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TriQuint is proud to announce the latest additions to our innovative RF portfolio. View our New Products page to discover ways to simplify your RF designs across mobile, network infrastructure and defense applications.
TriQuint's QUANTUM Tx™ family of highly integrated transmit modules reduce board space and enable a much smaller footprint for 2G / 3G / 4G mobile devices. Find out how these building blocks can make RF design easier and faster for 2G and entry-level 3G devices.
TriQuint's innovative TriAccess™ portfolio enables more efficient broadband video, voice and data services. TriQuint amplifiers and filters lower power consumption with improved performance. TriQuint enables all major 75 ohm RF systems in headend, infrastructure, MDU and CPE applications.
Consumers have come to expect Wi-Fi connectivity in their smartphones, tablets and other mobile devices. You'll find TriQuint's TriConnect® Wi-Fi RF modules in many of the world's most sought-after products.
TRITIUM™ is a family of highly integrated modules designed for use in 3G mobile phones, data cards and USB modems. Optimize your 3G CDMA / WCDMA / HSUPA applications and gain maximum design flexibility.
TriQuint's highly integrated TRIUMF™ MMPAs are one more proven way that TriQuint engineers are delivering innovative solutions for the most complex mobile design challenges for cutting-edge smartphones. Let us help you simplify your 2G / 3G / 4G design and enhance system performance while speeding time to market.
Part # TGP1439
Last Time Buy
The TriQuint TGP1439 is a 5-bit digital phase shifter MMIC using TriQuint?'s proven 0.5 OhmpPower pHEMT process to support a variety of K band phased array applications including satellite communication systems. The 5-bit design utilizes a compact topology that achieves a 1.27 mm² die area, high performance and good tolerance to control voltage variation. The part provides a 5-bit digital phase shift function with a nominal -5 dB insertion loss and 3° RMS phase shift error over a bandwidth of 18 to 20 GHz.
This device requires a minimum of off-chip components and operates with a -5.0 V to -2.5 V control voltage range. Each device is RF tested on-wafer to ensure performance compliance. The device is available in chip form.