ZUEKN’s system-level EMC/EMI analysis software EMC-Workbench consists of three modules
EMC-ENGINEER Electromagnetic Compatibility Analysis Module, SI-WORKBENCH Signal Conformance Analysis Module, RADIATION-WORKBENCH Radiation Analysis Module.
The EMC-Engineer electromagnetic compatibility analysis module comprehensively and quickly diagnoses your design:
EMC-Engineer checks the EMC/EMI characteristics of a PCB or system at an early stage of design, and can use this tool for analysis even after the layout phase has just been completed. The reflection, crosstalk, radiation and other problems in the design can be quickly analyzed. More detailed analysis can be realized with the signal consistency analysis tool (SI-Workbench) and the radiation analysis tool (RADIATION-Workbench). Early detection of problematic design areas allows designers to optimize your design efficiently and cost-effectively.
EMC-Engineer includes: maximum overshoot and undershoot in design; determine accurate characteristic impedance; calculation of delay and distortion; virtual trace (wiring) signal consistency and timing analysis; radiation field strength calculation; determine common mode method Voltage distribution; calculation or determination of common-mode radiation caused by parasitic parameters; trace length statistics, device count and device technology statistics, and via statistics, etc.; rule definition environment; a set of design environments with user-defined rules; a set of User-defined result window; comprehensive data management and library management functions; support for IBIS model; support for SPICE model; automatic generation of project documents; SDF (Standard Delay Format) file output, etc.
SI-Workbench Signal Consistency Analysis Module analyzes the impact of signal consistency:
The Signal Conformance Analysis Module SI-Workbench can be used to perform accurate simulation analysis of crosstalk and reflection effects on multilayer PCBs and multi-block PCB systems. An embedded two-dimensional electromagnetic field algorithm is used to calculate the electrical parameters of the transmission line, and the behavior of the device is described by linear characteristics.
SI-Workbench includes: transmission line parameter calculation; fast reflection and crosstalk simulation; output data management and library management functions; support for IBIS models; support for SPICE models; Graphical post-processing; virtual parameter matching mesh join function; PCB topology editor for “What-if” analysis; automatic generation of project documentation.
RADIATION-Workbench Radiation Analysis Module to analyze radiation/radiation effects:
The radiation analysis module REDIATION-Workbench uses a 3D waveform simulator to calculate radiation and emission characteristics based on a 3D transmission line structure. Including: Radiation/radiometric analysis of multilayer PCBs and systems and closed chambers. The model of the device is described by the macromodel.
Allows designers to simulate your designs in a highly realistic manner in a virtual test environment. Simulation results include radiation spectra, near-field and far-field scans, and radiation patterns. The resulting data can be visualized using the 2D view tool and the 3D view tool.
RADIATION-Workbench includes: transmission line parameter calculation; 3D full-wave simulation; radiation spectrum analysis; near and far field analysis; 2D and 3D radiation patterns; comprehensive data management and library management functions; support for IBIS models; support for SPICE models; virtual test environment Simulation; 2D and 3D graphics post-processing; PCB topology editor for “What-if” simulation; automatic project documentation generation.