Main >> Applications >> Sample problems >> Examples gallery

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

**3-phase transmission line with grounding***QuickField Support team*

Simulation of the 3-phase transmission line with grounding*Transmission line grounding,power transmission line simulation,3 phase transmission line,three phase transmission line*

**Model class**: Plane-parallel**Analysis type**: AC magnetics,Electric circuit**Application**: electrical engineering**Transmission line attenuation constant***Elena Bozhevolnaya Development Department, Lauritz Knudsen a/s, Denmark*

Calculation of the attenuation constant of the shielded microstrip-like transmission line on the basis of the electrostatic and time-frequency analysis*microstrip transmission line inductance,microstrip transmission line capacitance,attenuation constant calculation,pcb transmission line impedance*

**Model class**: Plane-parallel**Analysis type**: AC magnetics,Electrostatics**Application**: electrical engineering**Transmission line magnetic coupling***QuickField Support team*

Two three phase transmission lines go side by side for 10 km. Left transmission line is energized by three phase currents system. Find the induced voltages in the right transmission line*power transmission lines crosstalk,power transmission line feeder,electromagnetic compatibility (EMC)*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**Application**: electrical engineering**Transmission line electric coupling***QuickField Support team*

Two three phase transmission lines go side by side for 10 km. Left transmission line is energized by three phase currents system. Find the induced voltages in the right transmission line*power transmission lines crosstalk,power transmission line feeder,electromagnetic compatibility (EMC)*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**Application**: electrical engineering**Transmission line capacitance***QuickField Support team*

Finding the mutual capacitance between two parallel wires and comparison with analytical solution*transmission line capacitance,two wire transmission line electric field,transmission line FEA finite element analysis*

**Model class**: Plane-parallel**Analysis type**: Electrostatics**Application**: electrical engineering**Transmission line EMC***QuickField Support team*

Two three phase transmission lines go side by side for 10 km. Left transmission line is energized by three phase currents system. Find the induced voltages in the right transmission line*power transmission lines crosstalk,power transmission line feeder,electromagnetic compatibility (EMC)*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**Application**: electrical engineering**Transient eddy currents in a two-wire line***QuickField Support team*

Calculation of the transient currents within the conductors*transmission line electromagnetic field simulation,eddy current FEA finite element analysis*

**Model class**: Plane-parallel**Analysis type**: Transient magnetics**Application**: electrical engineering**Single-wire earth return***QuickField Support team*

A single wire distribution network consists of a single insulated wire. Earth is used as a return conductor.*single-wire earth return transmission line,swer transmission line,electric power transmission*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**Application**: electrical engineering**Fiber-optic cable and electric transmission line***QuickField Support team*

Calculation of the most favorable fiber-optic cable position on the transmission line tower*transmission line optical cable,electric field stress,fiber-optic cable*

**Model class**: Plane-parallel**Analysis type**: AC conduction**Application**: electrical engineering**Microstrip self impedance***QuickField Support team*

Determination of the capacitance of the microstrip transmission line*printed circuit board microstrip transmission line even mode*

**Model class**: Plane-parallel**Analysis type**: Electrostatics,AC magnetics**Application**: electrical engineering**Symmetric double line of conductors***QuickField Support team*

Calculation of the power losses in the conductors of the transmission line*transmission line losses,transmission line impedance,symmetric double line*

**Model class**: Plane-parallel**Analysis type**: AC magnetics,Electric circuit**Application**: electrical engineering**Microstrip differential impedance***QuickField Support team*

To calculate the differential impedance we should find the differential capacitance and the differential inductance*printed circuit board microstrip transmission line odd mode*

**Model class**: Plane-parallel**Analysis type**: Electrostatics,AC magnetics**Application**: electrical engineering**Microstrip transmission line***QuickField Support team*

Determination of the capacitance of the microstrip transmission line*microstrip transmission line capacitance*

**Model class**: Plane-parallel**Analysis type**: Electrostatics**Application**: electrical engineering**Line-to-line short circuit***QuickField Support team*

Determination of the transient currents and electromagnetic forces after a short circuit occurred*transmission line FEA simulation,short circuit current magnetic field*

**Model class**: Plane-parallel**Analysis type**: Transient magnetics,Electric circuit**Application**: electrical engineering**Disc insulator leakage current***QuickField Support team*

Calculate thermal effect of the leakage currents in the insulator*power transmission line insulator,hv insulator heating,multiphysics analysis*

**Model class**: Axisymmetric**Analysis type**: AC conduction,Stady-state Heat transfer,Multyphysics**Application**: electrical engineering**Symmetric double line of conductors***QuickField Support team*

Determination of the current distribution within the conductors and the coating, complex impedance of the line, and power losses in the coating*transmission line current distribution,transmission line impedance,transmission line losses*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**Application**: electrical engineering**High frequency line trap***QuickField Support team*

An example of the calculation of the forces and mechanical stresses for the high-frequency line trap at the short circuit current.*air core coil,wave trap,transmission line filter,multiphysics analysis*

**Model class**: Axisymmetric**Analysis type**: AC magnetics,Stress Analysis,Multiphysics**Application**: electrical engineering**Two conductors transmission line***QuickField Support team*

Determination of the self and mutual capacitance of conductors*microstrip capacitance calculation,transmission line analysis,mutual capacitance calculation*

**Model class**: Plane-parallel**Analysis type**: Electrostatics**Application**: electrical engineering**Microstrip transmission line***QuickField Support team*

Calculation of the capacitance of the transmission line*microstrip capacitance calculation,transmission line analysis*

**Model class**: Plane-parallel**Analysis type**: Electrostatics**Application**: electrical engineering**Transmission line transposition***QuickField Support team*

The 110 kV transmission line features complete transposition cycle at length of 120 kilometers. Define transmission line phase inductance.*transmission line impedance calculation,wires transposition,electromagnetic FEA finite element analysis of the transmission line*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**Application**: electrical engineering