Application of Open Circuit Voltage Decay to the Characterization of p/n+ and n/p+ Epitaxial Layer

Application of Open Circuit Voltage Decay to the Characterization of p/n+ and n/p+ Epitaxial Layer

High quality silicon epitaxial layers are inevitable in bipolar and/or unipolar technology. However, its properties are not as easy characterized as those of bulk material. The recombination lifetime is dominated by surface/interface recombination for thin layers, which epitaxial ones generally are....

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Bibliographic Details
Published in:Advances in electrical and electronic engineering Vol. 3; no. 2; pp. 265 - 268
Main Authors: Tapajna, Milan, Pjencak, Jaroslav, Vrbicky, Andrej, Kudela, Pavol, Harmatha, Ladislav
Format: Journal Article
Language:English
Published: Ostrava Faculty of Electrical Engineering and Computer Science VSB - Technical University of Ostrava 01-06-2004
VSB-Technical University of Ostrava
Subjects:
bipolar
epitaxial layer
material
measurement
unipolar
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Summary:High quality silicon epitaxial layers are inevitable in bipolar and/or unipolar technology. However, its properties are not as easy characterized as those of bulk material. The recombination lifetime is dominated by surface/interface recombination for thin layers, which epitaxial ones generally are. We have designed diode structure with n+n/p+and p+p/n+ epitaxial layer for open circuit voltage decay (OCVD) technigue. In such a structure, injected carriers are constrained within lightly doped base by potential barriers of junction and high-low contact and their concentration can then decrease only by recombination. Carrier lifetime obtained by this manner yields information mainly about the defect properties of epitaxial layer. Performing OCVD measurement for high-level injection condition, also tn and tp could be evaluated.
ISSN:1336-1376
1804-3119