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Announcing the latest additions to Qorvo's innovative RF portfolio of GaN switches, GaN on SiC RF transistors, driver amplifiers, SAW diplexers, and multi-chip receive modules which serve a wide range of defense and civilian radar, communications, electronic warfare, and GPS communications systems. These high-performance solutions simplify RF for designers worldwide and are available at Qorvo's authorized channel partners.
X-Band 10W GaN SPDT Switch
QPC2040 Features
  • Frequency range: 8-12GHz
  • Insertion loss: <1.2dB
  • Isolation: >30dB typical
  • QGaN15 on SiC production process


Additional information:

  • Control voltages: 0V/-28V
  • 3x4.5mm QFN package
  • Ideal for radar, communications & EW
2.7-3.8GHz Variable Gain Driver Amplifier
QPA1008 Features
  • S-Band two stage variable gain driver amplifier
  • 28dB small signal gain with 32dB adjustable attenuation range
  • Integrated resistively coupled power detector at output


Additional information:

  • 31dBm P1dB with 35% PAE
  • 5x5mm QFN package
  • Ideal for communications, commercial & military radar
S-Band Multi-Chip Receive Module
QPM2100 Features
  • 2.5-4GHz
  • 1.2dB noise figure
  • No need of negative bias
  • 30dB small signal gain with 31.5dB adjustable attenuation range


Additional information:

  • Integrated LNA, 6-bit DSA, driver amplifier, T/R switch
  • 7x7mm QFN package 
  • Ideal for radar systems
0.15-2.8GHz 50W GaN SPDT Switch
QPC1005 Features
  • QGaN15 on SiC production process
  • <0.7dB insertion loss
  • >30dB isolation
  • 30ns switching speed

Additional information:

  • Control voltages: 0V/-40V
  • 4x4mm QFN package
  • Ideal for radar & communications
750W, 1.2-1.4GHz, GaN on SiC RF Transistor
QPD1028 Features
  • Bias voltage: 65V
  • Efficiency: 67-70% at Psat
  • Ideal for military & civilian L-Band radar


Additional information:

  • Gain: 17-18dB at Psat
  • NI-780 package 
  • Psat: 794W
L1/L2 Low Loss GPS SAW Diplexer
QPQ1063 Features
  • TC-SAW diplexer
  • 2x21MHz bandwidth
  • Ideal for defense & GPS communications


Additional information:

  • High rejection, high isolation
  • 5x5mm SMP package 
  • Low insertion loss
How Does Ultra-Wideband Work?
Imagine being able to design your application with pinpoint accuracy - down to a few centimeters. Meet the next generation of location-based technology and the exciting applications it's enabling.

Read the blog and refer to the recently developed Ultra-Wideband for Dummies book for a quick UWB guide along with the endless possibilities for mobile, automotive and the Internet of Things.
Achieving an Enhanced eCall Automotive Design
Much of emergency calling (eCall) RF front-end design resides around the antenna, switch, and circuit loss due to either components or matching. This blog post explores these challenges and provides straightforward approaches
to fully optimize your design.

Beyond the Mobile Phone: Designing Wi-Fi FEMs into AR/VR and IIOT
Wi-Fi front-end modules are enabling new and exciting applications beyond traditional mobile devices.

Because of the latest advancements in Wi-Fi technology, there is an explosion of innovative wireless ecosystems like gaming, military, and industrial applications. Here’s what you need to know. Read more.
Power Management ACTIVECiPSTM Modular Power PMICs Brochure
Power efficiency is a critical element in the design of electronic devices for applications ranging from 5G base stations and phased arrays to data centers, cars and the Internet of Things.

Review the latest in Qorvo's industry-leading, configurable, intelligent power management solutions designed to simplify the design process and shorten time to market. Download the Brochure.

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