RS Analyst™ has a comprehensive set of features that provide fast, accurate predictions for a wide range of radiated susceptibility (a.k.a. "radiated immunity") requirements.
RS Analyst™ calculates voltage and current induced in electric circuits when interconnecting conductors and cables are exposed to electromagnetic fields.
General
Easy to learn – RS Analyst™ leads you through the analysis process so you don't have to be an EMI expert
Easy to use – Uses physical and electrical parameters readily available to the circuit designer
Powerful and accurate – Accounts for parasitic elements, resonant effects, and cabling interactions to accurately predict radiated susceptibility levels as they will be produced in the EMI laboratory and in the real world
Universal
RS Analyst™ supports radiated susceptibility requirements from all industries and all regulatory agencies worldwide, including:
All RS limits, all agencies and custom limits. User definable and fully customizable.
Up to 1000 frequency/amplitude waypoints
1 Hz to 100 GHz
Amplitudes from 1E-12 to 1E+12 V/m (Volts per meter)
Continuous, discontinuous, segmented, and fragmented limits
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
Circuits
Take into account the loading and resonant effects of circuitry in your system by accurately modeling the RF characteristics of your circuits. RS Analyst ™ easily accommodates the non-linear loading effects of Line Impedance Stabilization Networks required for standardized RS tests.
Conductors
Models loading, coupling, mismatch, and resonant effects of cabling using eight fully configurable conductor configurations. Select length, wire gauge, separation, ground plane, and shield attributes 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
Display Results
View voltage and current induced in circuits by radiated susceptibility fields.
Examine induced levels for every circuit and filter component
See how high frequency current redistributes due to cabling and circuit parasitics
Observe differential mode and common mode levels on conductors
Evaluate the effectiveness of design changes quickly and easily
Graphic output, extensively customizable
Tabular output shows frequency, amplitude
Self-Teaching Tool
RS Analyst™ is an invaluable tool for understanding the induced effects of radiated susceptibility and the most effective methods of protection.
Gain insight into how fields couple to circuit conductors and cabling
See how RF signals induced on conductors affect your circuits
Learn what works and what doesn't
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 susceptibility requirements
To place an order or for more information about RS Analyst™, please or call us at (310) 371-0133.
