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Main >> Applications >> Sample problems

ZnO lighting arrester - QuickField simulation example

This is an example of the ZnO arrester simulation, performed with QuickField software. The arrester consists of ZnO tablet placed inside ceramic tube. Electrodes are connected to the end tablets.

Engineering question

How to find surge current through ZnO lightning arrester?

Answer
Set up an axisymmetric QuickField Transient Electric problem for a ZnO lightning arrester and evaluate surge current from computed field results.

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Typical applications
ZnO surge arresters, lightning protection devices, metal-oxide varistors

ZnO lighting arrester

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Simulation problem

Problem Type
Axisymmetric problem of transient electric.

Geometry
ZnO lighting arrester The arrester consists of ZnO tablet placed inside ceramic tube. Electrodes are connected to the end tablets Insulator ZnO Ground HV Ø 76 mm 200 mm

Given
Nominal voltage U0 = 35 kV. Surge waveform is defined by IEC 61000-4-5*.
Relative permittivity of the ceramic insulator ε = 3.
Relative permittivity of ZnO element ε = 60, conductivity of ZnO element is a nonlinear function of electric field stress:

Task
Calculate the varistor current.

Solution
We specify the voltage as a sum of two components: nominal voltage and the surge pulse. The surge pulse is defined by the double exponential equation*.
35000 + 165000 * (exp(-t/68.2e-6) - exp(-t/0.4e-6))

Results
At nominal voltage the conductivity current is negligible. At overvoltage the resistance value diminishes and conductivity current increases.

Voltage Current
35 kV 0.74 mA
194 kV 407 A

Surge impulse passing through the arrester

*Reference: IEC 61000-4-5

Video

  • ZnO lighting arrester

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