CAPACITIVE METHODS FOR TESTING OF POWER SEMICONDUCTOR DEVICES

Vaclav Papež, Jiri Hájek, Bedrich Kojecký

DOI Number
-
First page
495
Last page
505

Abstract


Electrical capacity of power semiconductor devices is quite an important parameter that can be utilized not only for testing a component itself, but it can also be applied practically; e.g. in series-connected high voltage devices. This paper first analyzes the theoretical voltage distribution on the bases of the polarized p-n junction, as well as the size of capacity. The measurement of the voltage capacity dependence using the resonance principle is illustrated on the samples of 4kV and 6kV thyristors. The correspondence between theoretical estimate of the capacity, measured voltage capacity dependence based on the resonance principle and experimentally determined by injected charge proves the correctness of the applied procedures and assumptions.


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References


B. J. Baliga: Modern Power Devices, New York: John Wiley & Sons, 1987.

S. K. Ghandhi: Semiconductor Power devices, New York: John Wiley & Sons, 1977.

Schuster Elektronik GmbH.: Blocking voltage tester for power semiconductors SML 698. Operating manual. www.schuster-elektronik.de. [on-line].

V. Papež: Apparatus to measure capacitance of power high-voltage semiconductor devices, Patent CZ27126, www.upv.cz. [on-line].

V. Papež, J. Hájek, B. Kojecký: “Complementary methods for a diagnostic evaluation of physical and electrical parameters of power silicon devices”, In ISPS’14 PROCEEDINGS, Prague, 2014, pp. 111-116.


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ISSN: 0353-3670 (Print)

ISSN: 2217-5997 (Online)

COBISS.SR-ID 12826626