Showing results: 2986 - 3000 of 6787 items found.
-
65-239-101 -
Pickering Interfaces Ltd.
The scalable matrix chassis offers you a solution that can be easily re-configured by the insertion and removal of sub-cards. It is purchased as an empty chassis with a quantity of sub-cards required for a particular matrix size. As your requirements evolve, additional cards can be easily fitted. When new cards are added, the control software automatically detects the new configuration.
-
65-219-210 -
Pickering Interfaces Ltd.
The 65-219-210 is a 10x40 plug-in module and is part of a scalable matrix platform designed to provide a large matrix solution with 2A current carrying capacity on all Y paths.
-
65-219-209 -
Pickering Interfaces Ltd.
The 65-219-209 is a 10x35 plug-in module and is part of a scalable matrix platform designed to provide a large matrix solution with 2A current carrying capacity on all Y paths.
-
65-219-208 -
Pickering Interfaces Ltd.
The 65-219-208 is a 10x30 plug-in module and is part of a scalable matrix platform designed to provide a large matrix solution with 2A current carrying capacity on all Y paths.
-
65-223-102 -
Pickering Interfaces Ltd.
The range includes four plug-in models covering matrices of up to 1,536x4 in increments of 128 (model 65-221), 768x8 in increments of 64 (model 65-223), 384x16 in increments of 32 (model 65-225), and 192x32 in increments of 32 (model 65-227). Users can specify as many or as few plug-in modules (up to six) required and can field upgrade the chassis to extend the matrix when necessary. Another important feature is that over 1,500 relays can be closed simultaneously for specific conditions for parametric testing.
-
65-227-101 -
Pickering Interfaces Ltd.
The range includes four plug-in models covering matrices of up to 1,536x4 in increments of 128 (model 65-221), 768x8 in increments of 64 (model 65-223), 384x16 in increments of 32 (model 65-225), and 192x32 in increments of 32 (model 65-227). Users can specify as many or as few plug-in modules (up to six) required and can field upgrade the chassis to extend the matrix when necessary. Another important feature is that over 1,500 relays can be closed simultaneously for specific conditions for parametric testing.
-
65-219-205 -
Pickering Interfaces Ltd.
The 65-219-205 is a 10x15 plug-in module and is part of a scalable matrix platform designed to provide a large matrix solution with 2A current carrying capacity on all Y paths.
-
65-219-204 -
Pickering Interfaces Ltd.
The 65-219-204 is a 10x10 plug-in module and is part of a scalable matrix platform designed to provide a large matrix solution with 2A current carrying capacity on all Y paths.
-
65-221-102 -
Pickering Interfaces Ltd.
The range includes four plug-in models covering matrices of up to 1,536x4 in increments of 128 (model 65-221), 768x8 in increments of 64 (model 65-223), 384x16 in increments of 32 (model 65-225), and 192x32 in increments of 32 (model 65-227). Users can specify as many or as few plug-in modules (up to six) required and can field upgrade the chassis to extend the matrix when necessary. Another important feature is that over 1,500 relays can be closed simultaneously for specific conditions for parametric testing.
-
65-221-112 -
Pickering Interfaces Ltd.
The range includes four plug-in models covering matrices of up to 1,536x4 in increments of 128 (model 65-221), 768x8 in increments of 64 (model 65-223), 384x16 in increments of 32 (model 65-225), and 192x32 in increments of 32 (model 65-227). Users can specify as many or as few plug-in modules (up to six) required and can field upgrade the chassis to extend the matrix when necessary. Another important feature is that over 1,500 relays can be closed simultaneously for specific conditions for parametric testing.
-
65-225-002 -
Pickering Interfaces Ltd.
The range includes four plug-in models covering matrices of up to 1,536x4 in increments of 128 (model 65-221), 768x8 in increments of 64 (model 65-223), 384x16 in increments of 32 (model 65-225), and 192x32 in increments of 32 (model 65-227). Users can specify as many or as few plug-in modules (up to six) required and can field upgrade the chassis to extend the matrix when necessary. Another important feature is that over 1,500 relays can be closed simultaneously for specific conditions for parametric testing.
-
65-221-111 -
Pickering Interfaces Ltd.
The range includes four plug-in models covering matrices of up to 1,536x4 in increments of 128 (model 65-221), 768x8 in increments of 64 (model 65-223), 384x16 in increments of 32 (model 65-225), and 192x32 in increments of 32 (model 65-227). Users can specify as many or as few plug-in modules (up to six) required and can field upgrade the chassis to extend the matrix when necessary. Another important feature is that over 1,500 relays can be closed simultaneously for specific conditions for parametric testing.
-
65-225-001 -
Pickering Interfaces Ltd.
The range includes four plug-in models covering matrices of up to 1,536x4 in increments of 128 (model 65-221), 768x8 in increments of 64 (model 65-223), 384x16 in increments of 32 (model 65-225), and 192x32 in increments of 32 (model 65-227). Users can specify as many or as few plug-in modules (up to six) required and can field upgrade the chassis to extend the matrix when necessary. Another important feature is that over 1,500 relays can be closed simultaneously for specific conditions for parametric testing.
-
65-225-101 -
Pickering Interfaces Ltd.
These Modular LXI Matrix Reed Relay Matrix Modules plug into our LXI Modular Chassis (model 65-200-002)—providing access to all signal connection on 200 pin connectors. They are constructed using Pickering Electronics' Reed Relays offering maximum performance and reliability as well as very fast operate times.
-
65-280-313 -
Pickering Interfaces Ltd.
The 65-280-313 8x8 matrix 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.