Keysight Signal Studio software is a flexible suite of signal-creation tools that will reduce the time you spend on signal simulation. For radar/EW, Signal Studio’s performance-optimized reference signals validated by Keysight enhance the characterization and verification of your devices and systems. Through its application-specific user-interface you’ll create custom test signals for component, transmitter, and receiver test.
Signal Studio for pulse building’s basic and advanced capabilities allow you to create corrected signals for component and transmitter test. Its user-friendly interface lets you design pulses with modulation, sequence them in pulse repetition intervals, and apply antenna scans and windowing functions. The applications include: Parametric test of components, such as amplifiers, mixers, diplexers, circulators and filters, tests of transmitter leakage into receiver, system tests of analog performance in baseband/IF/RF stages & bench testing of novel radar waveforms.
Signal Studio for pulse building’s capabilities enable you to create corrected signals for receiver test applications including performance verification and functional test of receivers during RF/IF/ baseband integration and system verification, testing of threat identification for radar warning receivers and jammers & bench testing of novel radar waveforms.
Key Features:
- Create Keysight Technologies, Inc. validated and performance optimized reference signals for radar and electronic warfare (EW) test
- Basic options produce corrected wideband pulsed signals for component test
- Advanced options produce pulse width patterns with jitter, pulse repetition interval patterns with jitter and wobbulation, and antenna scans for receiver test
- Create radar signals with 2 GHz of bandwidth from 1 to 44 GHz RF
- Import custom waveforms to simulate clutter, radar cross section, electronic countermeasures, and radar threats from intelligence database
- Use the COM API for test automation
- Accelerate the signal creation process with a user interface based on parameterized and graphical signal configuration and tree-style navigation
