Dielectric Breakdown Test | Predictions & Simulations | Remcom

Skip to content

1-888-7REMCOM

Support Site

- - XFdtd | 3D EM Simulation Software
  - - Overview
      
      Provides engineers with powerful tools to shorten development time and release products to market sooner.
      View Product Request Demo
- - Wireless InSite | 3D Wireless Prediction Software
  - - Overview
      
      A suite of RF propagation models, providing 3D ray-tracing, fast ray-based methods, and empirical models for the analysis of site-specific radio wave propagation and wireless communication systems.
      View Product Request Demo
- - WaveFarer | Radar Simulation Software
  - - - Automotive Radar
      - Radar and Scattering
    - Overview
      
      A high fidelity radar simulator that accounts for multipath and scattering from structures and vehicles in the immediate environment of a radar system as well as key atmospheric and scattering effects for frequencies up to and beyond 100 GHz.
      View Product Request Demo
- - XGtd | Ray-based EM Analysis Tool
  - - Overview
      
      A ray-based electromagnetic analysis tool for assessing the effects of a vehicle or vessel on antenna radiation, predicting coupling between antennas, and predicting radar cross section (RCS).
      View Product Request Demo
- - Consulting
  - - - Commercial Consulting
      - Government Contracting
    - EM modeling experts, software developers, and high-end computational resources to meet your most challenging EM simulation analysis needs.
      Consulting Overview
- - Support
  - - - Support as a Service
      - Request Support
    - Extraordinary support that goes beyond the helpdesk to create a lasting partnership with your team.
      Support Overview Visit Support Site
- Request Pricing
- See All Products & Solutions
- Overview
  
  Remcom’s EM analysis products are used in Consumer Electronics, Automtive and Defense markets.
  Applications Overview
- Remcom's antenna simulation software provides engineers with powerful tools to shorten development time and release products to market sooner.
  See Antenna Design Features
- Methods
  
  Explore the core numerical methods utilized in Remcom’s software products. Remcom’s EM analysis products are used for a wide range of applications, requiring a variety of numerical methods to cover all of your EM challenges, from the simple to the technically complex.
  Methods Overview
- Ray-tracing methods use discrete rays to represent advancing wavefronts as they propagate from a transmitter through a scene.
  See Ray-Tracing Methods
- Resource Library
  
  Explore the library to learn how our products can simplify your EM analysis projects today.
  Explore Remcom’s Resources
- Subscribe and be the first to know about new product announcements, upcoming events, and more.
  Subscribe to our Newsletter
Contact

1-888-7REMCOM

Support Site

Dielectric Strength

Dielectric strength is defined as the maximum electric field a material can withstand without losing its insulating properties and can be defined for electric materials using XF’s material editor. Materials are assigned a dielectric strength of infinity by default and will not be monitored for dielectric breakdown during an FDTD simulation. Entering a finite dielectric strength in V/m allows XF to monitor transient field values encountered by the material during time-stepping and check for potential dielectric breakdown.

Dielectric Breakdown Sensor

To monitor the FDTD domain for dielectric breakdown, a near field dielectric breakdown sensor can be created. The bounds of this sensor may be defined to encompass the entire simulation domain, the bounding box of the geometry, or to any sub-volume desired by the user. The freespace dielectric strength defines the dielectric strength for all freespace cell edges in the simulation domain and is assigned a default value of 3.0 MV/m corresponding to the dielectric strength of air at sea level.

Dielectric Breakdown Ratio

FDTD cell edges which exceeded their dielectric strength during a simulation can be examined by choosing the dielectric breakdown sensor and dielectric breakdown ratio result type from XF’s results browser. The dielectric breakdown ratio of a cell edge is defined as the maximum electric field encountered during the simulation divided by the cell edge’s dielectric strength. The moment in time that a cell edge exceeded its dielectric strength can be determined and the cell with the highest dielectric breakdown ratio can easily be located using a convenient “zoom to maximum” button.

Request support

Schedule live demo