Key Features
- FPGA Mezzanine Card (FMC+) with support for 12x video cameras
- Compatible with GMSL2 serial link from Analog Devices
- Integrates 6x MAX96716A GMSL2 deserializers (3-6 Gbps)
- 6x 4-lane D-PHY MIPI CSI-2 v1.3 video outputs
- Supports RAW8/10/12/14/16/20, RGB565/666/888,YUV422 8-/10-Bit, User-Defined and Generic Long-Packet Data Types
- Enables hardware synchronization of all video cameras
- Compatible with AMD® Versal™ AI Edge Series VEK2802 Evaluation kit and other evaluation kits utilizing HSPC FMC connectors
- Incorporates HSPC FMC connector (ASP-184330-01)
- Board dimensions 85mm x 69mm
- MOQ = 1
This product enables connection of 12 video cameras to the AMD VEK280 evaluation kit. Please ensure that you review AMD documentation for potential limitations related to your specific SoC and board configuration.
Description
Xylon's logiFMC-GMSL2-96716A-12C GMSL2 12-Channel GMSL2 FMC+ mezzanine card supports Gigabit Multimedia Serial Link (GMSL2) from Analog Devices, which is one of the most popular automotive high-speed serial links for in-vehicle video, audio, and communication data stream transfer. The card is primarily designed to enable quick prototyping and evaluation of industrial, medical, defense, automotive and similar video and vision AI applications. It enables easy interfacing of up to twelve video cameras to hardware boards with the AMD FPGA and adaptive SoC based video and vision processors.
The logiFMC+ GMSL2 mezzanine card integrates six (6) MAX96716A deserializer chips (max. 6 Gbps per GMSL2 link). Each deserializer supports two GMSL2 inputs converting them into MIPI Camera Serial Interface (MIPI CSI-2) output of up to 4 MIPI lanes.
The logiFMC+ GMSL2 FMC mezzanine card is compatible, and can support all 12 video channels, with the existing AMD VEK280 evaluation platform that features FMC+ board-to-board connector. It may also be used with the other FMC+ compatible AMD and third-party evaluation platforms. In this case, however, the exact number of available channels may be smaller and depends on carrier board pinout and capabilities.