MPG’s Reliant line of High Repeatability Switches meets these basic requirements with a dependable and economical switching solution, backed by decades of design and manufacturing innovation.
High Repeatability Coaxial SPnT Switches are designed to stand up to rigorous requirements over an extended lifecycle. MPG’s Reliant line of High Repeatability SPnT Switches meets these basic requirements with a dependable and economical switching solution, backed by decades of design and manufacturing innovation.
High Repeatability Switches are designed to stand up to rigorous requirements over an extended lifecycle. MPG’s Reliant line of High Repeatability Switches meets these basic requirements with a dependable and economical switching solution, backed by decades of design and manufacturing innovation.
Reliant High Repeatability Switches can operate at temperatures below 25°C, up to 15,000 feet in altitude, and can also be stored up to 50,000 feet without performance degradation. Control can be instituted by applying ground to close the desired port, via TTL logic (by applying +5vdc to close a port or +0Vdc to open a port) or CANbus (to use with MPG Dow-Key brand controller boards).
- Please request a quote on a specific designs.
- When considering a particular family of parts, use Filter Wizard and QuEST to determine specific part number.
High Repeatability SPnT Switch Configurations:
Single pole multiple throw (SPnT) terminated in the following modes: latching, normally open terminated, latching terminated, self cut off.
High Repeatability SPnT Switch frequency:
Our High Repeatability Switches route RF signals over a bandwidth from DC-1 to 26.5 GHz.
High Repeatability SPnT Switch features:
Our High Repeatability Switches support maximum VSWR 1.15 to 1.80, with minimum isolation ranges from 55 dB to 85 dB, and a maximum insertion loss from .2 dB to 4 dB.
High Repeatability SPnT Switches can be designed to meet customer specifications across the following ranges:
5M Cycle Life, great insertion loss repeatability, low VSWR, high isolation.