Products Applications Design Support Company
  • Language 
  • Orders
  • Sign In
  • Radio Frequency
    • Macro Remote Radio Head
    • Active Antenna Systems
    • 5G mmWave
    • WLAN Front-End ICs and Modules
    • RF Aerospace and Defense
    • RF Cooking
    • RF Defrosting
    • RF Industrial, Scientific and Medical
    • RF Mobile Radio
    • RF Amplifiers - Low / Medium Power
    • RF Discrete Components – Low Power
    • Microwave LO Generators
    • Control Circuits
    • Car Radio Tuners
    • Low-Power TX/RX ICs
    • Radar Transceivers
    • RF Mixers
  • RF Amplifiers - Low / Medium Power
    • Low Noise Amplifiers (LNAs)
    • Wideband Amplifiers
    • Medium Power Amplifiers
    • Variable Gain Amplifiers
  • Variable Gain Amplifiers
    • BGA3X31
    • BGA7204
    • BGA7210
    • BGA72XX
    • BGA7350
    • BGA7351
    • BGA735X
    • BGU7078
    • OM7921
    • OM7922
    • OM17024
  • Processors and Microcontrollers
  • Audio and Radio
  • Interfaces
  • Peripherals and Logic
  • Power Management
  • Radio Frequency
    • Macro Remote Radio Head
    • Active Antenna Systems
    • 5G mmWave
    • WLAN Front-End ICs and Modules
    • RF Aerospace and Defense
    • RF Cooking
    • RF Defrosting
    • RF Industrial, Scientific and Medical
    • RF Mobile Radio
    • RF Amplifiers - Low / Medium Power
      • Low Noise Amplifiers (LNAs)
      • Wideband Amplifiers
      • Medium Power Amplifiers
      • Variable Gain Amplifiers
    • RF Discrete Components – Low Power
    • Microwave LO Generators
    • Control Circuits
    • Car Radio Tuners
    • Low-Power TX/RX ICs
    • Radar Transceivers
    • RF Mixers
  • RFID / NFC
  • Security and Authentication
  • Sensors
  • Wireless
  • Application-Specific Products
  • Product Finders
  • Product Information

Variable Gain Amplifiers

  • Facebook
  • Twitter
  • LinkedIn
  • Printer

Variable gain amplifiers (VGAs) adjust audio gain based on control voltage for amplitude modulation, level compression and synthesizers. Our portfolio of digital VGAs includes solutions with high linearity and high output power across a large bandwidth without external matching. They help simplify designs, decrease footprints and offer power savings that can effectively reduce current consumption in TDD systems up to 45%.

  • About NXP
  • Careers
  • Investors
  • Media
  • Contact
  • Subscribe
  • Privacy
  • Terms of Use
  • Terms of Sale
  • Slavery and Human Trafficking Statement
  • Accessibility

©2006-2020 NXP Semiconductors. All rights reserved.