Methods for fabricating anode shorted field stop insulated gate bipolar transistor

摘要

A method for fabricating an anode-shorted field stop insulated gate bipolar transistor (IGBT) comprises selectively forming first and second semiconductor implant regions of opposite conductivity types. A field stop layer of a second conductivity type can be grown onto or implanted into the substrate. An epitaxial layer can be grown on the substrate or on the field stop layer. One or more insulated gate bipolar transistors (IGBT) component cells are formed within the epitaxial layer.

主权项

1. A method for fabricating an anode-shorted field stop insulated gate bipolar transistor (IGBT), comprising:
a) selectively forming first semiconductor regions of a first conductivity type within a top surface of a semiconductor substrate, wherein the first conductivity type is opposite a conductivity type of the substrate; b) growing a field stop layer of the first conductivity type onto the top surface of the substrate, wherein the field stop layer has a lower concentration of charge carriers than the first semiconductor regions; c) growing an epitaxial layer of the first conductivity type on top of the field stop layer, wherein the epitaxial layer has a lower concentration of charge carriers than the field stop layer; d) forming one or more insulated gate bipolar transistors (IGBT) component cells within the epitaxial layer; e) thinning a back surface of the substrate to a desired thickness and expose the first semiconductor regions; f) performing a blanket implant to form implant regions of a second conductivity type opposite that of the epitaxial layer and field stop layer within the back surface of the substrate, wherein is performed after the first semiconductor regions of a first conductivity type are formed on the top surface of the semiconductor substrate, wherein activation of the blanket implant is limited to minimal activation at less than 900° C.; and g) evaporating metal onto the back surface of the substrate.