Radio Frequency, Microwave and Antennas
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INTEGRATED’s simulation tools were developed specifically for engineers and scientists who design
radio frequency, high frequency and microwave devices and components.
Integrated’s tools provide solutions to a wide variety of electromagnetic field
models, which can be obtained based on the Method of Moments (MoM) approach for open
region problems and Finite Element Method (FEM) for closed region problems. Designers
can analyze radiation patterns and other radiation characteristics of arbitrarily
shaped linear antennas, microstrip antennas, and dielectric resonator antennas. Horn
antennas and reflector antennas covered by radomes, can be analyzed as well with our
software tools.
For open or closed region problems, designers have waveguide sources available in our
programs.
The generalized hybrid method that combines MoM with Physical Optics, and the Fast
Fourier Transform (FFT) method are also available for handling electrically large problems.
Our software allows estimating the radar cross section of arbitrarily shaped conducting
bodies coated by electrically lossy materials.
The resonance frequencies and field distribution of microwave cavities can be analyzed while
impedance, admittance, and scattering matrices of the high frequency networks can be
calculated over a spectrum of frequencies.
Our team of engineers, responsible for the development of our simulation software, offer our clients
design and technical support throughout.
Download SINGULA brochures:
Radar Cross section of an airplane with the
inducted current on its body
- Passive waveguide components
- Microstrip to waveguide transitions
- MRI RF coils
- Electromagnetic scattering from complex objects
- Microwave circuit components (MMICs, RFICs, LTCC circuits, microwave/millimeterwave circuits, among others)