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Product
4-Ch 1.25 GHz, 16-bit D/A with DUC, Extended Interpolation, Virtex-6 - XMC
Model 71671
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- Complete radar and software radio interface solution- Supports Xilinx Virtex-6 LXT and SXT FPGAs- Four 1.25 GHz 16-bit D/As- Four digital upconverters- Extended interpolation range from 2x to 1,048,576x- Programmable output levels- 250 MHz max. output bandwidth- 2 GB of DDR3 SDRAM- Sample clock synchronization to an external system reference- Dual uSync clock/sync bus for multimodule synchronization- PCI Express (Gen. 1 & 2) interface, up to x8- Optional user-configurable gigabit serial interface- Optional LVDS connections to the Virtex-6 FPGA for custom I/O- Synchronize up to four modules with Model 7192 System Synchronization and Distribution Amplifier - PMC/XMC- Synchronize up to twelve modules with Model 9192 System Synchronization and Distribution Amplifier- 1U Rack-mount
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Product
PXIe-5170 PXI Oscilloscope, 100 MHz, 14 bits, 250 MS/s, 4 Channels, .75 GB
783690-01
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The PXIe‑5170 high-density PXI oscilloscope has eight simultaneously-sampled channels with flexible settings for coupling and voltage range. PXI oscilloscopes also feature a number of triggering modes, deep onboard memory, and an instrument driver that includes data streaming and analysis functions. This device is ideal for applications with many channels that require up to 250 MS/s or 100 MHz of analog bandwidth and advanced PXI synchronization. The PXIe‑5170 also features a programmable Kintex‑7 325T FPGA that can be used for custom acquisition, triggering, signal processing, and data streaming.
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Product
FPGA Signal Processor
371
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The Model 371 is designed around the Texas InstrumentsADS42LB69 16-bit ADC. The 250 MHz sample clock issupplied by either the on-board frequency synthesizer or anexternal source. The frequency synthesizer can be phaselocked to the local 10 MHz TCXO or an external referencecan be used to achieve system-wide phase coherence
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Product
Octal Serial FPDP Interface with Virtex-6 FPGA - 6U VPX
Model 58611
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- Four or eight channels of serial FPDP interface- Fully compliant with VITA 17.1 specification- Fiber optic or copper serial interfaces- One or two Virtex-6 FPGAs- Up to 2 or 4 GB of DDR3 SDRAM- PCI Express interface up to x8- Optional LVDS connections to the Virtex-6 FPGA for custom I/O- Ruggedized and conduction-cooled versions available
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Product
2nd Generation PCI Multi-function Decommutator
LS-50-D
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The Lumistar LS-50-D PCI Multi-function PCM Decommutator offers a PCM decom, PCM simulator, time code reader/generator, and optional bit synchronizer in a single short PCI card slot. The multi-function decom and simulator are implemented in FPGA using a next generation design based on the LS-50-P. The simulator, decommutator, time code reader and time code generator are achieved on the main board and the bit synchronizer is achieved through an optional low-profile daughterboard. CVSD voice decoding, h.261 video decoding, and IRIG Chapter 8 decoding are achieved through software.
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Product
Dual Channel Multi-function Decommutator
LS-55-DD
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The Lumistar LS-55-DD PCI Dual Multi-function PCM Decommutator offers two multifunction decoms and two optional bit synchronizers (LS-45) in a single PCI card slot. The multi-function decoms are implemented in FPGA using a next generation design based on the LS-50-P. The simulators,decommutators, time code reader and time code generator are achieved on the main board and the bit synchronizer is achieved through a low-profile daughterboard. CVSD voice, h.261 video, and IRIG Chapter 8 decoding are achieved through software.
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Product
Alchitry Au+ FPGA Development Board (Xilinx Artix 7)
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The Alchitry Au+ is the "gold" standard for FPGA development boards and it's possibly one of the strongest boards of its type on the market. The Au+ substitutes a more robust & scalable FPGA chip (Xilinx XC7A100T) that allows for more complex application circuits. The number of Configurable logic blocks (LABs/CLBs), Logic Elements, and total RAM bits are all nearly 3x that of the standard Au; see "Features" for more details.
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Product
CompuScope GPU CUDA Processing
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Performing real-time digital signal processing (DSP) routines such as Fast Fourier Transform (FFT), Signal Averaging, Finite Impulse Response (FIR) Filtering, Digital Down Conversion (DDC) and more have traditionally required the use of dedicated DSP processors, Field Programmable Gate Arrays (FPGAs), or Application Specific Integrated Circuits (ASICs).
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Product
8-Channel 200 MHz A/D with DDC, Virtex-7 FPGA - 6U VPX
Model 58761
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- Supports Xilinx Virtex-7 VXT FPGAs- GateXpress supports dynamic FPGA reconfiguration across PCIe- Four or eight 200 MHz 16-bit A/Ds- Four or eight multiband DDCs- Multiboard programmable beamformer- 4 or 8 GB of DDR3 SDRAM- PCI Express (Gen. 1, 2 & 3) interface up to x8- Sample clock synchronization to an external system reference- LVPECL clock/sync bus formultimodule synchronization- Optional LVDS connections to the Virtex-7 FPGA for custom I/O- Ruggedized and conduction-cooled versions available- Supports GateXpress® FPGA-PCIe Configuration Manager- Synchronize up to eight modules with Model 7893 System Synchronization and Distribution Amplifier - PCIe
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Product
PXI Optical FPGA Board
PXIe-8324-DSP
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The Conduant PXIe-8324-DSP FPGA board provides a user programmable hardware platform that is able to sustain full-duplex high-bandwidth transfers through its 8-lane Gen3 PXI Express (PXIe) interface and its two 12-lane HSS interfaces while performing complex calculations.
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Product
*PCIe-5785, 12-Bit, 6.4 GS/s, 2-Channel FlexRIO IF Transceiver Device
785589-01
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The PCIe-5785 enables direct RF acquisition up to 6 GHz and generation up to 3 GHz with 12 bits of resolution. You can use it in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The PCIe-5785 is ideal for applications that require wideband acquisition and generation with multichannel synchronization, including radar, electronic warfare, and communications. The FlexRIO driver includes support for acquiring and generating waveforms out of the box, and you can use the LabVIEW-programmable Xilinx Kintex UltraScale FPGA to implement custom algorithms for real-time signal processing.
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Product
Low-power, High-performance FPGA
iCE40 LP/HX
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*Available in three series with LUTs ranging from 384 to 7680: Low power (LP) and high performance (HX)*Integrated hard I2C and SPI cores that enable flexible device configuration through SPI*Match your preferred display to your application processor with interfaces such as RGB, 7:1 LVDS and MIPI DPI/DBI*Multi-source your image sensors by implementing flexible bridges supporting common interfaces such as HiSPi, subLVDS, LVDS and Parallel LVCMOS*Up to 128 kbits sysMEM™ Embedded Block RAM*Industry’s broadest range of 0.35 mm - 0.40 mm pitch BGAs fit in space-constrained applications
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Product
PXIe-7868, Kintex-7 325T FPGA, 18-AO Channels, 1 MS/s, PXI Multifunction Reconfigurable I/O Module
785571-01
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Kintex-7 325T FPGA, 18-AO Channels, 1 MS/s, PXI Multifunction Reconfigurable I/O Module—The PXIe-7868 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals for complete flexibility of timing and synchronization. With 18 analog output channels connected directly to a Kintex-7 325T FPGA, you have ample space to design applications that require precise timing such as hardware-in-the-loop testing, custom protocol communication, sensor simulation, and high-speed control. The PXIe-7868 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe-7867 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.
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Product
NI-9147, 4-Slot, Zynq-7020 FPGA, Ethernet CompactRIO Chassis
783496-02
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4-Slot, Zynq-7020 FPGA, Ethernet CompactRIO Chassis - The NI‑9147 is a rugged Ethernet chassis that you can use to add C Series I/O modules to any standard Ethernet network. You can program the chassis using Scan Mode for fast expansion of your real-time system or using the onboard FPGA for inline processing and high-speed I/O and control. With the NI‑9147, you can add high-performance I/O to your PC-based application or expand your CompactRIO, PXI, or industrial controller application.
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Product
Dual Channel Digital Receiver
MS 1740
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Dual Channel Digital Receiver is a complete high−frequency dual−channel A/D converter capable of sampling rates up to 210 MHz. It accepts two front panel analog inputs and delivers digital output samples over four FPDP (Front Panel Data Port) connectors utilizing FPDP standards. The Dual Channel Digital Receiver features two 12−bit Analog Devices AD9430 A/D Converters, and two user−configurable Xilinx® Virtex−IV Series FPGAs. It also features a VME A64/D64 slave interface for setting up operating modes and selectable A/D range, and optionally provides 32−bit access from the VMEbus to the FPGAs. It is an ideal system as a high−speed data acquisition front end for real time recording and digital signal processing systems.
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Product
CPCI 48 Input I/O Card with Zilog Z8536 I/O Controller
CPCI-48IN
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The input board consists of three Zilog Z8536 controllers for DC input control. An FPGA provides the timing and control. Each input has its own optical isolation, and supports a hardware adjustable resistor/opto-diode combination for various input voltage ranges. An AMCC PCI controller provides the interface to the host computer. All I/O is accessible from the front panel.
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Product
FPGA Workbench and I/O Cards
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FPGA Workbench software provides a complete development environment for building customized solutions based on Concurrent’s programmable FPGA cards. FPGA Workbench includes a powerful GUI for selecting and configuring a wide range of pre-developed data acquisition and industry-specific modules to meet your application requirements. The library of functional IP modules includes pulse width modulation, analog I/O, digital I/O, SENT protocol, encoder, ignition, injection, crank/cam shaft, wheel speed sensor and change-of-state.
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Product
PXIe-5763, 16-Bit, 500 MS/s, 4-Channel PXI FlexRIO Digitizer
785161-01
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The PXIe-5763 is a PXI FlexRIO Digitizer that simultaneously samples four channels at 500 MS/s with 16 bits of resolution and features 225 MHz of analog input bandwidth. With over 73 dB of SNR, the PXIe-5763 is ideal for applications that require a wide dynamic range with a wideband digitizer. The FlexRIO driver includes support for finite and continuous streaming modes, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA. Available in AC and DC coupled variants, the PXIe-5763 is ideal for both time and frequency domain applications, including radar prototyping, LIDAR, communications, microscopy, OCT, event detection, and particle physics.
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Product
4-Ch 500 MHz A/D with DDC & 4-Ch 800 MHz D/A with DUC, Kintex UltraScale - 6UVPX
Model 58851
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- Jade Xilinx Kintex UltraScale FPGA Products and Navigator Design Suite Software Video- Jade Xilinx Kintex UltraScale FPGA Family Brochure- Complete radar and software radio interface solution- Supports Xilinx Kintex UltraScale FPGAs- Supports VITA-49.2 VITA Radio Transport standard- Four 500 MHz 12-bit A/Ds- Four multiband DDCs (digital downconverters)- Two DUC (digital upconverter)- Four 800 MHz 16-bit D/As- 10 GB of DDR4 SDRAM- Sample clock synchronization to an external system reference- LVPECL clock/sync bus for multimodule synchronization- PCI Express (Gen. 1, 2 & 3) interface up to x8- Optional LVDS and gigabit serial connections to the FPGA for custom I/O- Compatible with several VITA standards including: VITA-46, VITA-48 and VITA-65 (OpenVPX™ System Specification)- Optional 400 MHz 14-bit A/Ds- Ruggedized and conduction-cooled versions available- Synchronize up to eight modules with Model 7893 System Synchronization and Distribution Amplifier - PCIe
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Product
Digital Bit Pattern Generator
FAB-3226
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The FAB-3226 Digital Bit Pattern Generator connects digital ports to an user-defined FPGA logic. As the FPGA is user-programmable all kind of operation can be implemented: input, output, and closed loop operation where input and output are processed in real-time. All this can be controlled by an user-defined application program running on a computer system (PC or embedded).
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Product
4-Channel 1.25 GHz, 16-bit D/A with Virtex-6 FPGA - PCIe
Model 78670
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Model 78670 is a member of the Cobalt® family of high performance PCIe boards based on the Xilinx Virtex-6 FPGA. This 4-channel, high-speed data converter is suitable for connection to transmit HF or IF ports of a communications or radar system. Its built-in data playback features offer an ideal turnkey solution for demandingtransmit applications.
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Product
LVDT/RVDT Simulation Package
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Concurrent Real-Time’s LVDT/RVDT Simulation package is based on a customized version of the company’s Altera Arria V Family FPGA card with 362K logic elements, designed especially for HiL testing.
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Product
PCIe-7856, Kintex-7 160T FPGA, 1 MS/s, Multifunction Reconfigurable I/O Device
786455-01
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PCIe, Kintex-7 160T FPGA, 1 MS/s, Multifunction Reconfigurable I/O Device - The PCIe‑7856 features a user-programmable FPGA for high-performance onboard processing and direct control over I/O signals to ensure complete flexibility of system timing and synchronization. You can customize these devices with the LabVIEW FPGA Module to develop applications requiring precise timing and control such as hardware‑in‑the‑loop testing, custom protocol communication, sensor simulation, and high-speed control. The PCIe‑7856 features a dedicated analog-to-digital converter per channel for independent timing and triggering. This device offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware.
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Product
AdvintRIO™ Reconfigurable I/O
PIRANHA
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The Piranha platform employs a NI single board RIO (sbRIO), NI C Series I/O modules, and custom circuitry. Piranha systems are not dependent on a separate host computer. They offer both Ethernet, and Wi-Fi connectivity to a powerful real-time controller and high performance field-programmable gate array (FPGA) and up to two (2) C Series I/O modules. It provides stand-alone embedded execution for deterministic LabVIEW Real-Time applications. These controllers are designed for ruggedness, reliability, and low power consumption. The heart of Piranha system is the reconfigurable I/O (RIO) FPGA core. The RIO core has an individual connection to each I/O module and is programmed using easy to use elemental I/O functions to read or write signal information from each module. Multiple units can also be daisy changed together for larger applications.
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Product
4CH GigE Vision Compact Vision System with 6th Generation Intel® Core™ i7/i5/i3 Processors
EOS-1300
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ADLINK’s EOS-1300 is a high performance compact vision system equipped with 6th Generation IntelR Core? i7/i5/i3 processors and four independent PoE (power over Ethernet) ports, delivering data transfer rates up to 4.0 Gb/s. EOS-1300’s FPGA based DI/O provides programmable de-bounce filter, on the fly trigger, and user wiring Sink/Source DO and Encoder functions, making it the ideal solution for machine vision applications requiring high computing power and time deterministic solutions with minimal footprint.
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Product
PXI FlexRIO IF Transceiver
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The PXI FlexRIO IF Transceiver combines analog I/O and a user-programmable FPGA into a single, customizable instrument. The instrument enables direct RF acquisition up to 6 GHz. You can use the instrument in a dual-channel mode at 3.2 GS/s or in a single-channel interleaved mode at 6.4 GS/s. The PXI FlexRIO IF Transceiver uses FPGAs from Xilinx alongside LabVIEW and Vivado programming options for custom algorithm implementation and real-time signal processing. Using this instrument with NI-TClk, you can synchronize modules in one or more PXI chassis at up to picosecond‐level accuracy for high‐channel‐count applications.
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Product
Digital Signal Processors
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Powerful Field Programmable Gate Array (FPGA) based Digital Signal Processors (DSP) with large memory, fast PCIe and optical data interfaces (ODI)
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Product
2-Channel 200 MHz A/D with 766 DDCs, Kintex UltraScale FPGA - 3U VPX
Model 52865
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- Jade Xilinx Kintex UltraScale FPGA Products and Navigator Design Suite Software Video- Jade Xilinx Kintex UltraScale FPGA Family Brochure- Complete software radio receiver solution for extremely high-channel-count applications- Uses Xilinx Kintex UltraScale KU035 FPGAs- Two 200 MHz 16-bit A/Ds- Four wideband DDCs (digital downconverters)- Up to 762 narrowband DDCs- Sample clock generation and synchronization to an external system reference- PCI Express (Gen. 1, 2 & 3) interface up to x4- Compatible with several VITA standards including: VITA-46, VITA-48 and VITA-65 (OpenVPX™ System Specification)- Ruggedized and conduction-cooled versions available- Synchronize up to eight modules with Model 7893 System Synchronization and Distribution Amplifier - PCIe
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Product
PMC Module
PMC-CycloneII-64LVTTL
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User Programmable Altera Cyclone II FPGA 672 BGA, EP2C35, EP2C50, EP2C70, Stand alone possibility, Single wide PMC Module, 64 LVTL, Optional User clock oscillator
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Product
2 Channel Variable Optical Attenuator
S-105
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VOA slot module of FOTS system is a module that installs a built-in dual channel MEMS type VOA inside and can do two separate attenuation functions with two each VOA channel being driven individually. This module controls the optical power precisely to maintain the desired output level set by the user by automatically correcting for power drift or fluctuation.This slot module provides high-performance power control features such as high attenuation range, accurate tolerance, stable spectral flatness and low insertion loss in the wavelength range of 1260 ~ 1600 nm. It also offers a particularity that the high-speed drive of attenuation is possible through the combination of high-speed FPGA processor and high speed response time (within 1 ms) VOA. With the provided driving program and GUI, users can set up various attenuation program of each VOA channel such as sequential attenuation step, periodic attenuation and operation time
