High Quality Uniform SiC Epitaxy for Power Device Applications
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Published:2007-09
Issue:
Volume:556-557
Page:101-104
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ISSN:1662-9752
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Container-title:Materials Science Forum
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language:
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Short-container-title:MSF
Author:
Zhang Jie1, Romano Esteban1, Mazzola Janice2, Sunkari Swapna G.1, Hoff Carl1, Sankin Igor1, Mazzola Michael S.3
Affiliation:
1. TranSiC /Fairchild Semiconductor. 2. Semisouth Laboratories Inc. 3. Mississippi State University
Abstract
In this paper we present highly uniform SiC epitaxy in a horizontal hot-wall CVD reactor
with wafer rotation. Epilayers with excellent thickness uniformity of better than 1% and doping
uniformity better than 5% are obtained on 3-in, 4° off-axis substrates. The same growth conditions
for uniform epitaxy also generate smooth surface morphology for the 4° epiwafers. Well controlled
doping for both n- and p-type epilayers is obtained. Abrupt interface transition between n- and pdoped
layers in a wide doping range is demonstrated. Tight process control for both thickness and
doping is evidenced by the data collected from the epi operations. The average deviation from target
is 2.5% for thickness and 6% for doping. PiN diodes fabricated on a standard 3-in, 4° epiwafer have
shown impressive performance. More than half of the 1 mm2 devices block 1 kV (2.3 MV/cm) with
a low leakage current of 1 μA.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference13 articles.
1. www. cree. com. 2. www. infineon. com. 3. L. Cheng, J. R. B. Casady, M. S. Mazzola, I. Sankin, J. N. Merrett, V. Bondarenko, R. L. Kelley, J. B. Casady, presented at ICSCRM2005, Pittsburgh, USA, October, (2005). 4. B. Thomas, C. Hecht, R. Stein and P. Friedrichs, ICSCRM2005, Pittsburgh, USA, October, (2005). 5. J. Zhang, J. Mazzola, C. Hoff, C. Rivas, E. Romano, J.R.B. Casady, M. Mazzola, J.B. Casady and K. Matocha, presented at ICSCRM2005, Pittsburgh, USA, October, 2005 Fig. 5: Deviation from target in percentage for both thickness and doping from a series of epi runs on 3in, 4° wafers. -30. 0% -20. 0% -10. 0.
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