Title :
A surge-free intelligent power device specific to automotive high side switches
Author :
Matsushita, Tsutomu ; Mihara, Teruyoshi ; Ikeda, Hiroshi ; Hirota, Masaki ; Hirota, Yukitsugu
Author_Institution :
Nissan Motors Co. Ltd., Yokosuka, Japan
fDate :
7/1/1991 12:00:00 AM
Abstract :
A novel type of intelligent power device (IPD), which is suitable for automotive monolithic high side switch with high current capability, is presented. An integration of a vertical-power DMOSFET and planar MOS IC devices is performed by the newly developed junction-isolation technique using only one epitaxial growth. The isolation voltage of 80 V has been obtained, which is large enough for automotive IPDs if they are protected against high voltage transients on the battery line. A rugged vertical DMOSFET (VDMOS) has also been developed for this IPD. It has a cellular Zener diode between its source and drain, which prevents the secondary breakdown of parasitic bipolar transistor, and the resulting avalanche capability enhancement is more than an order of magnitude. This VDMOS is used for both output power device and protection device for low-voltage MOS circuitry, which makes the IPD free from any transients in the automobile without the need for external protection
Keywords :
MOS integrated circuits; Zener diodes; automotive electronics; driver circuits; overvoltage protection; power integrated circuits; semiconductor switches; surge protection; switching circuits; 80 V; VDMOS; automotive high side switches; avalanche capability enhancement; battery line voltage transients; cellular Zener diode; epitaxial growth; high current capability; intelligent power device; isolation voltage; junction-isolation technique; low-voltage MOS circuitry; monolithic IC; output power device; parasitic bipolar transistor; planar MOS IC devices; protection device; secondary breakdown prevention; surge-free device; vertical-power DMOSFET; Automotive engineering; Avalanche breakdown; Batteries; Bipolar transistors; Diodes; Epitaxial growth; Intelligent vehicles; Surge protection; Switches; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
