Here is the full list of examples published on our website.
- Three phase cable

QuickField Support team
High frequency (400 Hz) three phase cable leakage current calculation
Cable leakage current,underground cable simulation,3 phase cable,three phase cable
Model class: Plane-parallel
Analysis type: AC conduction
Application: electrical engineering
- Prepulse switch
Raymond J. Allen, Plasma Physics Division, Naval Research Laboratory
Pre-pulse switch consists of two groups of electrodes (grounded and high-voltage) separated by a shielding disk, enclosed in the metal body.
Gamble water switch electrodes
Model class: 3D Import
Analysis type: Electrostatics
Application: electrical engineering
- Relay dynamics simulation using Perl and QuickField Object Model

QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with Perl,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Perl and Parametric Object Interface


QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Python,solenoid,parametric,force
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Microsoft Excel and QuickField API

QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element Analysis with Excel,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using MATLAB and ActiveField (QuickField Object Model)

QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with Matlab,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Libre Office (Open Office) and Parametric Object Interface


QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA finite element analysis with Libre Office Open Office,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Quadrupole charge
QuickField Support team
Charges are placed in the vertices of the 1 m x 1 m square.
Coulombs law,electrostatic force calculation,quadrupole charges electric field
Model class: 3D Extrusion
Analysis type: Electrostatics
Application: electrical engineering
- Power busses in the air above the steel plate

Dariusz Czerwinski Dept. of Fundamental electrical engineering Lublin technical university
Finding the magnetic field distribution near the power busses
power line magnetic field distribution
Model class: Plane-parallel
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using GNU Octave and ActiveField (QuickField Object Model)

QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with GNU Octave,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Permanent magnet gear wheels

QuickField Support team
Determine the static torque as a function of magnetic wheels position.
permanent magnet actuator simulation,permanent magnet force,permanent magnet torque,magnetic clutch
Model class: Plane-parallel
Analysis type: DC magnetics
Application: electrical engineering
- Magnetic forces between two axially magnetized cylinders. Case 3: Cylinder axes are orthogonal.
QuickField Support team
Calculate the magnetic force between cylinders.
magnetic forces,magnetic attraction and repelling,,magnetized cylinder interaction
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- AC Currents in the live tissue with one needle electrode

Professor Bertill Persson
QuickField modelling of electro-pulse-therapy. Two needle AC Electric model.
electro-pulse chemotherapy,cancer treatment simulation,electric field in tissue,electric currents in tissue,permeabilization,needle electrodes electric field strength
Model class: Plane-parallel
Analysis type: DC conduction
Application: electrical engineering
- Linear electric motor

QuickField Support team
Calculate propulsion force acting on the rail
electric machine,linear induction motor,periodic boundary condition,linear ac motor
Model class: Plane-parallel
Analysis type: AC magnetics
Application: electrical engineering
- Periodic Boundary Condition

QuickField Support team
Demonstration of the effect of applying periodic boundary condition
magnetic FEA periodic boundary condition
Model class: Plane-parallel
Analysis type: DC magnetics
Application: electrical engineering
- PCB via capacitance
QuickField Support team.
Calculate the printed circuit board via capacitance
pcb via capacitance,printed circuit board via capacitance
Model class: 3D Extrusion
Analysis type: Electrostatics
Application: electrical engineering
- PCB microstrip line equivalent circuit
QuickField Support team
Printed circuit board microstrip dielectric tangent delta losses calculated using effective dielectric conductivity
microstrip equivalent circuit,printed circuit board parameters,signal propagation time diagram
Model class: Plane-parallel
Analysis type: Transient magnetic
Application: electrical engineering
- Relay dynamics simulation using PHP and QuickField Object Model

QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element Analysis with PHP,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Python and Parametric Object Interface


QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with Python,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Microphone PCB thermal analysis
QuickField Support team
Calculation of the PCB temperature. This is an example problem analysis performed with QuickField software
printed circuit board temperature
Model class: 3D Import
Analysis type: Steady-state Heat Transfer
Application: electrical engineering
- Rogowski electrodes

QuickField Support team
Rogowski electrodes have specially designed smooth shape to minimize the electric field on their ends.
Rogowski electrodes electric field stress
Model class: Axisymmetric
Analysis type: Electrostatics
Application: electrical engineering
- Slot conductor

QuickField Support team
Determination of the temperature field in the slot of electric machine
temperature distribution in electric machine slot,heat transfer FEA for slot of electric machine,electric machine heating analysis
Model class: Plane-parallel
Analysis type: Steady-state Heat Transfer
Application: electrical engineering
- Signal cable
QuickField Support team
Power and signal cable are buried in a common duct. Calculate the electric field distribution and find the mutual capacitance.
signal cable capacitance,power cable emc,electro-magnetic compatibility
Model class: Plane-parallel
Analysis type: Electrostatics
Application: electrical engineering
- Shallow foundation
QuickField Support team
Calculation of the shallow foundation thermal conductance
heat losses through building foundation,building foundation thermal insulation,building foundation thermal conductance
Model class: Plane-parallel
Analysis type: Steady-state heat transfer
Application: thermal engineering
- Gas-insulated high-voltage conductor

QuickField Support team
Connection of two shielded gas-insulated 100 kV lines.
gas insulated busbar elbow, high-voltage sf6 gas insulated busbars,busbars GIL
Model class: 3D Extrusion
Analysis type: Electrostatics
Application: electrical engineering
- Scott transformer
QuickField Support team
Transformer consists of 2 single phase transformers connected in a special way. The unit allows to convert 3-phase voltage to two single-phase voltages.
Scott T transformer FEA simulation
Model class: Plane-parallel
Analysis type: AC magnetics
Application: electrical engineering
- Salient pole mechanical stress

QuickField Support team
Salient pole of turbine generator is subject to centrifugal force loading.
salient pole mechanical stress,salient pole deformation
Model class: Plane-parallel
Analysis type: Stress Analysis
Application: mechanical engineering
- Safety fuse

QuickField Support team
Determination of the operating time of the fuse after a short-circuit
safety fuse heat transfer FEA analysis
Model class: Plane-parallel
Analysis type: Transient Heat Transfer
Application: electrical engineering
- Attraction of the ring magnet to the steel plate
QuickField Support team
Ring magnet is pulled toward the ferromagnetic plate. Calculate the pulling force between the magnet and a steel plate.
magnetic force calculation,ring magnet FEA analysis
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Python and QuickField Object Model


QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with Python,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Rim anodizing
QuickField Support team
Calculation of current distribution in the anodizing tank
Current distribution analysis of the rim anodizing process
Model class: 3D Import
Analysis type: DC conduction
Application: electrical engineering
- RG 220 coaxial cable insulation

Richard Ness
Determine the electric field stress distribution in the cable insulation.
coaxial cable insulation electric stress
Model class: Plane-parallel
Analysis type: Electrostatics
Application: electrical engineering
- Relay dynamics simulation using Windows PowerShell and QuickField Object Model

QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with Windows PowerShell,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Microsoft VBScript and Parametric Object Interface


QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with VBScript,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Tcl and QuickField Object Model

QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with Tcl,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering
- Relay dynamics simulation using Tcl/Tk and Parametric command line


QuickField Support team
The electromagnetic and spring forces act on the plunger. Both forces depend on the plunger position. Calculate plunger motion function
Parametric FEA Finite Element analysis with Tcl/Tk,relay dynamics simulation
Model class: Axisymmetric
Analysis type: DC magnetics
Application: electrical engineering