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

**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**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 crossover***QuickField Support team*

Crossovers in the digital circuit design cause parasitic capacitance, resulting in high frequency cross talk.*pcb traces capacitance,pcb crossover capacitance,pcb microstrip simulation*

**Model class**: 3D Extrusion**Analysis type**: Electrostatics**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**PCB microstrip dielectric losses***QuickField Support team*

Printed circuit board microstrip dielectric tangent delta losses calculated using effective dielectric conductivity*microstrip dielectric loss tangent,microstrip dielectric effective conductivity*

**Model class**: Plane-parallel**Analysis type**: AC conduction**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**PCB microstrip resistive losses***QuickField Support team*

Determine resistive losses in the trace and AC resistance.*printed circuit board microstrip losses*

**Model class**: Plane-parallel**Analysis type**: AC magnetics**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**Transmission line attenuation constant***Elena Bozhevolnaya Development Department, LK 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'*

**Model class**: Plane-parallel**Analysis type**: AC magnetics,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**Thermal control***QuickField Support team*

Two bars are firmly attached opposite each other so that there is a small gap between them. At the particular temperature bars come into contact.*bimetallic thermal control,thermo-structural analysis,thermal expansion,bimetallic strip temperature sensor*

**Model class**: Axisymmetric**Analysis type**: Stress Analysis**Application**: mechanical engineering