a single base-mode camera. It supports standard mode control... Read more »
Camera Link frame grabber | PCI The PCI DV C-Link is a Camera Link frame grabber board that provides high-resolution image capture for digital video cameras. The PCI DV C-Link has two MDR 26-pin connectors to support one medium- or up to two base-mode cameras. It... Read more »
Camera Link frame grabber | CompactPCI The cPCI DV C-Link is a Camera Link digital image capture interface (frame grabber) that provides high-resolution image capture for high-resolution CCD and CMOS digital video cameras. The cPCI DV C-Link has two MDR 26-pin connectors to support one medium-... Read more »
Fiber optic Camera Link frame grabber | PMC The PMC DV FOX is a long-range fiberoptic frame grabber that provides high-resolution image capture for Camera Link cameras. It supports one medium- or up to two base-mode cameras, at distances up to 100 kilometers from the host computer, depending... Read more »