ETAP

ETAP is the most comprehensive electrical engineering software solution for the design, simulation, operation, and automation of generation, transmission, distribution, and industrial power systems.ETAP is developed under an established quality assurance program and is used worldwide as a high impact software. ETAP is completely localized in seven languages with translated output reports in eight languages.As a fully integrated enterprise solution, ETAP extends to a Real-Time Power Management

System to monitor, control, automate, simulate, and optimize the operation of power systems. ETAP Base Package is a set of core tools, embedded analysis modules, and engineering libraries that allow you to create, configure, customize, and manage your system model. Core tools allow you to quickly and easily build 3-phase and 1-phase AC and DC network one-line diagrams with unlimited buses and elements including detailed instrumentation and grounding components. Engineering libraries provide complete verified and validated data based on equipment manufacturers’ published data.

singula
singula

Singula

SINGULA, is best choice for applications requiring high frequency electromagnetic analysis. Utilizing our innovative Method of Moments (MOM) technology or the Finite Elements Method (FEM) solver, available in the same software package, SINGULA has been specifically designed to handle complex high frequency electromagnetic problems where conventional programs break down. SINGULA’s advantage is clear when solving for open region problems and where the modeling of boundaries must be precise.

Features:

  • MOM & FEM solvers available in the same package, to give you a greater choice
  • Powerful parametric solvers
  • Easy to use
  • Excellent graphic presentation
  • 3D steady state scattering and radiation solver
  • A wide array of post processing options for design evaluation and verification
  • Industry standard CAD import/export utilities offering time saving convenience for model design and creation.

Working With Singula is as Easy as ONE, TWO, THREE

SINGULA’s advanced technical features

  1. Intuitive and structured tool-bar interface maximizes productivity for experts and beginners.
  2. Highly accurate field calculations based on the Method of Moments (MOM) or Finite Element Method (FEM).
  3. High quality graphics and text utility for preparation of reports and presentations.
  4. Data exportable in formatted files for integration with spreadsheets and other software packages.
  5. Batch function allows unattended solution of multiple models.
  6. Powerful parametric feature allows definition of variable parameters to be stepped through providing analysis of multiple what-if scenarios and facilitating design optimization.
  7. Incident plane wave, line, surface, current & voltage source can be the excitation.
  8. Permeability, permittivity and conductivity data stored in convenient and rapidly accessible tables.
  9. A wide range of H, B, E, D field and current density components.
  10. Scalar and vector field parameters displayed in various forms including contour or arrow plots, color bands, surface representations, polar, rectangular plots and 3D patterns.
  11. Volume and surface current density.
  12. Near and far field results.
  13. Radar cross-section.
  14. Gain, directivity and axial ratio.
  15. Input impedance, admittance and scattering parameters.
  16. Rectangular plots of current, fields and input impedance, polar plots of power gain, contours of currents and fields, 3D surface plots of radiation patterns, Smith chart of S-parameters.
  17. Input power, dielectric and conductivity power loss, radiation power and radiation efficiency.
  18. Industry standard CAD import/export utilities offering time saving convenience for model design and creation.

Use Of Singula Software:

  • Study of Wire antennas (monopole, dipole, yagi, helix, spiral)
  • Study of Surface antennas (planar strip, spiral and reflector)
  • Study of Dielectric antennas on infinite/finite ground planes
  • Study of EMC/EMI interactions
  • Study of Microwave Circuits
  • Study of Microstrip power dividers and filters
  • Study of MRI RF coils
  • Study of Power bus structures
  • Study of Radar Cross Section
  • Study of Waveguide filters and transitions
  • Study of Electromagnetic scattering from dielectric/conducting bodies
  • Study of Conductors
  • Study of Electromagnetic effects on human bodies