FMC120

FMC - FPGA Mezzanine Card

Quad Channel 16-bit A/D @ 1 GSPS
Quad Channel 16-bit D/A @ 1.25 GSPS
Simultaneous Sampling @ 1 GSPS

FMC120

  • Description

      The FMC120 provides four 16-bit A/D channels up to 1Gsps and four 16-bit D/A channels up to 1.25Gsps data rate and up to 2.8Gsps sample rate with interpolation. The devices can function up to 1Gsps during simultaneously D/A and A/D operation due to a shared clock source. The design is based on Texas Instruments' ADS54J60 Analog-to-Digital converter and Texas Instruments' DAC39J84 Digital-to-Analog converter. The sample clock can be supplied externally through a coax connection or supplied by an internal clock source (optionally locked to an external reference). Additionally, a trigger input is available for customized synchronization. The FMC120 is mechanically and electrically compliant to the FMC standard (ANSI/VITA 57.1). The card connects to an FPGA carrier card through a standard high-pin count (HPC) connector. Front panel I/O can optionally be populated with MMCX or SSMC coaxial connectors. Analog I/O is DC coupled. The FMC120 is designed to be used in convection or conduction cooled environments. When paired with the latest FPGA carrier cards such as the 4DSP PC821 with Xilinx Ultrascale technology, customers can innovate high performance algorithms on an industry standard platforms.

  • Features
      Quad - A/D - D/A Channel Operation
      Quad Channels 16-bit 1.00 GSPS A/D
      Quad Channels 16-bit 1.25 GSPS D/A
      Simultaneous sampling on all channels up to 1 GSPS
      VITA 57.1-2010 compliant
      Conduction Cooled – Standard Option
      Single ended DC or AC-coupled analog input.
      Clock Source, Sampling Frequency, and Calibration through an SPI communication bus
      Internal clock or external clock
      Mil-I-46058c Conformal Coating Compliant (optional)
      HPC – High Pin Count Connector
      10 front panel SSMC or MMCX connectors
      2Kbit EEPROM (24LC02B) accessible from the Host via I2C bus
      JTAG – CPLD device is included in the JTAG chain accessible from the FMC connection

      (Click Block Diagram to Enlarge)

      FMC120 Block Diagram

  • Board Support Package
      4FM GUI offers multiple functions including the ability to monitor voltage and temperature; perform memory tests; measure the PCIe bandwidth; update FPGA firmware; and access StellarIP
      StellarIP available for this product. A simple way to design FPGA firmware with automated code and bitstream generation
      Data analyzer makes it possible to display digitized data real time
      Reference designs that work out of the box are available for multiple platforms, please see tables below
      Can be used on any VITA 57.1 compliant carrier card
      User Manual
      For support, please visit our support forum
      Download the BSP datasheet for more information
  • Application
      Software defined radio (SDR)
      4x4 MIMO
      Digital Beam Forming
      RADAR/SONAR Electronic Warfare
      Experimental Physics
      Analog record and playback systems
      Aerospace and test measurement instruments
  • Environmental
      EnvironmentalAir-cooledConduction-cooled
      ANSI/VITA 47EAC4EAC6ECC1ECC4
      Operating Temperature0C to +55C-40C to +70C0C to +55C-40C to +85C
      Storage Temperature-40C to +85C-50C to +100C-40C to +85C-55C to +105C
      Humidity95%95%95%95%
      Operating Vibration5Hz to 100Hz, PSD = 0.04g2/Hz

      100Hz to 1000Hz PSD = 0.04 gs^2/Hz

      1000Hz to 2000Hz PSD decreasing at 6 dB/ octave
      5Hz to 100Hz, PSD = 0.04g2/Hz

      100Hz to 1000Hz PSD = 0.04 gs^2/Hz

      1000Hz to 2000Hz PSD decreasing at 6 dB/ octave
      5Hz to 100Hz PSD increasing at 3 dB/ octave

      100Hz to 1000Hz PSD = 0.1 g^2/Hz

      1000Hz to 2000Hz PSD decreasing at 6 dB/octave
      5Hz to 100Hz PSD increasing at 3 dB/ octave

      100Hz to 1000Hz PSD = 0.1 g^2/Hz

      1000Hz to 2000Hz PSD decreasing at 6 dB/octave
      Operating Shock20g, 11 millisecond, half-sine or 20g, 11 millisecond, terminal sawtooth shock pulses in all three axes20g, 11 millisecond, half-sine or 20g, 11 millisecond, terminal sawtooth shock pulses in all three axes40g, 11 millisecond shock half-sine or 40g, 11 millisecond, terminal sawtooth shock pulses in all three axes40g, 11 millisecond shock half-sine or 40g, 11 millisecond, terminal sawtooth shock pulses in all three axes
      Operating Altitude-1500 ft to 60,000 ft
      (with airflow)
      -1500 ft to 60,000 ft
      (with airflow)
      -1500 ft to 60,000 ft-1500 ft to 60,000 ft
      Conformal CoatingOptionalOptionalOptionalOptional

Talk to us about your algorithmic requirements, 4DSP is a full-service firmware and software development house. We are specialists at high performance FFT and Video Processing. Check with us, we may have IP Cores that meet requirements for your application, right off the shelf.