Electromagnetic Simulation

Top five advantages for designers

What is Electromagnetic Simulation?

Top five advantages of Electromagnetic Simulation for designers

Electromagnetic simulation is a computational technique that analyses the behaviour of electromagnetic fields in components and systems. It helps engineers identify interactions, potential interference, and optimize designs using specialized software.

1. Predict Interference, Compatibility & SAR:

EMAG Simulation software can evaluate electromagnetic interference, compatibility, and specific absorption rates (SAR) in product designs that involve electromechanical systems, such as consumer electronics, medical devices, and industrial machinery.

2. Analyse High-Powered Magnetic Products:

Products such as MRI machines and sensors often feature high-powered magnetic applications that require safety analysis before they can be marketed.

3. Perform Complex PCB Analysis:

High-performance EMAG simulation can forecast the behaviour of complex printed circuit boards (PCBs) to ensure power and signal integrity.

4. Simulate from DC to THz:

Advanced EMAG simulation software, such as SIMULIA CST, can analyse the entire electromagnetic spectrum from DC to THz frequencies, facilitating the testing and comparison of various behaviours.

5. Reduce Prototypes & Prevent Failures:

EMAG Simulation can be more cost-effective for certain product designs as it speeds up analysis and design optimisation, uncovers behaviours that may not be evident in physical testing, and predicts potential failures early in the design process.

Industry applications

Aerospace and Defense

  • Installed Antenna Performance
  • Lightning Strike and environmental electromagnetic effects (E3)
  • Radar
  • Co-site interference

Construction, Cities, and Territories

  • Building shielding
  • Cabling
  • Lightning protection
  • Indoor communication

Energy and Materials

  • High-voltage components
  • Generators and motors
  • Solar panel optimisation
  • Transformers Industrial Equipment
  • RFID
  • Non-destructive testing (NDT)
  • Motors and actuators
  • Welding and lithography
  • Specific absorption rate (SAR)

Life Sciences

  • MRI
  • Specific absorption rate (SAR)
  • Implant safety
  • Wearable devices
  • RF diathermy
  • X-ray tubes

High Tech

  • Antenna performance
  • Microwave and RF components
  • Electromagnetic compatability
  • Signal and power integrity (SI/PI)
  • Touchscreens
  • Cables and connectors
  • Specific absorption rate (SAR) exposure

Transportation and Mobility

  • Antenna installed performance
  • Electromagnetic compatibility (EMC) including harnesses
  • Automotive radar
  • Electric motors
  • Wireless charging
  • Onboard electronics
  • Sensors

What's next?

Want to use Electromagnetic Simulation in designing but struggling where to get started? We're here to help.

With years of experience in helping companies in various stages of design validation, we can help you with any questions that you may have.

Just fill the Enquire Now form to get a complimentary call from one of our experts.