APPLICATIONS
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- Actuators
- Coil Design
- Electromagnetic Brakes & Clutches
- Inductors
- Levitators
- MRI
- Motors
- Alternators and Generators
- Electromagnetic Brakes and Clutches
- Sensors
- Loudspeakers
- Magnetic Encoding
- Relays and Contactors
- Solenoids
- Shielding
- Electromagnets
- Magnetic Bearings
- Magnetic Signatures
- Magnetic Fixtures
- Magnets
- Non Destructive Testing
- Particles
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- Antenna Radiation Characteristics
- Simulation of an Airplane
- EM Simulation of a Desktop
- EM Compatability and EM Interference
- Cable Junctions and Terminations
- Filters
- Lightning Strikes
- Microwave Circuits
- Microwave Ovens
- MRI
- Near Field Analysis
- Radar Cross Sections
- Radio Frequency Cavities
- Reflector Antennas
- Sensors
- Ultra Wideband Antennas
- Waveguides
- Antennas
Microwave Oven
Microwave ovens of arbitrary shapes excited by coaxial or rectangular or circular waveguides can be analyzed by SINGULA™. Field distribution, resonance frequency, and bandwidth of the microwave ovens can be estimated accurately. The effect of the presence of a lossy dielectric material or a conducting material with finite conductivity in side the oven, on the field distribution, resonance frequency, and the bandwidth can be calculated. Power dissipated in the lossy dielectric material and in the finite conducting material can be obtained.
