Showing results: 91 - 105 of 1985 items found.
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40-519A-002 -
Pickering Interfaces Ltd.
The 40-519A-002 is a 32x4 2-pole medium density matrix module and is designed for switching medium voltage/power signals in test applications where reed relays do not have sufficient rating. They are also suitable for telecoms applications where send and return signals need to be switched simultaneously.
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60-771-001 -
Pickering Interfaces Ltd.
The 60-771 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 8 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-772-001 -
Pickering Interfaces Ltd.
The 60-772 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 4 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-770-001 -
Pickering Interfaces Ltd.
The 60-770 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 16 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-772-002 -
Pickering Interfaces Ltd.
The 60-772 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 4 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-771-003 -
Pickering Interfaces Ltd.
The 60-771 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 8 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-772-003 -
Pickering Interfaces Ltd.
The 60-772 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 4 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-770-003 -
Pickering Interfaces Ltd.
The 60-770 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 16 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-771-004 -
Pickering Interfaces Ltd.
The 60-771 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 8 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-772-004 -
Pickering Interfaces Ltd.
The 60-772 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 4 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-771-002 -
Pickering Interfaces Ltd.
The 60-771 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 8 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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60-770-002 -
Pickering Interfaces Ltd.
The 60-770 is a family of integrated RF matrices suitable for use up to 2.4GHz in a 50 ohm transmission line system. The matrix design permits any single Y input to be connected to any single X input, permitting the concurrent connection of 16 RF paths. All signal paths are bi-directional permitting any connection to be used as an input or an output.
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40-542-021 -
Pickering Interfaces Ltd.
The highest density single slot PXI reed relay matrix module on the market today. This range also includes a 132x4 and 66x8 reed relay matrices with 1-pole switching. They are constructed using high reliability sputtered ruthenium reed relays, offering >10e9 operations to give maximum switching confidence with long life and stable contact resistance. Typical applications include signal routing in Functional ATE and data acquisition systems.
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40-541-021 -
Pickering Interfaces Ltd.
The highest density single slot PXI reed relay matrix module on the market today. This range also includes a 132x4 and 33x16 reed relay matrices with 1-pole switching. They are constructed using high reliability sputtered ruthenium reed relays, offering >10e9 operations to give maximum switching confidence with long life and stable contact resistance. Typical applications include signal routing in Functional ATE and data acquisition systems.
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BRIC, -
Pickering Interfaces Ltd.
High Density Packaging and Integrated BackplanesWith Pickering's BRIC Large PXI Matrix Modules, the use of high density packaging and integrated backplanes enables a large matrix to be implemented with no user configuration or special matrix expansion kits. These matrices use thru-hole mechanical relays (not surface mount) and can be serviced using standard de-soldering tools simplifying repair and reducing down time. Our BRIC's integrated design ensures high matrix performance with high signal bandwidth and fewer system implementation errors.