Signal Generators with Unmatched Purity and Precision

Whether you are working on general-purpose or industry-specific applications such as 5G, automotive, or aerospace and defense, our signal generator platforms enable you to:

  • Meet your test requirements with the widest selection of signal generators-from essential signal generation to traceable, metrology-grade solutions
  • Stimulate your device and system using realistic signals with the highest signal integrity
  • Lower your cost of ownership with long calibration cycles and the most comprehensive solutions for self-maintenance

Find the Signal Source That's Right For You

We offer the widest selection of signal generators from baseband to 110 GHz, with frequency extensions to 1.1 THz. From basic to advanced functionality, each signal generator delivers benchmark performance in its class.

PathWave Signal Generator Software

PathWave Signal Generator software is a flexible suite of signal-creation tools that will reduce time spent on signal simulation. Its performance-optimized reference signals, validated by Keysight, enhance the characterization and verification of your devices.

  • Create performance-optimized reference signals
  • Validate component, transmitter, and receiver testing
  • Ensure designs meet the latest standards
  • Speed signal creation and reduce simulation time
Pathwave signal generation software for vector signal generator
Make a difference with a reliable signal source, waveform signals with binary

Eliminate Uncertainties From Your Test Results with a Reliable Signal Source

In the race to get to market faster, you need test results you can trust. Selecting the right, reliable instrument for the job can make a difference.

A Keysight test expert describes the fundamentals of signal generators in the white paper, below. It will help you make an informed choice when selecting your next RF source.

Related use cases

How to Test a Digital Wideband Transceiver

How to Test a Digital Wideband Transceiver

Testing digital wideband transceivers requires a hybrid solution combining a signal generator and a network analyzer. Learn how to perform digital RF stimulus response tests while achieving digital-integrated RF front-end characterization.
How to Generate an RF Carrier Signal

How to Generate an RF Carrier Signal

Generating an RF carrier signal requires an RF signal generator that provides frequency stability and low phase noise and is free of other spurious noises. Learn how to set up an RF signal generator for a carrier signal and optimize the noise settings.
How to Test for HDMI Physical Layer Sink Compliance

How to Test for HDMI Physical Layer Sink Compliance

Testing HDMI sink compliance requires a source capable of generating a wide range of test patterns. Learn how to use an arbitrary waveform generator and automated test software to automate HDMI sink compliance test.
How to Test IoT Regulatory Compliance

How to Test IoT Regulatory Compliance

Validating the regulatory compliance of wireless IoT devices requires running various tests from standards bodies, including ETSI and FCC. Learn how to quickly and efficiently use automation to perform these tests, such as dynamic frequency selection (DFS), ETSI adaptivity, and FCC contention-based protocol (CBP).
How to De-embed Fixtures and Correct Mismatch Errors

How to De-embed Fixtures and Correct Mismatch Errors

Minimizing the uncertainty in your measurement setup requires delivering predictable and repeatable signals to your device under test (DUT). Learn how to easily de-embed and match correct test fixtures with a signal generator and an embedded reflectometer.
How to Test an RF Power Amplifier with Digital Pre-Distortion

How to Test an RF Power Amplifier with Digital Pre-Distortion

Testing an RF power amplifier using digital pre-distortion (DPD) requires a vector signal generator, signal analyzer, and automated DPD software. Learn how to compensate for the non-linear behavior of a power amplifier by generating a digitally pre-distorted input signal.

Featured Resources

Alle Ressourcen anzeigen

Alle Ressourcen anzeigen

Frequently Asked Questions – Signal Generators

Engineers use a signal generator to create repeated waveforms to design, test, and manufacture systems and individual components. A signal generator is a generic term for a wider family of instruments. Other common names are signal sources, sources, and sig gens.

Learn about signal generator specifications in our blog Learn the Basics of Signal Generator Accuracy

There are various types of signal generators:

  • Analog Signal Generator
  • Vector Signal Generator
  • Arbitrary Waveform Generator
  • Radio Frequency (RF) Signal Generator
  • Function Generator
  • Pulse Generator
  • Digital Pattern Generator

RF signal generators create the waveforms needed for testing applications that use radio frequencies. One type of RF signal generator is an analog signal generator (ASG), that creates amplitude modulated (AM), frequency modulated (FM), phase modulation, and pulse modulation signals. As signal modulation becomes more complex, you need a vector signal generator (VSG) to create intricate digital signals. Popular modulation formats for vector signal generators are quadrature phase shift keying (QPSK), quadrature amplitude modulation (QAM), and binary phase shift keying (BPSK).

Signal generators are great instruments to use for evaluating applications that rely on radio frequencies to operate. Some examples in use daily are Global Navigation Satellite Systems (GNSS), 5G, avionics, and radar. They also give the flexibility of testing for real-world impairments and receiver fading.

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