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PXI
PXI or PCI Extensions for Instrumentation is a bus standard for high performance measurement and automation. AKA: PCI Extensions
See Also: Instrument Control Buses, Modular Instruments, PXIe, LXI, AXIe, PCIe, GPIB, USB, PCI, Ethernet, LAN, VXI, CompactPCI
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PXI RF Multiplexer, 10x SP4T, 1.3 GHz 75 Ω, Multiway Connectors
40-755-210
The 40-755-210 is a 10xSP4T 75 Ω multiplexer and is part of a range of high density RF multiplexers available in 50 Ω and 75 Ω variants with up to 10xSP4T switches in a single PXI module. They are available with two connector options; SMB that provides a frequency range of 1.8 GHz (50 Ω) / 1.3 GHz (75 Ω), or multiway which limits the bandwidth to 1.3 GHz but offers a high density solution occupying one PXI slot. The connectors used are fully supported by the range of Pickering Interfaces connection solutions.
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PXI-2594, 2.5 GHz, 50 Ω, 4x1 PXI RF Multiplexer Switch Module
778572-94
2.5 GHz, 50 Ω, 4x1 PXI RF Multiplexer Switch Module—The PXI‑2594 is ideal for applications that require the routing of high-frequency signals inside automated test equipment (ATE) systems because it can switch signals with very low insertion loss. The module also features excellent insertion loss, voltage standing wave ratio (VSWR), and isolation parameters to minimize signal degradation. You can use the onboard relay count tracking feature to predict relay lifetime and reduce unexpected system downtime.
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PXI-2595, 5 GHz, 50 Ω, 4x1 PXI RF Multiplexer Switch Module
778572-95
5 GHz, 50 Ω, 4x1 PXI RF Multiplexer Switch Module—The PXI‑2595 is ideal for applications that require the routing of high-frequency signals inside automated test equipment (ATE) systems because it can switch signals with very low insertion loss. The module also features excellent insertion loss, voltage standing wave ratio (VSWR), and isolation parameters to minimize signal degradation. You can use the onboard relay count tracking feature to predict relay lifetime and reduce unexpected system downtime.
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HPE Edgeline EL4000, 4-Slot, 1U, 8 GB/s Converged IoT PXI Chassis
785690-01
4-Slot, 1U, 8 GB/s Converged IoT PXI Chassis —The HPE Edgeline EL4000 is a Converged IoT PXI Chassis that works between operational and information technologies to integrate precision data capture and control; data center-class security; device and systems management; and large, low-latency storage capabilities in a single converged chassis. This system is ideal for expanding the IoT infrastructure beyond the traditional data center. You can couple this system with Citrix technology to create an enterprise or server solution for delivering simple, smart, dense, and secure desktops or applications between many devices.
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PXI-2548, 2.7 GHz, 50 Ω, Quad SPDT PXI RF Relay Module
778572-48
2.7 GHz, 50 Ω, Quad SPDT PXI RF Relay Module - The PXI‑2548 is a general-purpose single‑pole double‑throw (SPDT) switch module. You can use it to add flexibility to your switch network or to maintain uniform signal paths across multiple channels when building high-channel-count multiplexers. The module also features excellent insertion loss, voltage standing wave ratio (VSWR), and isolation parameters to minimize signal degradation. You can use its onboard relay count tracking feature to predict relay lifetime and reduce unexpected system downtime.
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PXI Fault Insertion Switch, 7-Channel, One Fault Bus, 20 A, Hardware Interlock
40-194A-001-HI
The 40-194A-001 is a 7-Channel PXI Fault Insertion switch with hardware interlock and one fault bus, designed for the simulation of fault conditions in automotive systems. As well as high current handling of 20A, very low currents can also be switched.
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PXI-2558, 2.5 GHz, 75 Ω, Quad SPDT PXI RF Relay Module
778572-58
2.5 GHz, 75 Ω, Quad SPDT PXI RF Relay Module - The PXI‑2558 is a general-purpose single‑pole double‑throw (SPDT) switch module. You can use it to add flexibility to your video switch network or to maintain uniform signal paths across multiple channels when building high‑channel‑count multiplexers. The module also features excellent insertion loss, voltage standing wave ratio (VSWR), and isolation parameters to minimize signal degradation. You can use its onboard relay count tracking feature to predict relay lifetime and reduce unexpected system downtime.
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PXI Fault Insertion Switch, 6-Channel, Two Fault Buses, 30 A, Hardware Interlock
40-191B-012-HI
The 40-191B-012-HI is a PXI fault insertion switch with hardware interlock using solid state switching elements and is capable of carrying 40A on single channel or 30A on all channels at the same time and provides a robust solution to high current fault insertion.
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PXI Fault Insertion Switch, 6-channel, Two Fault Buses, 10 A, Hardware Interlock
40-192A-012-HI
The 40-192A-012-HI is a PXI fault insertion switch with hardware interlock using solid state switching elements and is capable of switching current up to 10A. It is designed to be able to insert three different fault conditions between the test fixture and the equipment under test:
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PXIe-7966, Virtex-5 SX95T FPGA, 512 MB DRAM PXI FPGA Module for FlexRIO
781805-01
Virtex-5 SX95T FPGA, 512 MB DRAM PXI FPGA Module for FlexRIO—The PXIe‑7966 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‑7966 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‑7966 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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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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PXIe-7856, Kintex-7 160T FPGA, 1 MS/s PXI Multifunction Reconfigurable I/O Module
784145-01
Kintex-7 160T FPGA, 1 MS/s PXI Multifunction Reconfigurable I/O Module—The PXIe‑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 PXIe‑7856 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe‑7856 also includes peer‑to‑peer streaming for direct data transfer to other PXI Express modules.
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PXIe-7846, Kintex-7 160T FPGA, 500 kS/s PXI Multifunction Reconfigurable I/O Module
784143-01
Kintex-7 160T FPGA, 500 kS/s PXI Multifunction Reconfigurable I/O Module—The PXIe‑7846 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 PXIe‑7846 features a dedicated A/D converter (ADC) per channel for independent timing and triggering. This design offers specialized functionality such as multirate sampling and individual channel triggering, which are outside the capabilities of typical data acquisition hardware. The PXIe‑7846 also includes peer-to-peer streaming for direct data transfer to other PXI Express modules.
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PXI Dual 4 to 1 RF Multiplexer 6GHz 50 Ohm SMA Terminated
40-882-002
This PXI multiplexer exhibits low VSWR characteristically over the full operating frequency range and consistent insertion loss characteristics. The use of solid state switches ensures a long service life with no wear out mechanism, making the 40-882 MUX ideal for ATE systems requiring frequent and fast operating RF switching.
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PXI Quad 4 to 1 RF Multiplexer 3GHz 50 Ohm MCX Terminated
40-876-104
The 40-876-104 is a 50 Ohm 4 to 1 RF multiplexer with 4 banks in a single PXI slot. Additionally, extra switching allows the common connection to be terminated into 50 Ohm, maintaining signal integrity. The module has low insertion loss and VSWR through the use of modern RF relay technology at an affordable cost.
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PXIe-5644, 6 GHz, 80 MHz Bandwidth, RF PXI Vector Signal Transceiver
782376-01
6 GHz, 80 MHz Bandwidth, RF PXI Vector Signal Transceiver—The PXIe‑5644 combines a vector signal generator and vector signal analyzer with FPGA-based real-time signal processing and control into a single device, also known as a VST. Because of this software-designed approach, the PXIe‑5644 features the flexibility of a software defined radio architecture with RF instrument class performance.
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PXIe-5841, 6 GHz, 1 GHz Bandwidth, RF PXI Vector Signal Transceiver
785832-01
6 GHz, 1 GHz Bandwidth, RF PXI Vector Signal Transceiver - The PXIe-5841 is a vector signal transceiver (VST) with 1 GHz of instantaneous bandwidth. It combines vector signal generator, vector signal analyzer and high-speed serial interface capabilities with FPGA-based real-time signal processing and control. The PXIe-5841 features the flexibility of a software defined radio architecture with RF instrument class performance. This VST delivers the fast measurement speed and small form factor of a production test box with the flexibility and high performance of R&D-grade box instruments. The PXIe-5841 is available with an optional high-performance local oscillator module for improved phase noise, measurement time, and EVM performance. You can use the VST to test a variety of cellular and wireless standards such as Wi-Fi 6 and 5G NR. In addition, you can expand the small, two slot 2U PXI Express form factor to support multiple input, multiple output (MIMO) configurations.
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PXIe-5841, 6 GHz, 1 GHz Bandwidth, RF PXI Vector Signal Transceiver
786982-01
6 GHz, 1 GHz Bandwidth, RF PXI Vector Signal Transceiver - The PXIe-5841 is a vector signal transceiver (VST) with 1 GHz of instantaneous bandwidth. It combines vector signal generator, vector signal analyzer and high-speed serial interface capabilities with FPGA-based real-time signal processing and control. The PXIe-5841 features the flexibility of a software defined radio architecture with RF instrument class performance. This VST delivers the fast measurement speed and small form factor of a production test box with the flexibility and high performance of R&D-grade box instruments. The PXIe-5841 is available with an optional high-performance local oscillator module for improved phase noise, measurement time, and EVM performance. You can use the VST to test a variety of cellular and wireless standards such as Wi-Fi 6 and 5G NR. In addition, you can expand the small, two slot 2U PXI Express form factor to support multiple input, multiple output (MIMO) configurations.
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PXI Dual 4 to 1 Terminated RF Multiplexer 3GHz 50 Ohm SMB
40-873-002
The 40-873-002 is a 4 to 1 RF MUX with 2 banks in a single PXI slot. Additionally, extra switching allows unused channels to be terminated into 50 Ohm, maintaining signal integrity. It has been designed to exhibit low insertion loss and VSWR through the use of modern RF relay technology at an affordable cost. Each MUX has been carefully designed to ensure excellent and repeatable RF characteristics to frequencies of 3GHz.
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PXI Dual 4 to 1 Terminated RF Multiplexer 3GHz 50 Ohm MCX
40-873-102
The 40-873-102 is a 4 to 1 RF MUX with 2 banks in a single PXI slot. Additionally, extra switching allows unused channels to be terminated into 50 Ohm, maintaining signal integrity. It has been designed to exhibit low insertion loss and VSWR through the use of modern RF relay technology at an affordable cost. Each MUX has been carefully designed to ensure excellent and repeatable RF characteristics to frequencies of 3GHz.
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PXI Dual 6 to 1 RF Multiplexer 6GHz 50 Ohm SMA Terminated
40-881-002
The 40-881 is a 50 Ohm 6 to 1 6GHz multiplexer available as a single or dual MUX in one and two PXI slots respectively. The 40-881 exhibits low VSWR characteristic over the full operating frequency range and consistent insertion loss characteristics. The use of solid state switches ensure a long service life with no wear out mechanism, making the 40-881 ideal for ATE systems requiring frequent and fast operating RF switching with no contact bounce.
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PXI Dual 2 x 2 Fibre Optic (M Mode) SC M50
40-860-222-M50
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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PXI Dual 2 x 2 Fibre Optic (M Mode) SC M62.5
40-860-222-M62.5
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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PXI Dual 2 x 2 Fibre Optic (M Mode) ST M50
40-860-522-M50
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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PXI Single 2 x 2 Fibre Optic (M Mode) ST M50
40-860-512-M50
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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PXI Single 2 x 2 Fibre Optic (M Mode) SC M50
40-860-212-M50
Pickering PXI Fiber Optic MEMS Switching cards are available in many high density formats with a choice of 5 different connector styles to suit most applications: FC/APC (for optimal performance), FC/PC and SC/PC for general applications and LC and MU for high density applications. Fiber optic multiplexers create a signal path by redirecting the optical signal into a selected output fiber. This is achieved using Micro-Mechanical Mirrors driven by a highly precise mechanism and activated via an electrical control signal.
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130/180 MS/s Dual Channel PXI Express Digitizer for Frequencies up to 175 MHz
PXIe-1803
This 130/180 MS/s Dual Channel PXI Express digitizer provides the best speed and performance available for input frequencies up to 175 MHz.With exceptional signal integrity, high density and modularity, and channel synchronization options, this new digitizer provides massive functionality in a compact form factor.Key features include:Dual 14/16-bit digitizer configurable as separate or fully synchronized channelsWaveform bandwidths of 65-175 MHz (typical)64M words of waveform memory per channelExternal clock input for synchronization up to 180 MHz250 μV Measurement AccuracyNoise Floor and RelativeAccuracy as Precise as 0.006%
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PXIe-4302, 24-Bit, 32-Channel, 5 kS/s, ±10 V PXI Analog Input Module
783865-01
24-Bit, 32-Channel, 5 kS/s, ±10 V PXI Analog Input Module—The PXIe‑4302 is a filtered input module for voltage, thermocouple, and current measurements. The module has an A/D converter per channel to enable a simultaneous sample rate of 5 kS/s. The PXIe‑4302 offers you the ability to select a digital filter per channel to provide extra filtering performance. You also can operate up to four different sample rates and triggering configurations concurrently to ensure you measure every sensor as needed. The included NI‑DAQmx driver simplifies hardware configuration and measurement.
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PXIe-5646, 6 GHz, 200 MHz Bandwidth, RF PXI Vector Signal Transceiver
782952-01
6 GHz, 200 MHz Bandwidth, RF PXI Vector Signal Transceiver—The PXIe‑5646 combines a vector signal generator and vector signal analyzer with FPGA-based real-time signal processing and control into a single device, also known as a VST. Because of this software-designed approach, the PXIe‑5646 features the flexibility of a software defined radio architecture with RF instrument class performance. The additional bandwidth of the PXIe‑5646 enables you to test wireless and cellular standards such as 802.11ac 160 MHz and LTE‑A carrier aggregation while leveraging the latest performance-enhancing processing techniques such as digital predistortion.
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PXIe-5450, 145 MHz Bandwidth, 16-Bit, 128 MB, I/Q PXI Waveform Generator
780419-01
PXIe, 145 MHz Bandwidth, 16-Bit, 128 MB, I/Q PXI Waveform Generator—The PXIe‑5450 is a 145 MHz, dual‐channel arbitrary waveform generator optimized for I/Q communications signals. It is an ideal instrument for testing devices with I/Q inputs, or as the baseband component of an RF vector signal generator. The PXIe‑5450 also features onboard signal processing (OSP) functions that include pulse shaping and interpolation filters, gain and offset control, and a numerically controlled oscillator (NCO) for frequency shifting. The PXIe‑5450 also features advanced synchronization and data streaming capabilities.