Qorvo New Products: GaN Amplifier, Discrete Transistors, Front End Modules, and LNA for Defense, 5G Wireless and Wi-Fi 6 Systems

Qorvo New Products: GaN Amplifier, Discrete Transistors, Front End Modules, and LNA for Defense, 5G Wireless and Wi-Fi 6 Systems

Qorvo New Products: GaN Amplifier, Discrete Transistors, Front End Modules, and LNA for Defense, 5G Wireless and Wi-Fi 6 Systems

Announcing the latest additions to Qorvo’s innovative RF portfolio of amplifiers, GaN IMFETs, front end modules, and low noise amplifiers, which serve a wide range of radar, wireless base station, Wi-Fi 6 access points, 5G massive-MIMO, and TDD/FDD applications. These high-performance solutions simplify RF for designers worldwide and are available at Qorvo’s authorized channel partners.

 

2.9-3.5GHz 150W GaN Amplifier

QPA3070 Features

  • Frequency: 2.9-3.5GHz
  • PSAT: 52dBm
  • PAE: 58%
  • Power gain: 28dB
  • 7x7x0.85mm QFN package
  • Ideal for radar systems

Related news:

Qorvo Advances Defense Phased Array Radar Performance and Capabilities with 150W GaN Power Amplifier

Additional information:

QPA3070

 

37-40.5GHz Front End Modules

QPF4005 Dual-Channel FEM Features 

  • Dual-channel RX NF: 4.5dB & 4.2dB
  • RX gain: 18dB
  • TX gain: 23dBm
  • TX power: 33dBm
  • TX EVM at 24dBm POUT: 4%
  • 4.5x6x1.8mm QFN package
  • Ideal for 5G wireless base stations & terminals

 

QPF4006 Single-Channel FEM Features

  • Single-channel RX NF: 4.2dB 
  • RX gain: 18dB
  • TX gain: 23dBm
  • TX power: 33dBm
  • TX EVM at 24dBm POUT: 4%
  • 4.5x4x1.8mm QFN package
  • Ideal for 5G wireless base stations & terminals

Related News:

5 Things to Consider When Designing Fixed Wireless Access (FWA) Systems

Design Ideas and Tradeoffs for 5G Infrastructure

Connecting the World with 5G

 

Additional information:

QPF4005

QPF4006

 

24.25-27.5GHz Front End Module

QPF4010 Features 

  • RX NF: 4dB
  • RX gain: 13.5dB
  • TX gain: 17dBm
  • TX power: 22.5dBm
  • TX EVM at 14dBm POUT: 4%
  • 4x4x0.85mm QFN package
  • Ideal for 5G wireless communications

Related news:

Qorvo Supports US Network Rollouts with Compact 5G Antenna Technology

Additional information:

QPF4010

 

5GHz Wi-Fi 6 Medium Power Front End Module

QPF4550 Features 

  • POUT = +15dBm MCS11 HE160 -43dB dynamic EVM
  • POUT = +24.5dBm MCS0 HT20 spectral mask compliance
  • 2.1dB noise figure
  • 13.5dB Rx gain
  • 8dB bypass loss
  • 2.5×2.5mm laminate package
  • Ideal for Wi-Fi 6 access points

Additional information:

QPF4550

 

450W, 50V, 1.2-1.4GHz GaN RF IMFET

QPD1006 Features 

  • 50 ohm I/O matched
  • Single stage
  • CW and pulse capable
  • Low thermal resistance
  • 18.19×29.24mm AC package
  • Ideal for L-Band radar

Additional information:

QPD1006

 

30W, 28V, 9.2-9.7GHz GaN IMFET

QPD9300 Features 

  • 50 ohm I/O matched
  • Gain: 9dB
  • Bias: 28V
  • Pulse capable
  • 7x7mm EHS AC package
  • Ideal for military & civilian radar

Additional information:

QPD9300

 

0.1-6GHz Ultra-Low Noise LNA

QPL9547 Features 

  • Ultra-low NF: 0.3dB NF at 1.9GHz
  • OIP3: 39dBm
  • Small signal gain: 19.5dB
  • Bias adjustable for linearity optimization
  • 8-pin 2x2mm DFN package
  • Ideal for 5G & TDD/FDD systems

Additional information:

QPL9547

 

Introducing the Virtual Qorvo Design Summit

Designing the next RF device never ceases. Join our Qorvo experts August – September for educational sessions online. Learn how to build better solutions and conquer obstacles across 5G, wireless connectivity, UWB and IoT.

Reserve your spot now.

 

Featured Webinar: GaN Solutions for Radar and Wideband Applications

Qorvo’s Paul Prudhomme, Sr. Product Line Manager for High-Performance Solutions provides technical design insights behind high-performance commercial and military radar systems.

View the Webinar

 

Q&A with Cees Links: What Amazon Common Software Support Means to You

Do you want to design Amazon-compliant devices faster? And with more differentiation? Here, Cees Links talks about Qorvo’s collaboration with Amazon and how it can help you do just that.

Read the Blog Post

Courtesy of Qorvo

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