Showing results: 3556 - 3570 of 5678 items found.
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40-873-002 -
Pickering Interfaces Ltd.
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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40-873-102 -
Pickering Interfaces Ltd.
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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40-881-001 -
Pickering Interfaces Ltd.
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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40-881-002 -
Pickering Interfaces Ltd.
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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40-876-004 -
Pickering Interfaces Ltd.
The 40-876-004 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. Each MUX has been carefully designed to ensure excellent and repeatable RF characteristics to frequencies of 3GHz with each path having a nominally equal insertion loss.
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40-860-512-M50 -
Pickering Interfaces Ltd.
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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40-860-212-M50 -
Pickering Interfaces Ltd.
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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40-860-222-M50 -
Pickering Interfaces Ltd.
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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40-860-222-M62.5 -
Pickering Interfaces Ltd.
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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40-860-522-M50 -
Pickering Interfaces Ltd.
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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PXIe-1803 -
Astronics Corporation
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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783865-01 -
NI
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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780419-01 -
NI
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.
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780419-02 -
NI
PXIe, 145 MHz Bandwidth, 16-Bit, 512 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.
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782952-01 -
NI
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.