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Here is the full list of examples published on our website.

Pages: << **1** 2 3 4 5 . . . 9 >>

**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**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**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**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 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**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**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**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**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**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**Linear electric motor***QuickField Support team*

Obtaining the magnetic field of the linear electric motor*magnetic field,electric machine,motor,linear motor,boundary condition*

**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**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**Relay dynamics simulation using Ruby 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 Ruby,relay dynamics simulation*

**Model class**: Axisymmetric**Analysis type**: DC magnetics**Application**: electrical engineering**PCB temperature***QuickField Support team*

Calculation of the PCB temperature. This is an example problem analysis performed with QuickField software*pcb thermal analysis,printed circuit board temperature*

**Model class**: 3D Extrusion**Analysis type**: Steady-state Heat Transfer**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**Slot of electric machine***QuickField Support team*

Skin effect analysis resistance calculation for the conductor in the slot of electric machine*skin effects eddy currents in the electric machine slot*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**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**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**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**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**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**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

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