Title :
Nano-Enabled Metal Oxide Varistors for Surge Protection
Author :
Tan, Daniel ; Younsi, Karim ; Zhou, Yingneng ; Cao, Yang ; Irwin, Patricia
Author_Institution :
One Res. Circle, GE Global Res., Niskayuna, NY
Abstract :
Commercial metal oxide varistor (MOV) devices provide a combination of high voltage, peak current, pulse energy absorption, and fast response speed. The non-uniformity and defects, however, may lead to relatively low voltage and energy dissipation, high leakage, low reliability and mechanical cracking. GE global research has been studying NanoMOV technology, and has been developing new formulations and processes. New compositions were invented to enable sintering at much lower temperatures, which exhibits improved I-V characteristics and microstructure uniformity. These compositions not only show high resistance at low fields and breakdown voltage (1-5 kV/mm), but also a large alpha at high fields (50-140). The higher breakdown strength (> 10x) compared to commercially available MOVs will enable MOV miniaturization, high voltage surge protection, and open up new areas of usage.
Keywords :
MIS devices; nanotechnology; surge protection; varistors; NanoMOV technology; energy dissipation; fast response speed; global research; high voltage surge protection; mechanical cracking; nanoenabled metal oxide varistors; pulse energy absorption; Breakdown voltage; Capacitors; Ceramics; Energy dissipation; Power system protection; Power system transients; Surge protection; Surges; Temperature; Varistors;
Conference_Titel :
IEEE International Power Modulators and High Voltage Conference, Proceedings of the 2008
Conference_Location :
Las Vegas, NE
Print_ISBN :
978-1-4244-1534-2
Electronic_ISBN :
978-1-4244-1535-9
DOI :
10.1109/IPMC.2008.4743575
