Title :
Optimization and surface charge sensitivity of high-voltage blocking structures with shallow junctions
Author_Institution :
Siliconix Inc., Santa Clara, CA, USA
fDate :
7/1/1991 12:00:00 AM
Abstract :
The most commonly used high-voltage blocking and termination structures-floating field limiting rings (FLR), lateral charge control HVIC devices, and junction termination extension (JTE) structures-are very sensitive to positive silicon and silicon dioxide interface charges. These high-voltage termination structures specifically designed for 1000-V blocking capability lose 25 to 50% of their voltage-blocking capability under 5×1011 cm-2 net interface state density. In contrast, optimized multiple-zone JTE (MZ-JTE), and offset multiple field plated and field-limiting ring (OFP-FLR) structures will lose only 5% of their respective voltage blocking capabilities under the same surface-charge condition. These improved high-voltage blocking structures do not require additional passivation and process complexities
Keywords :
MOS integrated circuits; electric breakdown of solids; electric fields; integrated circuit technology; power integrated circuits; sensitivity analysis; 1000 V; DMOSFET; HVIC devices; MOSIC; Si-SiO2; field-limiting ring; high-voltage blocking structures; junction termination extension; multiple-zone JTE; offset multiple field plated; shallow junctions; surface charge sensitivity; voltage-blocking capability; Computational modeling; Computer simulation; Design optimization; Doping; Helium; Interface states; P-n junctions; Physics; Silicon compounds; Voltage control;
Journal_Title :
Electron Devices, IEEE Transactions on
