you remember seeing a company press release or new product announcement on the RF Cafe homepage but
now it is gone, try looking through the archives. Content is the copyright of the company represented,
but the page format is my copyright and cannot be distributed to other media outlets. Please submit
your content for consideration to email@example.com.
2015 | 2016
Triad RF Systems TTRM1019 - 20-1000 MHz 20W BDA
May 16, 2017 - Triad RF Systems introduces the
broadband bi-directional low SWAP amplifier utilizing GaN devices, making it well suited for EW
/ SIGINT applications. Its extremely fast switching speed and high linearity also make the TTRM1019
an ideal solution for JTRS applications.
AB GaN module is designed for both military and commercial applications. It is capable of supporting
any signal type and modulation format, including but not limited to 3-4G telecom, WLAN, OFDM, DVB, and
CW/AM/FM. The latest device technologies and design methods are employed to offer high power density,
efficiency, and linearity in a small, lightweight package.
Features: Over / under / reverse voltage protection, High speed Tx/Rx switching control, Temperature
output, Optional heatsink, Manual or automatic Tx/Rx switching available.
About Triad RF System
Triad RF Systems, founded in 2010, designs and manufactures high-performance, high-power RF and microwave
amplifiers operating at frequencies from 10 MHz to 20 GHz. The company focuses on delivering extremely
high reliability and ruggedness when integrating its products within the confines of subsystems and
systems - without sacrificing efficiency or linearity and adhering to stringent requirements for size,
weight, and power. The company’s products are employed in commercial and military applications, including
terrestrial wireless and satellite communications, radar, electronic warfare, medical, digital video
broadcast, and avionics systems.
Triad RF Systems
11 Harts Lane, Suite I
East Brunswick, NJ 08816
Copyright © 2017 Triad RF Systems, All rights reserved.
Posted May 17, 2017