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Data Acquisition Systems
sense, log and store information. AKA: DAS
See Also: Data Acquisition, PCI Data Acquisition, DAQ
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Engineering Design & Development
TPSA has over 20 years of experience in Engineering Design & Software Development including:Hardware & Software DesignOTPS Acquisition SupportSystems Installation & SupportAircraft Modification/CertificationEngineering Studies & AnalysesFunctional & Systems TestingIndependent Verification & Validation (IV & V)Test Program Set EngineeringReliability & Maintainability (R&M)Engineering Drawings & DataConfiguration Data ManagementReverse EngineeringRequirements AnalysisSupport Equipment (SE)Aircraft Launch & Recovery Engineering (ALRE)Engineering Change Proposal (ECP) ReviewTechnology Insertion (TI)PDR, CDR, FAT, Techeval, OSV Support
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PXI Ultra High Density 64x4 2-Pole Matrix
40-533B-022
The 40-533B ultra high density matrix module is configured as 64x4 or 64x2 and is available in a choice of 1-pole and 2-pole reed relay formats. Typical applications include signal routing in Functional ATE and data acquisition systems. These PXI matrix modules are constructed using high reliability sputtered Ruthenium reed relays, offering >109operations to give maximum switching confidence with long life and stable contact resistance. Larger matrices may be constructed by daisy chaining the common signals from multiple PXI modules.
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PXI High-Density Multiplexer: 64-ch, 2-Wire, 100Vrms/1A, Reed Relays
M9101A
The M9101A, a high-density, 64-channel PXI multiplexer routes many different channels to a single point. The switches operate in a break-before-make mode that ensures no two points are connected at the same time or, if needed multiple channels can connect simultaneously. Ideal for routing multiple analog signals to a measurement device in automated test environment (ATE) or data acquisition systems. Each channel switches a high and a low for 2-wire switching up to 100Vrms, with up to 10W of power. Connection options include the durable connector block or the standard cable connections.
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PXI MUX 4 Banks of 16 Channel 2 Pole
40-610-022-4/16/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 8 Banks of 8 Channel 2 Pole
40-610-022-8/8/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 1 Bank of 64 Channel 2 Pole
40-610-022-1/64/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 4 Bank, 16 Channel Screened 1 Pole
40-610-021-S-4/16/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 8 Banks of 8 Channel 1 Pole
40-610-021-8/8/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 2 Banks of 32 Channel 1 Pole
40-610-021-2/32/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 8 Banks of 8 Channel Screened 1 Pole
40-610-021-S-8/8/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector.Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 4 Banks of 32 Channel 1 Pole
40-610-022-4/32/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 2 Banks of 64 Channel 1 Pole
40-610-022-2/64/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 8 Banks of 16 Channel 1 Pole
40-610-022-8/16/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 1 Bank of 128 Channel 1 Pole
40-610-022-1/128/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 4 Bank 0f 16 Channel 1 Pole
40-610-021-4/16/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 2 Bank, 32 Channel Screened 1 Pole
40-610-021-S-2/32/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 1 Bank, 64 Channel Screened 1 Pole
40-610-021-S-1/64/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 2 Banks of 32 Channel 2 Pole
40-610-022-2/32/2
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXI MUX 1 Bank of 64 Channel 1 Pole
40-610-021-1/64/1
This series of high density multiplexer modules feature a wide range of switching configurations, especially useful where a large number of small multiplexers are required. Typical applications include signal routing in ATE and data acquisition systems. Connections are made via a front panel 200-pin connector. Inter-bank linking relays allow multiplexer size to be increased in multiples of in multiples of three by joining the common terminals of adjacent banks. Closing one linking switch produces a 6-channel multiplexer, closing all linking switches produces an 54-channel multiplexer
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PXIe-8821, 2.6 GHz Dual Core Processor PXI Controller
785545-01
PXIe, 2.6 GHz Dual Core Processor PXI Controller—The PXIe‑8821 is an Intel Core i3‑based embedded controller for PXI systems. You use it to create a compact and/or portable PC-based platform for industrial control, data acquisition, and test and measurement applications. The PXIe‑8821 includes a 10/100/1000 BASE‑TX (Gigabit) Ethernet port, two Hi‑Speed USB ports, two USB 3.0 ports, as well as an integrated hard drive, serial port, and other peripheral I/O.
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PXIe-8821, 2.6 GHz Dual Core Processor PXI Controller
787895-33
PXIe, 2.6 GHz Dual Core Processor PXI Controller - The PXIe‑8821 is an Intel Core i3‑based embedded controller for PXI systems. You use it to create a compact and/or portable PC-based platform for industrial control, data acquisition, and test and measurement applications. The PXIe‑8821 includes a 10/100/1000 BASE‑TX (Gigabit) Ethernet port, two Hi‑Speed USB ports, two USB 3.0 ports, as well as an integrated hard drive, serial port, and other peripheral I/O.
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PXIe-8821, 2.6 GHz Dual Core Processor PXI Controller
785158-33
PXIe, 2.6 GHz Dual Core Processor PXI Controller—The PXIe‑8821 is an Intel Core i3‑based embedded controller for PXI systems. You use it to create a compact and/or portable PC-based platform for industrial control, data acquisition, and test and measurement applications. The PXIe‑8821 includes a 10/100/1000 BASE‑TX (Gigabit) Ethernet port, two Hi‑Speed USB ports, two USB 3.0 ports, as well as an integrated hard drive, serial port, and other peripheral I/O.
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PXIe-8821, 2.6 GHz Dual Core Processor PXI Controller
785158-04
PXIe, 2.6 GHz Dual Core Processor PXI Controller—The PXIe‑8821 is an Intel Core i3‑based embedded controller for PXI systems. You use it to create a compact and/or portable PC-based platform for industrial control, data acquisition, and test and measurement applications. The PXIe‑8821 includes a 10/100/1000 BASE‑TX (Gigabit) Ethernet port, two Hi‑Speed USB ports, two USB 3.0 ports, as well as an integrated hard drive, serial port, and other peripheral I/O.
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GaiaField-Pro Hyperspectral Imaging Camera
YoGaiaField-Pro (GFP) camera provide extremely high resolution images by scanning and taking multiple images to construct a hyperspectral datacube. Hyperspectral imaging devices (GFP) for spatial (slit) scanning obtain slit spectra by projecting a strip of the scene onto a slit and dispersing the slit image with a prism or a grating. In spatial (slit) scanning, each two-dimensional (2-D) sensor output represents a full slit spectrum (x,λ). The NUC integrated into the system to control system operation ,data acquisition, and analyze, so the spatial dimension is collected through the scanning motor movement . The line-scan systems are particularly common in remote sensing, so it is sensible to use mobile platforms. The system can keep working by internal battery about 4 hours and user can use ipad or phone to connect the camera by internal Wifi.
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4-Channel 200 MHz A/D with Multiband DDCs, Kintex UltraScale FPGA - PCIe
Model 78862
Model 78862 is a member of the JadeTM family of high-performance PCIe boards. The Jade architecture embodies a new streamlined approach to FPGA-based boards, simplifying the design to reduce power andcost, while still providing some of the highest- performance FPGA resources available today. Designed to work with Pentek’s new NavigatorTM Design Suite of tools, the combination of Jade and Navigator offers users an efficient path to developing and deployingFPGA-based data acquisition and processing. The 78862 is a multichannel, high-speed data converter with programmable DDCs (digital downconverters). It is suitable for connection to HF or IF ports of a communications or radar system. Its built-in datacapture feature offers an ideal turnkey solution as well as a platform for developing and deploying custom FPGA-processing IP.
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8-Channel 250 MHz A/D with Multiband DDC, Kintex UltraScale FPGA - PCIe
Model 78132
Model 78132 is a member of the JadeTM family of high-performance PCIe boards. The Jade architecture embodies a new streamlined approach to FPGA-based boards, simplifying the design to reduce power andcost, while still providing some of the highest-performance FPGA resources available today. Designed to work with Pentek’s new NavigatorTM Design Suite of tools, the combination of Jade and Navigator offers users an efficient path to developing and deployingFPGA-based data acquisition and processing. The 78132 is a multichannel, high-speed data converter with programmable DDCs (digital downconverters). It is suitable for connection to HF or IF ports of a communications or radar system. Its built-in datacapture feature offers an ideal turnkey solution as well as a platform for developing and deploying custom FPGA-processing IP.
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8-Channel 250 MHz A/D with DDC, Kintex UltraScale FPGA - PCIe
Model 78131
Model 78131 is a member of the JadeTM family of high-performance PCIe boards. The Jade architecture embodies a new streamlined approach to FPGA-based boards, simplifying the design to reduce power andcost, while still providing some of the highest-performance FPGA resources available today. Designed to work with Pentek’s new NavigatorTM Design Suite of tools, the combination of Jade and Navigator offers users an efficient path to developing and deployingFPGA-based data acquisition and processing. The 78131 is a multichannel, high-speed data converter with multiband DDCs (digital downconverters). It is suitable for connection to HF or IF ports of a communications or radar system. Its built-in datacapture feature offers an ideal turnkey solution as well as a platform for developing and deploying custom FPGA-processing IP
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2-Ch 500 MHz A/D with DDC & 2-Ch 800 MHz D/A with DUC, Kintex UltraScale - PCIe
Model 78851
Model 78851 is a member of the JadeTM family of high-performance PCIe boards. The Jade architecture embodies a new streamlined approach to FPGA-based boards, simplifying the design to reduce power andcost, while still providing some of the highest- performance FPGA resources available today. Designed to work with Pentek’s new NavigatorTM Design Suite of tools, the combination of Jade and Navigator offers users an efficient path to developing and deployingFPGA-based data acquisition and processing. The 78851 is a 2-channel, high-speed data converter with programmable DDCs (digital downconverters). It is suitable for connection to HF or IF ports of a communications or radar system. Its built-in datacapture feature offers an ideal turnkey solution as well as a platform for developing and deploying custom FPGA-processing IP.
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4-Channel 200 MHz A/D with DDC, Kintex UltraScale FPGA - PCIe
Model 78861
Model 78861 is a member of the JadeTM family of high-performance PCIe boards. The Jade architecture embodies a new streamlined approach to FPGA-based boards, simplifying the design to reduce power and cost, while still providing some of the highest-performance FPGA resources available today. Designed to work with Pentek’s new NavigatorTM Design Suite of tools, the combination of Jade and Navigator offers users an efficient path to developing and deployingFPGA-based data acquisition and processing. The 78861 is a multichannel, high-speed data converter with programmable DDCs (digital downconverters). It is suitable for connection to HF or IF ports of a communications or radar system. Its built-in datacapture feature offers an ideal turnkey solution as well as a platform for developing and deploying custom FPGA-processing IP.
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PXI-5154, 1 GHz, 2 GS/s, 8-Bit, 8 MB/ch, PXI Oscilloscope
780319-01
1 GHz, 2 GS/s, 8-Bit, 8 MB/ch, PXI Oscilloscope—The PXI‑5154 is ideal for acquisition and characterization of fast, nanosecond-edge speeds. It is well-suited for automated test and data streaming applications in the consumer electronics, semiconductor, aerospace/defense, and life sciences industries. The PXI‑5154 also comes equipped with up to 256 MB of memory per channel to provide high, sustained sample rates over extended data capture windows. This digitizer, optimized for automated test, uses a high-throughput bus to lower test times, provides picosecond-level synchronization among modules, and integrates with the entire suite of NI hardware, so you can build and customize a complete mixed-signal or high‑channel‑count test system.