Digital Testing Of HV Circuit Breaker

Presenter-Ankit Saxena EE 09

IntroductionNeed for testingTestings of circuit breakerDigital testingAdvantages & Disadvantages

ApplicationsConclusions

Outlines -

What is circuit breaker ? A circuit breaker can make or break a circuit, either manually

or automatically under all conditions viz. no-load, full-load and short-circuit conditions. The American National Standard Institute (ANSI) defines circuit breaker as: “A mechanical switching device capable of making, carrying and breaking currents under normal circuit conditions and also making, carrying for a specified time, and breaking currents under specified abnormal circuit conditions such as those of short circuit”.

Introduction -

high voltage circuit breaker

• In closed position they are good conductors.• In open position they are excellent insulators.• They can close a shorted circuit quickly and safely without

unacceptable contact erosion.• They can interrupt a rated short-circuit current or lower

current quickly without generating an abnormal voltage.

Essential qualities of hv circuit breaker -

The first circuit breaker was developed by J.N.

Kelman in 1901. It was the predecessor of the oil circuit

breaker and capable of interrupting a short circuit current of

200 to 300 Ampere in a 40KV system. The circuit breaker was

made up of two wooden barrels containing a mixture of oil and

water in which the contacts were immersed. Now a days one

pole of circuit breaker is capable of interrupting 63 KA in a

550 KV network with SF6 gas as the arc quenching medium.

History -

When an overload or a short circuit occurs in the home or

industry, the usual result is a blown fuse or a tripped circuit

breaker. Circuit breakers are mechanical devices, which are

subject to deterioration due to wear, corrosion and

environmental contamination, any of which could cause the

device to remain closed during a fault condition.

Need for tesing of hv circuit breakers -

TESTING OF CIRCUIT BREAKERS -

1.Routine tests2.Type tests

Digital testing - A project started with the following parties : •KEMA high power laboratories The Netherlands.•Delft University of technology, The Netherlands.•Siemens AG, Germany•RWE Energy ,Germany

  

Aim of digital testing - developing digital testing of hv circuit breakers. ie., a software product for testing a model of such a device , once its characteristic fingerprints are obtained from refined measurements during standard tests. Digital offers a wide range of new possibilities for users, manufactures, standardizing bodies and test laboratories for fine tuning circuit breaker abilities in relation with standard and real power systems.

• . A tailor-made high-frequency measuring system was realized for this purpose. This system consists a number of battery powered, single channel 40MHz 12bit AD converters each storing data temporarily in on board local RAM (256k samples each)

• The arc voltage is measured with standard broad band RCR type voltage dividers. Current is measured with a special Rogowski coil. After the remote RAM is filled, data is transmitted serially through optical fibres to the processing unit in the command centre.

Measurement & data analysis -

• The system relies heavily on digital signal processing methods for reconstructing the actual voltage and current signals from the raw sensor output. On the one hand, this has to do with the specific frequency sensors and on the other hand, with corrections needed for the reproducible induced voltage and capacitive current that distort the measured signals. Tests in various laboratories have proven that the system can measure post-arc current as small as 50 mA, microseconds after the interruption of many tens of kA.

• After an extensive series of the most critical fault interruption duty for circuit breakers, a test data-base from various types of commercially available circuit breakers was set up. With this experimental material, an empirical arc model based on classical arc models was validated that gave very good coverage of the observed processes. From the total number (more than 250) interruption attempts, the result of the attempt i.e., failure or success was predicted correctly in more than 90% of the cases by evaluating the characteristics of the arc behaviour with model.

Parameter extraction software

. Voltage and current measurement data

. Degradation of the circuit breaker poles

ARC-CIRCUIT INTERACTION SOFTWARE -

At the final stage of the realization of digital testing, measured arc model parameters will be used as input for the arc model, the integration of differential algebric equations (DAE) by means of the backward differentiation formula (BDF) method has been chosen in developing a new software package for electrical transients computation. This new transient program, X Trans has been developed at the Delft University of Technology especially for arc-circuit interaction studies. The program runs on a PC with the MS-Windows operating system and works fully graphical as shown in figure . The program is in use at several high-power and high-voltage laboratories in the world.

 

XTrans transient program

. Structure of the XTrans transient program

Advantages-•Evaluation of the relevance of future standards for different circuit breaker

technologies and extinguishing media.

•Estimation of circuit breaker’s interrupting limit.

•Reduction of full scale testing in high-power laboratories.

•Identification of network topologies that can pose special difficulties to a circuit

breaker.

•Acceleration at development of new circuit breaker design.

•Monitoring the aging process of circuit breaker in service.

•Expansion of services for high-power laboratories

• Testing in costlier

• Testing is time consuming

• A tough procedure

Disadvantages-

APPLICATIONS OF DIGITAL TESTING -

•Influence of parallel capacitance -

Influence of a current transformer

• Critical line length determination -

. Critical line length determination by means of digital testing

CONCLUSION - Digital testing gives precise information about the breaker, as obtained from laboratory tests. This is useful for the development of future standards. Powerful possibilities with digital testing are created when arc model and data analysis is coupled with a circuit analysis package. The performance of a circuit breaker whose finger prints are obtained from real tests can be estimated in other circuits also.

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