Showing results: 781 - 795 of 2326 items found.
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40-570A-112 -
Pickering Interfaces Ltd.
The 40-570A-112 is a 4-channel, 80-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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40-570A-311 -
Pickering Interfaces Ltd.
The 40-570A-311 is a 8-channel, 20-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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40-570A-413 -
Pickering Interfaces Ltd.
The 40-570A-413 is a 48-channel, 10-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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40-570A-113 -
Pickering Interfaces Ltd.
The 40-570A-113 is a 6-channel, 80-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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40-570A-212 -
Pickering Interfaces Ltd.
The 40-570A-212 is a 8-channel, 40-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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40-570A-415 -
Pickering Interfaces Ltd.
The 40-570A-415 is a 80-channel, 10-pole High-Density Multiplexer and is part of our BRIC family. The 40-570A range is designed to simplify the connection of a common set of test equipment to one of a number of different devices for testing.
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60-891-019 -
Pickering Interfaces Ltd.
This LXI Microwave Multiplexer is controlled through an LXI interface based on 1000Base-T Ethernet. This provides a quick and easy method of installation. It also provides a simple way of controlling it at a remote location through its API or built in soft front panel.
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40-875A-001 -
Pickering Interfaces Ltd.
The 40-875A-001 (PXI) and 42-875A-001 (PXIe) are single 50 Ohm 16-channel RF multiplexers in a single slot. They have been designed to exhibit low insertion loss and VSWR through the use of modern RF relay technology at an affordable cost.
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40-875A-101 -
Pickering Interfaces Ltd.
The 40-875A-101 (PXI) and 42-875A-101 (PXIe) are single 50 Ohm 16-channel RF multiplexers in a single slot. They have been designed to exhibit low insertion loss and VSWR through the use of modern RF relay technology at an affordable cost.
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42-875A-001 -
Pickering Interfaces Ltd.
The 40-875A-001 (PXI) and 42-875A-001 (PXIe) are single 50 Ohm 16-channel RF multiplexers in a single slot. They have been designed to exhibit low insertion loss and VSWR through the use of modern RF relay technology at an affordable cost.
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42-875A-101 -
Pickering Interfaces Ltd.
The 40-875A-101 (PXI) and 42-875A-101 (PXIe) are single 50 Ohm 16-channel RF multiplexers in a single slot. They have been designed to exhibit low insertion loss and VSWR through the use of modern RF relay technology at an affordable cost.
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65-281-315 -
Pickering Interfaces Ltd.
The 65-281-315 32:1 multiplexer is part of the 65-280 and 65-281 ranges of optical plug-in modules offering matrix & insert/bypass or multiplexer & SPST topologies respectively with all models based on MEMS fiber optic switches and available in various populations per plugin. In addition, a choice of different connector styles to suit most applications is offered: FC/APC (for optimal performance), FC/PC, SC/PC and ST for general applications and LC for high density applications. They use MEMS (Micro-Electro-Mechanical-Systems) based optical switches to route signals between terminals by redirecting the optical signal. This is achieved using micromechanical mirrors driven by a highly precise mechanism activated via an electrical control signal.
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65-281-314 -
Pickering Interfaces Ltd.
The 65-281-314 16:1 multiplexer is part of the 65-280 and 65-281 ranges of optical plug-in modules offering matrix & insert/bypass or multiplexer & SPST topologies respectively with all models based on MEMS fiber optic switches and available in various populations per plugin. In addition, a choice of different connector styles to suit most applications is offered: FC/APC (for optimal performance), FC/PC, SC/PC and ST for general applications and LC for high density applications. They use MEMS (Micro-Electro-Mechanical-Systems) based optical switches to route signals between terminals by redirecting the optical signal. This is achieved using micromechanical mirrors driven by a highly precise mechanism activated via an electrical control signal.
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65-281-381 -
Pickering Interfaces Ltd.
The 65-281-381 2:1 multiplexer is part of the 65-280 and 65-281 ranges of optical plug-in modules offering matrix & insert/bypass or multiplexer & SPST topologies respectively with all models based on MEMS fiber optic switches and available in various populations per plugin. In addition, a choice of different connector styles to suit most applications is offered: FC/APC (for optimal performance), FC/PC, SC/PC and ST for general applications and LC for high density applications. They use MEMS (Micro-Electro-Mechanical-Systems) based optical switches to route signals between terminals by redirecting the optical signal. This is achieved using micromechanical mirrors driven by a highly precise mechanism activated via an electrical control signal.
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65-281-323 -
Pickering Interfaces Ltd.
The 65-281-323 8:1 multiplexer is part of the 65-280 and 65-281 ranges of optical plug-in modules offering matrix & insert/bypass or multiplexer & SPST topologies respectively with all models based on MEMS fiber optic switches and available in various populations per plugin. In addition, a choice of different connector styles to suit most applications is offered: FC/APC (for optimal performance), FC/PC, SC/PC and ST for general applications and LC for high density applications. They use MEMS (Micro-Electro-Mechanical-Systems) based optical switches to route signals between terminals by redirecting the optical signal. This is achieved using micromechanical mirrors driven by a highly precise mechanism activated via an electrical control signal.