Non-contact Voltage Measurement Technique for On-Line Monitoring of Transient Overvoltages

Authors

  • Durga Pawan Mahidhar Gorla KTH-Royal Institute of Technology
  • Patrick Janus KTH-Royal Institute of Technology, Sweden
  • Hans Edin KTH-Royal Institute of Technology, Sweden

DOI:

https://doi.org/10.5324/nordis.v27i1.4876

Abstract

The electric power system is continuously growing in its size, complexity and required reliability. There is an increased risk due to transient overvoltages which can deteriorate the insulation for different power system components. There is a need for monitoring of transient voltages to better monitor the effects due to them on the insulation of the components. It can be achieved using a non-contact voltage measurement technique. The study elucidates the theory and practical application of the non-contact voltage measurements. The measurement of voltage is achieved by utilizing the stray parasitic capacitance between the high voltage conductor and the ground. A metal plate is used as a sensor to detect the voltage, which indirectly acts as a capacitance divider for voltage measurement. The current study uses operational amplifier based differential-integrator circuit topology in order to accurately measure the voltage over a wide bandwidth of 20 Hz - 1 MHz. The measurement technique is used for measurement of three phase voltages and a methodology is proposed for it. The sensor system is also tested in an online test scenario in a substation for monitoring the shunt reactor switching transients.

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Author Biographies

Durga Pawan Mahidhar Gorla, KTH-Royal Institute of Technology

POST DOC

DIVISION OF ELECTROMAGNETIC ENGINEERING

Patrick Janus, KTH-Royal Institute of Technology, Sweden

DOCTORAL STUDENT

DIVISION OF ELECTROMAGNETIC ENGINEERING

Hans Edin, KTH-Royal Institute of Technology, Sweden

PROFESSOR, HEAD OF DEPARTMENT

DIVISION OF ELECTROMAGNETIC ENGINEERING

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Published

2022-07-05

Issue

Vol. 27 No. 1 (2022): Proceedings of the 27th Nordic Insulation Symposium

Section

Articles

License

Copyright (c) 2022 Durga Pawan Mahidhar Gorla, Hans Edin, Patrick Janus

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