EMIT Features.
EMIT’s unique multi-fidelity approach to predicting cosite interference provides rapid identification and “root-cause” analysis of EMI issues in complex RF environments. A list of features in EMIT is shown below.
- Intuitive user interface for setting up, running and interpreting an EMIT simulation
- Computes separate narrow band and broadband EMI margins for a more complete assessment of interference problems.
- Support for frequency hopping systems (e.g., SINCGARS, HAVEQUICK, etc.).
- Standard 1-on-1 and N-on-1 analysis modes to predict the effects of multiple cosite emitters on selected receivers including transmitter and receiver generated intermod.
- Support for a variety of CAD formats including ACAD Facet, Wavefront OBJ, IGES, WIPL-D, and IDEAS Universal.
- Ability to import measured or simulated antenna far-field radiation patterns.
- Parametric models for common antenna types such as monopoles, dipoles, isotropic, hemitropic, directive beam, loop, etc.
- Multiple built in antenna-to-antenna coupling models.
- Ability to import measured or simulated antenna-to-antenna coupling data including Touchstone, Savant and WIPL-D files formats.
- Library of RF system models. Includes RF models for HAVEQUICK, SINCGARS, Blue Force Tracker, CDL, IFF, GPS, PCS and many other common radios. Also includes models for filters, cables, and other RF components.
- Parametric models for transmitters and receivers allow RF systems to be built using a minimal amount of information. As additional data becomes available it can be used to improve the basic models.
- MIL-STD and statistical based models for transmitter and receiver spurious responses.
- Threat matrix for displaying system-level results in stop light format (Green-Yellow-Red).
- Multi-core support. The user can specify number of cores to use for a computation through the GUI.