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FPGA PXI Card
GX3601
The GX3601 is a 3U PXI FPGA card with 80, TTL buffered channels. The card is comprised of a GX3501 80 channel, TTL buffer expansion module and a GX3500 FPGA card.
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FPGA PXI Card with 40 Channel ECL Buffer Module
GX3640
The GX3640 is comprised of the GX3500 FPGA card and the GX3540, 40 channel ECL expansion card. It is a 3U PXI instrument card that can be used for general data acquisition, process control, Automatic Test Equipment (ATE), and functional test applications. The GX3640 consists of 20 differential ECL drivers and 20 differential ECL receivers. Each channel can be accessed via software commands for use in static I/O applications.
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FPGA PXI Card with 80 TTL Differential Channels Module
GX3609
The GX3609 is a 3U PXI FPGA card with 80 TTL differential channels. The GX3609 is comprised of a GX3500 FPGA card and the GX3509, 80 channel, differential TTL expansion card.
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FPGA PXI Card with 80 Channel mLVDS Buffer Module
GX3610
The GX3610 is a 3U PXI FPGA card with 80, mLVDS channels. The GX3610 is comprised of the GX3500 PXI FPGA card and the GX3510 expansion card providing 80 mLVDS buffered channels.
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FPGA PXI Card With 80 Channel LVDS Buffer Module
GX3611
The GX3611 is a 3U PXI FPGA card with 80, LVDS channels and is comprised of the GX3500 PXI FPGA card and the GX3511 expansion card.
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RF SCOE System
RF SCOE Systems require fast yet reconfigurable data processing as well as RF Modulation capabilities.For which FPGA Cards inside the PXI Frames are well suited.
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Virtex-5 FPGA with Plug-in I/O
PMC-VFX
Acromag’s PMC-VFX boards feature a reconfigurable Xilinx® Virtex™-5 FPGA enhanced with multiple high-speed memory buffers and a high-throughput PCI-X interface. Field I/O interfaces to the FPGA via the rear J4/P4 connector and/or with optional front mezzanine plug-in I/O modules.
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Virtex-5 FPGA with Plug-in I/O
PMC-VLX
Acromag’s PMC-VLX boards feature a reconfigurable Xilinx® Virtex™-5 FPGA enhanced with multiple high-speed memory buffers and a high-throughput PCI-X interface. Field I/O interfaces to the FPGA via the rear J4/P4 connector and/or with optional front mezzanine plug-in I/O modules.
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CompactRIO Plug-In Chassis for I/O Modules
The plug-in chassis provides connectivity for I / O modules. The chassis core is an FPGA for reconfigurable I / O signals. Chassis are available in various configurations and are designed to accommodate 4 or 8 C-series modules.
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PXI FPGA Module for FlexRIO
PXI FPGA Modules for FlexRIO offer up to 132 singleended I/O lines configurable as 66 differential pairs as well as large onboard FPGAs for signal processing. You can pair the module with FlexRIO adapter modules that offer highperformance analog and digital I/O. Together, the two modules create a reconfigurable instrument.
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USRP Software Defined Radio Reconfigurable Device
The USRP Software Defined Radio Reconfigurable Device is built on the LabVIEW reconfigurable I/O (RIO) and universal software radio peripheral (USRP) architectures. It includes a powerful FPGA for advanced DSP that you can program with the LabVIEW FPGA Module. The device includes 2x2 MIMO transceivers or four-channel superheterodyne receivers, supporting center frequencies from 10 MHz to 6 GHz, with up to 160 MHz of instantaneous bandwidth. The USRP Software Defined Radio Reconfigurable Device also optionally includes a GPS‐disciplined oven-controlled crystal oscillator (GPSDO), which provides greater frequency accuracy than temperature- compensated crystal oscillators. Prototyping applications include LTE and 802.11 prototyping, spectrum monitoring, signals intelligence, military communications, radar, direction finding, and wireless research.
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USRP Software Defined Radio Device
The USRP Software Defined Radio Device is a reconfigurable RF device that includes a combination of host-based processors, FPGAs, and RF front ends. The USRP Software Defined Radio Device include options that range from lower cost options with fixed FPGA personalities to high-end radios with a large, open FPGAs and wide instantaneous bandwidth. These devices can be used for applications such as multiple input, multiple output (MIMO) and LTE/WiFi testbeds, SIGINT, and radar systems.
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USRP-2945, 10 MHz to 6 GHz, 80 MHz Bandwidth, Reconfigurable USRP Software Defined Radio Device
785263-01
10 MHz to 6 GHz, 80 MHz Bandwidth, Reconfigurable USRP Software Defined Radio Device - The USRP-2945 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless receiver systems. This software defined radio reconfigurable device is designed for over-the-air signal acquisition and analysis. It features a two-stage superheterodyne architecture with four independent receiver channels and shares local oscillators for phase-coherent operation. It also offers a Kintex-7 FPGA programmable with the LabVIEW FPGA Module. With these features, the USRP-2945 has the RF and processing performance for applications including spectrum monitoring, direction finding, signals intelligence, wideband recording, and radar prototyping.
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PXIe-7962, Virtex-5 SX50T FPGA, 512 MB DRAM PXI FPGA Module for FlexRIO
781206-01
Virtex-5 SX50T FPGA, 512 MB DRAM PXI FPGA Module for FlexRIO—The PXIe‑7962 provides flexible, customizable I/O for LabVIEW FPGA. It includes 132 single-ended I/O lines configurable as 66 differential pairs. You can pair the PXIe‑7962 with FlexRIO adapter modules that offer high-performance analog and digital I/O. Together, the two modules create a reconfigurable instrument that you can program with LabVIEW FPGA software. The PXIe‑7962 supports peer‑to‑peer streaming, which directly transfers data among multiple FPGA modules or select PXI Express modules without sending data to the host processor. With this feature, you can add FPGA capabilities to high-performance NI digitizers with NIST‑traceable calibration or expand your FPGA algorithms across multiple FPGAs for computationally demanding applications.
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Virtex-5 FPGA with Plug-in I/O
PMC-VSX
Acromag’s PMC-VSX boards feature a reconfigurable Xilinx® Virtex™-5 FPGA enhanced with multiple high-speed memory buffers and a high-throughput PCI-X interface. Field I/O interfaces to the FPGA via the rear J4/P4 connector and/or with optional front mezzanine 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.
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PXI Digital Reconfigurable I/O Module
PXI Digital Reconfigurable I/O Modules feature a user-programmable FPGA for onboard processing and flexible I/O operation. You can completely control the synchronization and timing of all signals and operations along with custom onboard decision making. The PXI Digital Reconfigurable I/O Module is suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware-in-the-loop (HIL) test, custom communications protocols, bit error rate testing, and other applications requiring precise timing and control.
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PXIe-7822, PXI Express Digital RIO with Kintex-7 325T FPGA
783486-01
Kintex 7 325T FPGA, 128 DIO, 512 MB DRAM, PXI Digital Reconfigurable I/O Module—The PXIe‑7822 is a reconfigurable I/O (RIO) device that features a user-programmable FPGA for onboard processing and flexible I/O operation. With LabVIEW FPGA, you can individually configure the digital lines as inputs, outputs, counter/timers, PWM, encoder inputs, or specialized communication protocols. You can also program custom onboard decision making that executes with hardware-timed speed and reliability. Each line offers software-selectable logic levels. The PXIe‑7822 supports peer‑to‑peer streaming for direct data transfer between PXI Express modules. The PXIe‑7822 is well-suited for a wide variety of applications, such as high-speed waveform generation, sensor simulation, hardware‑in‑the‑loop (HIL) test, bit error rate test, and other applications that require precise timing and control.
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FlexRIO
The FlexRIO product line was designed for engineers and scientists who need the flexibility of custom hardware without the cost of custom design. Featuring large, user-programmable FPGAs and high-speed analog, digital, and RF I/O, FlexRIO provides a fully reconfigurable instrument that you can program graphically with LabVIEW or with VHDL/Verilog.
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32-Channel RS485/422 Differential
4792
The Conduction Cooled 32-channel Reconfigurable RS422/RS485 Digital I/O PMC provides a vehicle for implementing complex user-specific digital designs requiring a differential interface. Thirty-two (32) generalpurpose RS422/RS485 driven digital I/O differential pairs are wired to the rear PN4 connector. For each of the 32 channels, the bidirectionality is controlled by an output from the FPGA.
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Embedded Configuration And Test Processor
SystemBIST
The SystemBISTTM Embedded Configuration and Test Processor - is a complete plug-and-play IP module built upon a unique patent-pending architecture. The SystemBIST processor is embedded onto a PCB, which enables design engineers to build high quality, self-testable and in-the-field re-configurable products. SystemBIST is vendor independent and can configure any IEEE 1532 or IEEE 1149.1 compliant FPGA and CPLD in-system.
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NI-5781 , 40 MHz Bandwidth, RF Adapter Module for FlexRIO
781267-01
The NI‑5781 is an analog dual-input, dual-output FlexRIO adapter module optimized for interfacing with baseband to RF upconverters and downconverters. When you pair the NI‑5781 with a PXI FPGA Module for FlexRIO, the resulting NI‑5781R is an FPGA-enabled reconfigurable I/O (RIO) baseband transceiver that you can use to implement custom RF modulation and demodulation, channel emulation, bit error rate testing, or spectral monitoring and jamming. Additionally, you can use the low latency and high throughput of FPGA‑based processing for ultra‑high‑speed control and inline processing applications.
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NI-9402, LVTTL, 4 Bidirectional Channels, 55 ns C Series Digital Module
779987-01
LVTTL, 4 Bidirectional Channels, 55 ns C Series Digital Module - The NI‑9402 is a per‑channel configurable digital I/O interface for input or output. With reconfigurable I/O (RIO) technology (CompactRIO only), you can use the LabVIEW FPGA Module to program the NI‑9402 for … implementing custom, high-speed counter/timers; digital communication protocols; pulse generation; and more. Each channel features transient isolation between the I/O channels and the backplane.
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PXIe-5170, 4- or 8-Channel, 100 MHz Bandwidth, 14-Bit, Reconfigurable Oscilloscope
783691-01
PXIe, 100 MHz, 4- or 8-Channel, 14-Bit, Kintex-7 325T FPGA Reconfigurable PXI Oscilloscope—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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PXIe-5172 PXI Oscilloscope, 100 MHz, 14 bits, 250 MS/s, 8 Channels, 1.5 GB, FPGA: Kintex-7 410T
784226-01
PXIe, 100 MHz, 4- or 8-Channel, 14-Bit, Kintex-7 325T or 410T FPGA Reconfigurable PXI Oscilloscope—The PXIe 5172 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 5172 also features a programmable Kintex-7 325T or 410T FPGA that can be used for custom acquisition, triggering, signal processing, and data streaming.
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PXIe-5172 PXI Oscilloscope, 100 MHz, 14 bits, 250 MS/s, 8 Channels, 1.5 GB, FPGA: Kintex-7 325T
784225-01
PXIe, 100 MHz, 4- or 8-Channel, 14-Bit, Kintex-7 325T or 410T FPGA Reconfigurable PXI Oscilloscope—The PXIe 5172 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 5172 also features a programmable Kintex-7 325T or 410T FPGA that can be used for custom acquisition, triggering, signal processing, and data streaming.
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sbRIO-9403, Non-Enclosed, 5 V/TTL, 32 Bidirectional Channels, 7 µs C Series Digital Module
780539-01
Non-Enclosed, 5 V/TTL, 32 Bidirectional Channels, 7 µs C Series Digital Module - The sbRIO‑9403 is a configurable digital I/O interface for input or output with shift‑on‑the‑fly capabilities. Each channel features transient isolation between the I/O channels and the backplane. With reconfigurable I/O (RIO) technology (CompactRIO only), you can use the LabVIEW FPGA Module to program the sbRIO‑9403 for implementing custom, high-speed counter/timers; digital communication protocols; pulse generation; and other applications.
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AdvintRIO™ Reconfigurable I/O
SNAKEHEAD
The Snakehead platform employs aNI CompactRIO (cRIO) system consisting of an embedded controller, chassis, and NI C Series I/O modules.Snakehead systems are not dependent on a separate host computer. They offer both Ethernet, and Wi-Fi connectivity to powerful real-time controller with a user-upgradable backplane that includes a high performance field-programmable gate array (FPGA). Snakehead provides stand-alone embedded execution for deterministic LabVIEW Real-Time applications. These units are designed for ruggedness, reliability, and low power consumption. The heart of Snakehead systems 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
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PXIe-5172 PXI Oscilloscope, 100 MHz, 14 bits, 250 MS/s, 4 Channels, .75 GB
784224-01
PXIe, 100 MHz, 4- or 8-Channel, 14-Bit, Kintex-7 325T or 410T FPGA Reconfigurable PXI Oscilloscope—The PXIe 5172 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.
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PXIe-5171 Oscilloscope, 250 MHz, 250 MS/s, 8-channel
783692-01
MHDMR - Mini HDMI, I/O Receptacle PXIe, 250 MHz, 8-Channel, 14-Bit, Kintex-7 410T FPGA Reconfigurable PXI Oscilloscope—The PXIe‑5171 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 250 MHz of analog bandwidth and advanced PXI synchronization.
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AdvintRIO™ Reconfigurable I/O
PIRANHA
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.