RadiaSim

• RadiaSim - for EMI calculations of PCBs and cable harness systems
• Why is RadiaSim so valuable to you?
• Typical applications
• Supported platforms

RadiaSim - for EMI calculations of PCBs and cable harness systems

RadiaSim gives you fast and accurate results together with either PCBMod or CableMod.

RadiaSim offers the user with powerful and flexible solutions for analyzing various kinds of radiation effects from PCBs and cable systems.

Why is RadiaSim so valuable to you?

• Easy to use
• Push-button data transfer between RadiaSim and PCBMod or CableMod
• Near field and far field analyses for electromagnetic emission
• Definition of single probe points or 2D / 3D probe objects
• Comprehensive presentation of calculation results
• Static H-field and dynamic H-field and E-field calculation
• Library management for probe objects

RadiaSim is an easy-to-use tool for studying several phenomena of electromagnetic radiation and of improving design rules for various development stages.

You can obtain fast results from DC up to several GHz in frequency domain. It saves time and money by allowing you to start already at “virtual prototypes“ or earlier to find answers to radiation issues of your PCB designs or cable harness structures.

Typical applications

• Investigation of the influence of arbitrarily shaped copper areas on the emission characteristics of printed circuit boards
• Optimization of coils on a PCB implemented as copper structures
• Impact of resonance frequencies from the power planes and ground planes on the far field radiation effects
• Optimization of cable laying in an enclosure, as e.g. a car chassis
• Support of selection process whether to use ribbon cables or twisted pairs in a device with respect to their EMI behaviour
• Qualifying measures to reduce radiation from signal traces or wires

Supported platforms

Intel compatible PC

• Microsoft Windows (2000, XP)
• Linux (Red Hat RHEL 4, SuSE 9.2, or higher)

UNIX workstation

• HP 700 (HP-UX 11i, or higher)
• Sun Sparc (Solaris 8, or higher)