Products

Displaying 1 - 19 of 19

Abaco ICS-1572A 2-Channel, 250 MHz 16-bit ADC, 2-Channel 500 MHz 16-bit DAC XMC Module

  • 2 Transformer-coupled Analog Inputs, 16-bits, Fs < 250MHz per channel
  • 2 Transformer-coupled Analog Outputs, 16-bits, Fs < 500MHz per channel
  • Xilinx Virtex-6 LX240T User Programmable FPGA standard, other devices available as an option
  • PCI-e x8 Master/Target Burst Mode DMA capable
  • VxWorks, Linux and Windows software drivers

Abaco MMS6245 Micro Mezzanine System Carrier - Four ECM sites

  • VITA 42.3 Compliant XMC Module
  • 64 customizable front panel I/O lines
  • Flexible I/O with Electrical Conversion Modules (ECM)
  • Can host up to four ECMs
  • 32 FPGA signals per ECM
  • 16 I/O per ECM
  • Altera Cyclone V GX FPGA
  • standard 50K logic elements
  • optional 149.5K logic elements
  • PCIe Gen 1 x4 interface
  • Open FPGA reference design with optional NIOS-II embedded processor support.
  • FPGA and host C/C++ reference example with source provided.
  • Convection cooled only
  • RoHS compliant

Acromag SFP Transceivers

Compact optical modular transceivers are available in 1000BASE-T copper or short-wavelength fibre. Both are compatible with the Gigabit Ethernet standard specified in IEEE Std 802.3

Acromag XMC-6VLX - User-Configurable Virtex-6 FPGA Modules with PCIe and SRIO/Aurora Interface

Not recommended for new designs.
  • XMC-6VLX240: 240k logic cells (XC6VLX240T)
  • XMC-6VLX365: 365k logic cells (XC6VLX365T) 
Acromag’s XMC-6VLX modules feature a high-performance user-configurable Xilinx® Virtex®-6 FPGA enhanced with high-speed memory and a high-throughput serial interface. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.

Acromag XMC-7A200 - User-Configurable Artix-7 FPGA Modules with Plug-In I/O

  • Artix-7 FPGA with 200k logic cells.
  • 128M x 64-bit DDR3 SDRAM
  • 32M x 16-bit parallel flash memory for MicroBlaze FPGA program code storage.
Acromag’s XMC-7A modules feature a high-performance user-configurable Xilinx® Artix®-7 FPGA enhanced with high-speed memory and a high-throughput serial bus interface. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.
The logic-optimized FPGA is well-suited for a broad range of applications. Typical uses include hardware simulation, communications, in-circuit diagnostics, military servers, signal intelligence, and image processing.
Both front and rear I/O is supported. Front I/O processing is supported with plug-in AXM mezzanine cards. A variety of AXM I/O cards are available to add the flexibility of a wide range of analog and digital I/O to your design.

Acromag XMC-7A200 - User-Configurable Conduction-Cooled Artix-7 FPGA Modules

  • Artix-7 FPGA with 200k logic cells.
Acromag’s XMC-7A200CC modules feature a high-performance user-configurable Xilinx® Artix®-7 FPGA enhanced with high-speed memory and a high-throughput serial bus interface. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.

Acromag XMC-7K AX - User-Configurable Kintex-7 FPGA Modules with Plug-In I/O

  • Kintex-7 FPGA with 325k or 410k logic cells.
Acromag’s XMC-7K modules feature a high-performance user-configurable Xilinx® Kintex®-7 FPGA enhanced with high-speed memory and a high-throughput serial bus interface. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.
The logic-optimized FPGA is well-suited for a broad range of applications. Typical uses include hardware simulation, communications, in-circuit diagnostics, military servers, signal intelligence, and image processing.
Both front and rear I/O is supported. Front I/O processing is supported with plug-in AXM mezzanine cards. A variety of AXM I/O cards are available to add the flexibility of a wide range of analog and digital I/O to your design.
The rear I/O provides an 8-lane high-speed serial interface on the P16 XMC port for customer installed soft cores. P16 also supports 34 SelectIO channels. The P4 port adds another 60 SelectIO and global clock lines. SelectI/O signals are Kintex-7 FPGA I/O pins that support single-ended I/O (LVCMOS, HSTL, SSTL) and differential I/O standards (LVDS, HT, LVPECL, BLVDS, HSTL, SSTL).

Acromag XMC-7K CC - User-Configurable Conduction-Cooled Kintex-7 FPGA Modules

  • Kintex-7 FPGA with 325k or 410k logic cells
Acromag’s XMC-7K modules feature a high-performance user-configurable Xilinx® Kintex®-7 FPGA enhanced with high-speed memory and a high-throughput serial bus interface. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.

Acromag XMC-7K F - User-Configurable Kintex-7 FPGA Modules with Dual SFP+ Ports

  • Kintex-7 FPGA with 325k or 410k logic cells
  • 10Gb Ethernet
  • PCIe & SFP +/Aurora interface
Acromag’s XMC-7K modules feature a high-performance user-configurable Xilinx® Kintex®-7 FPGA enhanced with high-speed memory and a high-throughput serial interface. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.
The logic-optimized FPGA is well-suited for a broad range of applications. Typical uses include hardware simulation, communications, in-circuit diagnostics, military servers, signal intelligence, and image processing.
Two versions of this module are available, offering a choice of an FPGA device with 325k or 410k logic cells.
Front I/O adds dual SFP+ ports and a VHDCR connector. The two SFP+ ports each provide a copper or fibre interface of up to 10.3125Gbps. They also support a Gigabit Ethernet interface. The VHDCR connector interfaces JTAG, USB, and 22 SelectIO.

Acromag XMC-SLX - User-Configurable Spartan-6 FPGA Modules with Plug-In I/O

  • XMC-SLX150: 147,433 logic cells (XC6SLX150)
Acromag’s cost-effective XMC-SLX modules feature a user-configurable Xilinx® Spartan®-6 FPGA enhanced with high-speed memory and a high-throughput PCIe interface. Field I/O interfaces to the FPGA via the rear J4/P4 connector and/or with optional front mezzanine AXM plug-in I/O modules. The result is a powerful and flexible I/O processor module that is capable of executing custom instruction sets and algorithms.
The logic-optimized FPGA is well-suited for a broad range of applications. Typical uses include hardware simulation, communications, in-circuit diagnostics, military servers, signal intelligence, and image processing.
Large, high-speed memory banks enable efficient data handling. The dual-port SRAM facilitates high-speed DMA transfers to the bus or CPU. A high-bandwidth PCIe interface ensures fast data throughput.
64 I/O lines are accessible through the rear (J4) connector. Additional I/O processing is supported on a separate mezzanine card that plugs into the FPGA base board. A variety of these external AXM I/O cards are available to interface your analog and digital I/O signals.
Take advantage of the conduction-cooled design for use in hostile environments. Conduction efficiently dissipates heat if there is inadequate cooling air flow. Optional extended temperature models operate reliably from -40 to 85°C.

Acromag XMC-VLX - User-Configurable Virtex-5 FPGA Modules with Plug-In I/O

  • XMC-VLX85: 82,944 logic cells (XC5VLX85T)
  • XMC-VLX110: 110,592 logic cells (XC5VLX110T)
  • XMC-VLX155: 155,648 logic cells (XC5VLX155T)
Acromag’s XMC-VLX boards feature a reconfigurable Xilinx® Virtex™-5 FPGA enhanced with multiple high-speed memory buffers and a high-throughput PCIe interface. Field I/O interfaces to the FPGA via the rear J4/P4 connector and/or with optional front mezzanine AXM plug-in I/O modules. The result is a powerful and flexible I/O processor module that is capable of executing your custom instruction sets and algorithms.

New Wave DV - V1121 Dual Channel 10 Gigabit Ethernet XMC

  • Two 10 Gigabit Ethernet SFP+ optical ports
  • Built-in UDP offload engine for real-time communication
  • Supports PCI Express and XAUI host interfaces
  • Available with streaming front-end FPGA core for quick sensor integration
  • Available with advanced APIs that support multi-core and multi-processor architectures
  • Thermal sensors for monitoring card temperature
  • Available in air and conduction-cooled XMC form factor
  • Provides high-bandwidth 10 Gigabit Ethernet communications for next-generation radar and signal intelligence systems
  • Supports real-time data streaming directly from sensors
  • Adapts with evolving application requirements providing a technology contingency plan
  • A COTS solution reduces system size, power footprint, and cost

New Wave DV - V1131 Quad Channel 10 Gigabit Ethernet XMC Card

  • Four 10 Gigabit Ethernet SFP+ optical ports
  • Built-in UDP offload engine for real-time communication
  • Supports PCI Express and XAUI host interfaces
  • Available with streaming front-end FPGA core for quick sensor integration
  • Available with advanced APIs that support multi-core and multi-processor architectures
  • Thermal sensors for monitoring card temperature
  • Available in air and conduction-cooled XMC form factor
  • Provides high-bandwidth 10 Gigabit Ethernet communications for next-generation radar and signal intelligence systems
  • Supports real-time data streaming directly from sensors
  • Adapts with evolving application requirements providing a technology contingency plan
  • A COTS solution reduces system size, power footprint, and cost

New Wave DV - V1141 Quad Channel PMC/XMC Networking Card

  • Four SFP+ optical ports capable of Ethernet or Fibre Channel up to 5 Gb/s
  • Built-in UDP offload engine for real-time communication
  • Supports PCI Express, PCI, and XAUI host interfaces
  • Available with streaming front-end FPGA core for quick sensor integration
  • Available with advanced APIs that support multi-core and multi-processor architectures
  • Thermal sensors for monitoring card temperature
  • Available in air and conduction-cooled XMC form factor
  • Provides high-bandwidth secure Ethernet and Fibre Channel communications
  • Supports real-time data streaming directly from sensors
  • Adapts with evolving application requirements providing a technology contingency plan
  • A COTS solution reduces system size, power footprint, and cost

New Wave DV - V1142 4-Port 1394b AS5643 PMC/XMC Card

  • Four transformer coupled ports, ports are configurable to up to 4 different 1394 nodes
  • Microsemi SmartFusion2 M2S150 FPGA
  • Supports a PCIe Gen2 x 4 host interface
  • PPS time synchronization with μSec resolution
  • Thermal sensors for monitoring card temperature
  • Robust FPGA development framework
  • Available in air and conduction-cooled XMC form factors
  • FPGA based XMC card for SAE-AS5643 aerospace applications
  • Supports transformer coupled S100/S200/S400 data rates
  • A COTS solution optimized for SWaP (size, weight and power)
  • A programmable FPGA with a powerful development framework
  • Integrated system-on-chip features for small form factor applications

New Wave DV - V1144 12-Port 1394b AS5643 PMC/XMC Card

  • Twelve transformer coupled ports, ports are configurable to up to nine different 1394 nodes
  • Microsemi SmartFusion2 M2S150 FPGA
  • Supports a PCIe Gen2 x 4 host interface
  • PPS time synchronization with μSec resolution
  • Thermal sensors for monitoring card temperature
  • Robust FPGA development framework
  • Available in air and conduction-cooled PMC/XMC form factors
  • FPGA-based PMC/XMC card for SAE-AS5643 aerospace applications
  • Supports transformer coupled S100/S200/S400 data rates
  • A COTS solution optimized for SWaP (size, weight and power)
  • A programmable FPGA with a powerful development framework
  • Integrated system-on-chip features for small form factor applications

New Wave DV - V1146 9-Port 1394b AS5643 XMC Card

  • Nine transformer coupled rear IO ports, ports are configurable to up to nine different 1394 nodes
  • Microsemi SmartFusion2 M2S150 FPGA
  • Supports a PCIe Gen2 x 4 host interface
  • PPS time synchronization with μSec resolution
  • Thermal sensors for monitoring card temperature
  • Robust FPGA development framework
  • Available in air and conduction-cooled XMC form factors
  • FPGA based XMC card for SAE-AS5643 aerospace applications
  • Supports transformer coupled S100/S200/S400 data rates
  • A COTS solution optimized for SWaP (size, weight and power)
  • A programmable FPGA with a powerful development framework
  • Integrated system-on-chip features for small form factor applications

New Wave DV - V1151 Quad Channel 10/25/40/100 Gigabit FPGA XMC Card

  • Four SFP28 ports accommodate either:
    • 1x 100G Ethernet
    • 1x 40G Ethernet
    • 4x 25G Ethernet
    • 4x 10G Ethernet
    • 4x 1G Ethernet
    • 4x 1/2/4/8/16/32G Fibre Channel
  • Xilinx Virtex/Kintex UltraScale+ FPGA
  • Supports PCIe Gen3 x 16 and Gen4 x 8
  • PPS time synchronization with μSec resolution
  • Thermal sensors for monitoring card temperature
  • Robust FPGA development framework
  • Advanced APIs that support multi-core and multi-processor architectures
  • Optimized VxWork and Linux drivers and libraries
  • UDP offload engine for real time communication
  • Streaming front-end FPGA core for quick sensor integration
  • Available in air and conduction-cooled XMC form factors
  • High density FPGA XMC card for next generation data distribution and signal intelligence systems
  • Supports 1/10/25/40/100G Ethernet and 1/2/4/16/32G Fibre Channel
  • A COTS solution optimized for SWaP (size, weight and power)
  • Next generation host interface connection bandwidths
  • A programmable FPGA with a powerful development framework Real time data streaming directly from sensors

New Wave DV - V1152 Triple Channel 10/25/40/100 Gigabit FPGA XMC Card

  • Three QSFP28 ports accommodate either:
    • 3x 100G Ethernet
    • 3x 40G Ethernet
    • 12x 25G Ethernet
    • 12x 10G Ethernet
    • 12x 1G Ethernet
    • 12x 1/2/4/8/16/32G Fibre Channel
  • Xilinx Virtex/Kintex UltraScale+ FPGA
  • Supports PCIe Gen3 x 16 and Gen4 x 8
  • PPS time synchronization with μSec resolution
  • Thermal sensors for monitoring card temperature
  • Robust FPGA development framework
  • Advanced APIs that support multi-core and multi-processor architectures
  • Optimized VxWork and Linux drivers and libraries
  • UDP offload engine for real time communication
  • Streaming front-end FPGA core for quick sensor integration
  • Available in air and conduction-cooled XMC form factors
  • High density FPGA XMC card for next generation data distribution and signal intelligence systems
  • Supports 1/10/25/40/100G Ethernet and 1/2/4/16/32G Fibre Channel
  • A COTS solution optimized for SWaP (size, weight and power)
  • Next generation host interface connection bandwidths
  • A programmable FPGA with a powerful development framework
  • Real time data streaming directly from sensors