- Trained on our vast library of engineering resources.

JFW Industries, Inc. Blocking RF Matrix Switch 50MS-334

Description
A blocking matrix switch is constructed with switches on both the input ports and the output ports. Each input signal can be switched to only one output port at a time. If your application requires an input to be available to more than one output simultaneously, then a non-blocking matrix becomes necessary. Example block diagrams for blocking matrix switches are shown below the model selection table. The two most notable advantages of a blocking matrix switch are insertion loss and isolation. Because the matrix construction uses only switches, the insertion loss will be lower than any other matrix configuration. Using only switches also makes it possible to maintain very high isolation from input to output because switches have better isolation characteristics than power divider/combiners. The one disadvantage is that each input is only available to a single output. Below is a sortable table containing our online blocking matrix switch models. If you can’t find a model that meets your requirements, please contact us. One of our engineers will work with you to pick out an existing model or design a custom model for your application. JFW does not charge NRE’s and our pricing for custom models is in-line with our catalog models.
Request a Quote Datasheet

Suppliers

Company
Product
Description
Supplier Links
Blocking RF Matrix Switch - 50MS-334 - JFW Industries, Inc.
Indianapolis, IN, USA
Blocking RF Matrix Switch
50MS-334
Blocking RF Matrix Switch 50MS-334
A blocking matrix switch is constructed with switches on both the input ports and the output ports. Each input signal can be switched to only one output port at a time. If your application requires an input to be available to more than one output simultaneously, then a non-blocking matrix becomes necessary. Example block diagrams for blocking matrix switches are shown below the model selection table. The two most notable advantages of a blocking matrix switch are insertion loss and isolation. Because the matrix construction uses only switches, the insertion loss will be lower than any other matrix configuration. Using only switches also makes it possible to maintain very high isolation from input to output because switches have better isolation characteristics than power divider/combiners. The one disadvantage is that each input is only available to a single output. Below is a sortable table containing our online blocking matrix switch models. If you can’t find a model that meets your requirements, please contact us. One of our engineers will work with you to pick out an existing model or design a custom model for your application. JFW does not charge NRE’s and our pricing for custom models is in-line with our catalog models.

A blocking matrix switch is constructed with switches on both the input ports and the output ports. Each input signal can be switched to only one output port at a time. If your application requires an input to be available to more than one output simultaneously, then a non-blocking matrix becomes necessary. Example block diagrams for blocking matrix switches are shown below the model selection table.

The two most notable advantages of a blocking matrix switch are insertion loss and isolation. Because the matrix construction uses only switches, the insertion loss will be lower than any other matrix configuration. Using only switches also makes it possible to maintain very high isolation from input to output because switches have better isolation characteristics than power divider/combiners. The one disadvantage is that each input is only available to a single output.

Below is a sortable table containing our online blocking matrix switch models. If you can’t find a model that meets your requirements, please contact us. One of our engineers will work with you to pick out an existing model or design a custom model for your application. JFW does not charge NRE’s and our pricing for custom models is in-line with our catalog models.

Supplier's Site Datasheet

Technical Specifications

  JFW Industries, Inc.
Product Category RF Switches
Product Number 50MS-334
Product Name Blocking RF Matrix Switch
Package Type Connectorized
Operating Temperature 0.0 to 70 C (32 to 158 F)
Frequency Range 700 to 3000 MHz
Insertion Loss 1.5 dB
Isolation 60 to 70 dB
Unlock Full Specs
to access all available technical data

Similar Products

Electro-Mechanical 50 Ohm Reflective RF Switch - 50S-1316+12-SMA - JFW Industries, Inc.
Specs
Package Type Connectorized
Connector SMA
Operating Temperature -20 to 65 C (-4 to 149 F)
View Details
Non-Blocking RF Matrix Switch - 50MS-287 - JFW Industries, Inc.
Specs
Package Type Connectorized
Operating Temperature 0.0 to 50 C (32 to 122 F)
Frequency Range 20 to 2000 MHz
View Details
Benchtop RF Switch Assembly, 75 Ohm - 75SA-092 - JFW Industries, Inc.
Specs
Package Type Connectorized
Connector Type N
Control Interface RS232; Ethernet, Manual
View Details
Solid-State 50 Ohm RF Switch, Reflective - 50S-0536 - JFW Industries, Inc.
Specs
Package Type Connectorized
Control Interface TTL
Operating Temperature -20 to 85 C (-4 to 185 F)
View Details