FMC Vita 57.1 & 57.4 daughter cards / modules
Vita 57.1/57.4 specification provide mechanical and electrical standard for I/O mezzanine modules. Each standard introduces a methodology that shall allow the front panel I/Os of IEEE 1101 form factor
Related Topics:
Optical Modules Fiber Raceway Cable Tray Structured Cabling
Optical FMC (high-speed FPGA Mezzanine Card)
Compliant with VITA 57.1 and VITA 57.4 standards, they fit all FMC and FMC+ carrier boards. Available in commercial or industrial version, these optical FMC are compliant with both air and conduction
V6068 3U VPX Versal® Premium Adaptive SoC FPGA Optical I/O Module
Designed for dense signal paths, this 3U VPX module pairs a Versal Premium Adaptive SoC with optical I/O and a single FMC+ site for direct, low-latency expansion.
Optics / FPGA Kits
On-board optical modules continue to gain acceptance in embedded, medical and mil/aero applications. Samtec offers a wide portfolio of FMC™, FMC+™ and optical module evaluation kits for real-time
I/O Modules
The Trenz Electronic TEF0008 is a FPGA to Mezzanine Card (FMC) based on VITA 57.1 FMC HPC Standard, with four SFP+ 10 GBit ports for fiber optical SFP modules. It is inteded for use on a FMC
FireFly™ Mid-Board Optical Transceivers
As a VITA™ 57.1 FMC™, the Samtec 14 Gbps FireFly™ FMC™ Module can be used for optical data communication on any FPGA development board supporting high-speed multi-gigabit transceivers.
FPGA Mezzanine Cards (FMC)
FPGA Mezzanine Cards (FMC) FMCs bring modularity to high performance I/O - whether you need high bandwidth ADCs and DACs for radar applications, Gigabit Ethernet for digital communications, or
ALINX 4 * SFP+ Optical Fiber Interface FH1223 HPC FMC Card
FH1223 extends four SFPs, with each SFP having a set of TX and RX connected to the transceiver pins. FH1223 has a standard FMC HPC interface that can be connected to the ALINX FPGA carrier board
Optical Transceivers Catalog (A4)
The FMC cards are available for use in rugged applications using LightABLE optical transceivers (LLF models) or rugged applications in space using the SpaceABLE optical transceivers (SLF models).
Optical module design resources | TI
Design requirements Modern optical module designs often require: Reduced power consumption to control and limit module temperature rise. Dynamic and precise control of laser diodes to regulate
Optical FMC (high-speed FPGA Mezzanine Card)
Compliant with VITA 57.1 and VITA 57.4 standards, they fit all FMC