Innovative Integration Announces the FMC-310 IO Module Featuring Four 310 MSPS A/D Channels and Receiver IF Frequencies of Up to 155 MHz

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Innovative Integration's FMC-310 a high speed digitizing and signal generation FMC IO module featuring four 310 MSPS A/D channels supported by sample clock and triggering features. Receiver IF frequencies of up to 155 MHz are supported.

Innovative Integration, a trusted supplier of signal processing and data acquisition hardware and software solutions, today announced the FMC-310 a high speed digitizing and signal generation FMC IO module featuring four 310 MSPS A/D channels supported by sample clock and triggering features. Receiver IF frequencies of up to 155 MHz are supported.

Support logic in VHDL is provided for integration with FPGA carrier cards. Specific support for Innovative carrier cards includes integration with Framework Logic tools that support VHDL/Verilog and Matlab developers. The Matlab BSP supports real-time hardware-in-the-loop development using the graphical block diagram Simulink environment with Xilinx System Generator for the FMC are integrated within the FPGA carrier card.

The FMC-310 addresses the needs of many customers in a variety of markets, Wireless, Industrial Control, Military Hardware, Medical Imaging, Telecom/Intelligence, and Test & Measurement.

Features:

  • Four A/D Inputs

◦ 310 MSPS, 16-bit
◦ AC or DC coupled

  • Sample clocks and timing and controls

◦ External clock/reference input
◦ Programmable PLL
◦ 10 MHz, 0.5 ppm reference
◦ Integrated with FMC triggers

  • FMC module, VITA 57.1

◦ High Pin Count no SERDES required
◦ Compatible with 1.2 to 3.3V VADJ
◦ Power monitor and controls

  • 6W typical (AC-coupled inputs)
  • Conduction Cooling per VITA 20 subset
  • Environmental ratings for -40° to 85°C 9g RMS sine, 0.1g2/Hz random vibration

Applications:

  • Wireless Receiver and Transmitter
  • LTE, WiMAX Physical Layer
  • RADAR
  • Medical Imaging
  • Wireless Receiver and Transmitter
  • High Speed Data Recording and Playback

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Nora Henderson

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