RF Editor is used in both military and commercial applications. Typical examples include modifying captured radar, jammer, and communications signals to create simulated threat scenarios, using custom waveform sequences built in RF Editor as stimulus signals to verify the performance of communications, electronic warfare, and radar systems, evaluating satellite and terrestrial wireless voice and data equipment, and for civilian and military spectrum monitoring.
The software runs on a Windows 7 PC and uses .xiq and .tiq (I&Q) files captured by the company's IQC-2110 RF Capture and Storage System, spectrum and signal analyzers from Agilent Technologies, Rohde & Schwarz, Tektronix, and other manufacturers, or waveform segments created in MATLAB and other third-party scientific programming languages. RF Editor is also integrated with the company’s Spectro-X signal analysis and visualization software. Spectro-X is a comprehensive commercially-available software for simplifying the process of identifying RF or microwave signals amongst thousands of others in signal captures covering broad swaths of spectrum and up to days in length. Together, Spectro-X and RF Editor make it possible to quickly find, identify, analyze, modify, and create complex waveforms and waveform sequences in far less time than with any other tools.
RF Editor lets the user make many types of modifications to a spectrum file and create new ones by moving segments or broader “slices” of spectrum to any location along 10 parallel time domain tracks. Waveforms can also be precisely located in time, repeated, or stretched in duration. Frequency domain editing allows recorded waveforms to be filtered, interpolated, decimated, and shifted in frequency before placement in the time domain. Once the edited waveform segments are in place, a new waveform file is built with a single mouse click and is immediately available for viewing and analysis in Spectro-X.
A powerful feature in RF Editor Version 3.0 is the Advanced Modify window, which allows multiple operations to be performed sequentially and automatically, such as frequency shifting, file decimation, applying