DocumentCode
1370054
Title
Trends in power semiconductor devices
Author
Baliga, B.Jayant
Author_Institution
Power Semicond. Res. Center, North Carolina State Univ., Raleigh, NC, USA
Volume
43
Issue
10
fYear
1996
fDate
10/1/1996 12:00:00 AM
Firstpage
1717
Lastpage
1731
Abstract
This paper reviews recent trends in power semiconductor device technology that are leading to improvements in power losses for power electronic systems. In the case of low voltage (<100 V) power rectifiers, the silicon P-i-N rectifier has been displaced by the silicon Schottky rectifier, and it is projected that the silicon TMBS rectifier will be the preferred choice in the future. In the case of high voltage (>100 V) power rectifiers, the silicon P-i-N rectifier continues to dominate but significant improvements are expected by the introduction of the silicon MPS rectifier followed by the GaAs and SiC based Schottky rectifiers. Equally important developments are occurring in power switch technology. The silicon bipolar power transistor has been displaced by silicon power MOSFETs in low voltage (<100 V) systems and by the silicon IGBTs in high voltage (>100 V) systems. The process technology for these MOS-gated devices has shifted from V-MOS in the early 1970s to DMOS in the 1980s, with more recent introduction of the UMOS technology in the 1990s. For the very high power systems, the thyristor and GTO continue to dominate, but significant effort is underway to develop MOS-gated thyristors (MCTs, ESTs, DG-BRTs) to replace them before the turn of the century. Beyond that time frame, it is projected that silicon carbide based switches will begin to displace these silicon devices
Keywords
MOS-controlled thyristors; bipolar transistor switches; field effect transistor switches; gallium arsenide; insulated gate bipolar transistors; p-i-n diodes; power bipolar transistors; power field effect transistors; power semiconductor devices; power semiconductor diodes; power semiconductor switches; reviews; silicon; silicon compounds; solid-state rectifiers; thyristors; DMOS technology; GTO; GaAs; IGBT; MOS-gated devices; MOS-gated thyristors; MPS rectifier; PIN rectifier; Schottky rectifier; Si; SiC; SiC based switches; TMBS rectifier; UMOS technology; VMOS technology; bipolar power transistor; high voltage power rectifiers; low voltage power rectifiers; power MOSFET; power losses; power semiconductor devices; power switch technology; review; semiconductor device technology; Gallium arsenide; Lead compounds; Low voltage; PIN photodiodes; Power electronics; Power semiconductor devices; Power transistors; Rectifiers; Silicon carbide; Thyristors;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/16.536818
Filename
536818
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