Fairview Microwave Introduces Surface-Mount Failsafe Electromechanical Relay Switches

New Quartz Series of Switches Pushes Boundaries in RF Technology

Fairview Microwave, an Infinite Electronics brand and a leading provider of on-demand RF, microwave and millimeter-wave components, has announced its latest offering: the Quartz Series of surface-mount failsafe electromechanical relay switches. These precision switches come in a pioneering micro-sized package and offer an extensive frequency bandwidth from DC up to an impressive 26 GHz.

The Quartz Series also stands out for its robust power handling, capable of managing up to 40 watts average power during hot switching. Each switch in the series is built with failsafe actuators, and both 12-volt and 24-volt models are offered.

Designed to thrive under demanding conditions, these switches can withstand challenges from sine vibration to mechanical shock, reinforcing their durability. A unique feature of this series is its gold-plated mounting surface, which resists oxidation, ensuring a prolonged and reliable connection. Also for reliability, they have a lifecycle rating of 5M.

Fairview’s Quartz Series is all about versatility and performance. It caters to a broad range of frequency bands, from VHF to UHF and all the way to K bands, making it suitable for multiple market applications.

They are designed for optimal performance, with insertion loss rates going as low as 0.2 dB max, high isolation exceeding 50 dB, and a rapid switching time averaging just 5 milliseconds. In addition, the micromechanical design of the switches ensures a cost-effective and streamlined installation process for users.

“Our new Quartz Series pushes the boundaries of RF technology,” said Product Line Manager Kevin Hietpas. “These switches deliver unparalleled performance while adhering to the industry’s eco-compliance standards.”

Fairview’s new surface-mount failsafe electromechanical relayswitches are in stock and available for same-day shipping. For inquiries, please call +1 (949) 261-1920.