Showing results: 3076 - 3090 of 5739 items found.
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CP266 -
Wuntronic GmbH
The CP266 is a single-width, 6U, CompactPCI module with 32 or 64, 16-bit analog output channels. These independent analog channels provide ±10 V full-scale outputs. The channel update rate is 2ms, and each output is accurate to ±1mV. The power-up state of the analog outputs can be set to independent user-defined values. Paired output signals are provided to eliminate ground offset effects. The analog outputs are available at a single 68-pin SCSI II shielded connector (32-channel option) or a pair of 68-pin SCSI II shielded connectors (64-channel option).
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40-763-002 -
Pickering Interfaces Ltd.
This terminated dual 8 to 1 multiplexer is part of a range of RF multiplexers available in the following configurations: dual, quad and octal 4 to 1, single, dual and quad 8 to 1, single and dual 16 to 1 and single 32 to 1. All multiplexers have the option of automatic terminations which offer advantages at system level by reducing the presence of standing waves in the system which can cause degradation in isolation and crosstalk.
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40-761-002 -
Pickering Interfaces Ltd.
This terminated dual 4 to 1 multiplexer is part of a range of RF multiplexers available in the following configurations: dual, quad and octal 4 to 1, single, dual and quad 8 to 1, single and dual 16 to 1 and single 32 to 1. All multiplexers have the option of automatic terminations which offer advantages at system level by reducing the presence of standing waves in the system which can cause degradation in isolation and crosstalk.
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40-780-522 -
Pickering Interfaces Ltd.
The 40-780 Microwave switching module consists of one, two, three or four changeover switches capable of switching frequencies to 18GHz (optionally to 67GHz) in 50Ω or 2.5GHz in 75Ω.
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40-763A-002 -
Pickering Interfaces Ltd.
The 40-763A-002 terminated dual 8 to 1 multiplexer is part of a range of RF multiplexers available in the following configurations: dual, quad and octal 4 to 1, single, dual and quad 8 to 1, single and dual 16 to 1 and single 32 to 1. All multiplexers have the option of automatic terminations which offer advantages at system level by reducing the presence of standing waves in the system which can cause degradation in isolation and crosstalk.
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40-761A-002 -
Pickering Interfaces Ltd.
The 40-761A-002 terminated dual 4 to 1 multiplexer is part of a range of RF multiplexers available in the following configurations: dual, quad and octal 4 to 1, single, dual and quad 8 to 1, single and dual 16 to 1 and single 32 to 1. All multiplexers have the option of automatic terminations which offer advantages at system level by reducing the presence of standing waves in the system which can cause degradation in isolation and crosstalk.
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40-765A-002 -
Pickering Interfaces Ltd.
The 40-765A-002 terminated dual 16 to 1 multiplexer is part of a range of RF multiplexers available in the following configurations: dual, quad and octal 4 to 1, single, dual and quad 8 to 1, single and dual 16 to 1 and single 32 to 1. All multiplexers have the option of automatic terminations which offer advantages at system level by reducing the presence of standing waves in the system which can cause degradation in isolation and crosstalk.
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40-729-002-L -
Pickering Interfaces Ltd.
40-727/728/729 are RF Matrix Modules suitable for switching frequencies to 300MHz (50Ω version). The modules are available in either 50Ω or 75Ω versions with a choice of coaxial connectors. The 40-727/728/729 are designed designed to provide a simple and scalable bidirectional matrix to RF frequencies. They are intended for the easy construction of high performance bidirectional matrix switching systems.
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40-727-002-L -
Pickering Interfaces Ltd.
40-727/728/729 are RF Matrix Modules suitable for switching frequencies to 300MHz (50Ω version). The modules are available in either 50Ω or 75Ω versions with a choice of coaxial connectors. The 40-727/728/729 are designed designed to provide a simple and scalable bidirectional matrix to RF frequencies. They are intended for the easy construction of high performance bidirectional matrix switching systems.
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40-785B-532-E -
Pickering Interfaces Ltd.
The 40-785B-532-E is a remote mount dual 6-channel 26.5GHz unterminated microwave multiplexer. The 40-785B range of multiplexers are available as a single or dual 6-channel panel mounted multiplexer with relays mounted on the front panel. The single slot version can support up to three supplied remotely mounted multiplexers.
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40-785B-753-E -
Pickering Interfaces Ltd.
The 40-785B-753-E is a remote mount triple 75Ω 6-channel 2.5GHz unterminated microwave multiplexer. The 40-785B range of multiplexers are available as a single or dual 6-channel panel mounted multiplexer with relays mounted on the front panel. The single slot version can support up to three supplied remotely mounted multiplexers.
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40-785B-523-E -
Pickering Interfaces Ltd.
The 40-785B-523-E is a remote mount triple 6-channel 18GHz unterminated microwave multiplexer. The 40-785B range of multiplexers are available as a single or dual 6-channel panel mounted multiplexer with relays mounted on the front panel. The single slot version can support up to three supplied remotely mounted multiplexers.
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40-785B-551-E -
Pickering Interfaces Ltd.
The 40-785B-551-E is a remote mount single 6-channel 50GHz unterminated microwave multiplexer. The 40-785B range of multiplexers are available as a single or dual 6-channel panel mounted multiplexer with relays mounted on the front panel. The single slot version can support up to three supplied remotely mounted multiplexers.
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40-785B-533-E -
Pickering Interfaces Ltd.
The 40-785B-533-E is a remote mount triple 6-channel 26.5GHz unterminated microwave multiplexer. The 40-785B range of multiplexers are available as a single or dual 6-channel panel mounted multiplexer with relays mounted on the front panel. The single slot version can support up to three supplied remotely mounted multiplexers.
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40-855-222-M62.5 -
Pickering Interfaces Ltd.
The fiber optic switches connect the common to a channelby redirecting the optical signal into a selected output fiber.This is achieved using Micro-Mechanical Mirrors driven bya highly precise mechanism and activated via an electricalcontrol signal.