RE Analyst™ builds on the extensive features of CE Analyst™ to provide users with cost-effective, accurate radiated emissions predictions for a wide range of circuits and systems.
RE Analyst™ uses the output from CE Analyst™ as its input to calculate electric fields radiated from conductors between electric circuits.
General
Easy to learn – You don't have to be an EMI expert. Bridges the gap between circuit design and electromagnetics.
Easy to use – Models system using physical and electrical parameters readily available to the circuit designer.
Powerful – Method-of-moments algorithm accurately calculates field strength.
Accounts for parasitic elements, resonant effects, and ground plane reflections to accurately predict conducted emissions as they will be measured in the EMI laboratory.
Universal
CE Analyst™ supports radiatd emissions requirements from all industries and all regulatory agencies worldwide, including:
All RE limits, all agencies and custom limits. User definable and fully customizable.
Up to 1000 frequency/amplitude waypoints
1 Hz to 100 GHz
Amps, Volts, dBuA, dBuV, and custom unit
Amplitudes from 1E-12 to 1E+12
RE Noise Sources
Model the EMI characteristics of voltage and current waveforms used in your electrical and electronic circuits. Define nearly any waveform using the eight built-in waveform templates. CE Analyst™ calculates the frequency spectrum, both differential mode and common mode.
Gated sinusoid
Trapezoid
Double exponential
Damped sinusoid
Inductive switching transient
Pulse-modulated sine
Ringing trapezoid
Piece-wise linear waveform
EMI Filters
Accurately synthesize EMI filtering using the built-in schematic capture program. Choose from ideal and realistic components and fully customize to model the characteristics of components and packaging.
Resistors, inductors, capacitors, ferrite beads
Coupled inductors, differential mode and common mode
LISNs, feed-through capacitors, standard terminations
Wired and printed circuit interconnects
Conductors
Account for loading, coupling, mismatch, and resonant effects of cabling using eight fully configurable conductor configurations. Select length, wire gauge, separation, ground plane, and shield dimensions to match your system interconnects.
Unshielded wire pair
Unshielded wire over ground plane
Shielded single wire
Unshielded wire triple
Unshielded wire pair over ground plane
Shielded single wire over ground plane
Shielded wire pair
Shield wire pair over ground plane
Cable Shields
Calculates shield transfer impedance, the true figure of merit for cable shielding effectiveness, using shield physical parameters, such as:
Number of Strands
Strand Diameters or Wall Thickness
Weave Angle
Strand Material
Optical Coverage
Solid wall and woven wire braid cable shields.
Shield Terminations
Account for shield termination method and its effect on cable shielding effectiveness.
Peripheral Shield Terminations
Wire Pigtail Terminations
Braid Pigtails
Flat Conductor Pigtails
Terminations at one end or both ends
Load Circuits
Take into account the loading and resonant effects of circuitry to which your system is connected by accurately modeling those circuits. Account for the non-linear loading effects of Line Impedance Stabilization Networks required for standardized radiated emissions tests.
Same schematic capture as for EMI Filters described above.
Display Results
View predicted radiated emissions results that look just like measured results.
Graph output, extensively customizable
Limit overlay
Tabular output shows frequency, amplitude, limit, and margin
Self-Teaching Tool
RE Analyst™ is an invaluable tool for understanding the causes of radiated emissions and the most effective methods of mitigation.
Gain insight into causes of radiated emissions
Learn what works and what doesn't work
Study design trade-offs between filtering, shielding, and cable routing
Quickly run test scenarios to find the most effective and most cost-effective methods for meeting radiated emissions requirements
To place an order or for more information about RE Analyst™, please or call us at (310) 371-0133.
