Back to top
ANSYS Q3D Extractor Software ANSYS Q3D Extractor Software ANSYS Q3D Extractor Software ANSYS Q3D Extractor Software

ANSYS Q3D Extractor Software

100000.00 - 150000.00 INR/Piece

Product Details:

X

Price And Quantity

  • 100000.00 - 150000.00 INR/Piece
  • 1 Piece

Trade Information

  • 25 Piece Per Week
  • 1-2 Days
  • All India

Product Description

ANSYS Q3D Extractor Capabilities

ANSYS Q3D Extractor includes several solution types for parasitic extraction of electronic packages, touchscreens and power electronic converters.


3D Quasi-static Field Solver

ANSYS Q3D Extractor contains an advanced quasi-static 3D electromagnetic field solver based on the method of moments (MoM), and is accelerated by the fast multipole method (FMM). Results include proximity and skin effect, dielectric and ohmic loss, and frequency dependencies. Q3D Extractor easily and quickly provides 3D extraction of resistance (R), partial inductance (L), capacitance (C) and conductance (G).



2D Extractor: Cable and Transmission Line Field Solver

ANSYS Q3D Extractor includes a powerful quasi-static 2D electromagnetic field solver that uses the finite element method (FEM) to determine the per-unit-length RLCG parameters for cable models, transmission lines, characteristic impedance (Z0) matrices, propagation speed, delay, attenuation, effective permittivity, differential and common-mode parameters, and near- and far-end crosstalk coefficients.


Features:

  • Circuit simulation
  • Block diagram simulation
  • State machine simulation
  • VHDL-AMS simulation
  • Integrated graphical modeling environment
  • Power electronic device and module characterization
  • Co-simulation with MathWorks Simulink

Model libraries:

  • Analog and power electronics components
  • Control blocks and sensors
  • Mechanical components
  • Hydraulic components
  • Digital and logic blocks
  • Application-specific libraries:

  • Aerospace electrical networks
  • Electric vehicles
  • Power systems
  • Characterized manufacturers components
  • Reduced Order Modeling