Showing results: 106 - 120 of 1760 items found.
-
42-878-242 -
Pickering Interfaces Ltd.
The module is based on the latest micro-electromechanical system (MEMS) switching technology and has low insertion loss and VSWR. In addition, MEMS devices have a long operational life of >3 billion operations and benefit from an operating time of <20 μs allowing greater test system throughput. The multiplexers have excellent and repeatable RF characteristics beyond 4 GHz with each path having a nominally equal insertion loss.
-
42-878-241 -
Pickering Interfaces Ltd.
The module is based on the latest micro-electromechanical system (MEMS) switching technology and has low insertion loss and VSWR. In addition, MEMS devices have a long operational life of >3 billion operations and benefit from an operating time of <20 μs allowing greater test system throughput. The multiplexers have excellent and repeatable RF characteristics beyond 4 GHz with each path having a nominally equal insertion loss.
-
40-878-241 -
Pickering Interfaces Ltd.
The module is based on the latest micro-electromechanical system (MEMS) switching technology and has low insertion loss and VSWR. In addition, MEMS devices have a long operational life of >3 billion operations and benefit from an operating time of <20 μs allowing greater test system throughput. The multiplexers have excellent and repeatable RF characteristics beyond 4 GHz with each path having a nominally equal insertion loss.
-
40-873A-001 -
Pickering Interfaces Ltd.
The 40-873A-001 (PXI) and 42-873A-001 (PXIe) are 4 to 1 RF MUX with 1 bank in a single 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.
-
42-873A-001 -
Pickering Interfaces Ltd.
The 40-873A-001 (PXI) and 42-873A-001 (PXIe) are 4 to 1 RF MUX with 1 bank in a single 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.
-
40-873A-101 -
Pickering Interfaces Ltd.
The 40-873A-101 (PXI) and 42-873A-101 (PXIe) are 4 to 1 RF MUX with 1 bank in a single 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.
-
42-873A-101 -
Pickering Interfaces Ltd.
The 40-873A-101 (PXI) and 42-873A-101 (PXIe) are 4 to 1 RF MUX with 1 bank in a single 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.
-
42-881B-001 -
Pickering Interfaces Ltd.
The 40/42-881B has 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 module ideal for ATE systems requiring frequent and fast operating RF switching with no contact bounce.
-
42-881B-002 -
Pickering Interfaces Ltd.
The 40/42-881B has 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 module ideal for ATE systems requiring frequent and fast operating RF switching with no contact bounce.
-
YAVHF3X450 -
6TL Engineering
Fixture friendly. Use this product inside a Faraday chamber, and benefit from the fact that wiring in-out the chamber is drastically reduced!
-
778793-01 -
NI
500 MHz, 50 Ω PXI RF Multiplexer Switch Module—The PXI‑2593 can be programmatically configured as unterminated multiplexers, externally terminated multiplexers, or dimensionally flexible sparse matrices.
-
780587-93 -
NI
PXIe, 500 MHz, 50 Ω PXI RF Multiplexer Switch Module—The PXIe‑2593 can be programmatically configured as unterminated multiplexers, externally terminated multiplexers, or dimensionally flexible sparse matrices.
-
780587-46 -
NI
PXIe, 2.7 GHz, Quad 4x1 PXI RF Multiplexer Switch Module—The PXIe‑2746 is a PXI RF multiplexer switch module that is ideal for switching RF signals up to 2.7 GHz in production test applications. The high channel count of the PXIe‑2746 makes it well-suited for test systems that require switching a large number of RF signals, such as switching several devices under test to a single channel on the RF analyzer. It also features onboard relay counting for relay monitoring.
-
780587-47 -
NI
PXIe, 2.7 GHz, Dual 8x1 PXI RF Multiplexer Switch Module—The PXIe‑2747 is a PXI RF multiplexer switch module that is ideal for switching RF signals up to 2.7 GHz in production test applications. The high channel count of the PXIe‑2747 makes it well-suited for test systems that require switching a large number of RF signals, such as switching several devices under test to a single channel on the RF analyzer. It also features onboard relay counting for relay monitoring.
-
40-874-002 -
Pickering Interfaces Ltd.
The 40-874-002 is a 50 Ohm 8 to 1 RF multiplexer with 2 banks in a single PXI slot. It 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. The injection of noise and unwanted signals into the signal paths of this RF multiplexer has been minimized by careful attention to the mechanical and electrical design.