SINGULA
Scattering pattern
SINGULA is an easy-to-use 3D full-wave electromagnetic simulator based on CFIE
(combined-field integral equation). SINGULA uses the Method of Moments (MoM)
(or Boundary Element Method) coupled with Physical Optics and is ideal for high frequency
applications like:
- Antennas
- EMC/EMI
- Microstrip power dividers and filters
- Power bus structures
- Waveguide filters and transitions
- Scattering from dielectric bodies
- Conductors
SINGULA calculates near and far field results, power and directive gain, radar cross-section,
axial ratio, and input impedance, admittance and scattering parameters.
Our powerful parametric solvers allow designers to automatically vary and experiment with geometry, materials and
sources – reducing the tedious, repetitive task of fine–tuning multiple design parameters.
Request your SINGULA evaluation
- Physical Optics hybridized into MoM to solve problems such as large antenna dishes that
plain MoM or FEM cannot handle
- Sources include: Incident plane wave, delta voltage, line voltage, waveguide, and magnetic frill
- A wide range of graphs & plots (near field, far field, rectangular, Smith Charts, radiation
patterns) can be created based on parameters such as H, B, E, D, J, Z, S, Y
- Display rectangular plots of current, fields and input impedance. Display polar plots of power
gain, contours of currents and fields. Display 3D surface plots of radiation patterns and
display Smith charts of s-parameters
Electric field distribution in a
birdcage coil
Watch Singula video
Ask for a live, interactive Internet demonstration of SINGULA
SINGULA reduces design time and costs while improving product performance by letting you
design via computer simulations thereby reducing costs and risks associated with physical prototyping.
Easy-to-learn, SINGULA lets you focus on product development, not software training.
Download SINGULA Product Sheet
Paraboloid with radome Electric far field
