Patent ID: 8324037
Filing Date: 2012-12-04
Classification: H01L

Abstract:
1. A fabrication method for a source, a drain and a gate of a compound semiconductor HEMT device comprising: providing a substrate with a conducting channel layer, providing a first passivation layer having a first passivation layer thickness, applying a first photoresist layer having a first photoresist layer thickness, exposing said first photoresist layer through a first photomask and developing said first photoresist layer, forming a first photoresist source window, a first photoresist drain window and first photoresist gate window, etching exposed portion of said first passivation layer for forming a source cavity with a source cavity length, a drain cavity with a drain cavity length, and a gate cavity with a gate cavity length in said first passivation layer, said gate cavity is for stem portion of said gate and has a gate cavity center, removing said first photoresist layer, deposit a first metal layer having a first metal layer thickness, applying a second photoresist layer having a second photoresist layer thickness, exposing said second photoresist layer through a second photomask and developing said second photoresist layer, forming a first source pattern and a first drain pattern, said first source pattern has a first source pattern length and said first drain pattern has a first drain pattern length, etching exposed first metal layer to form a first source portion and a first drain portion, wherein said source cavity length defines a first source portion bottom length and said first source pattern length defines a first source portion top length; said drain cavity length defines a first drain portion bottom length and said first drain pattern length defines a first drain portion top length, removing said second photoresist layer, annealing at an elevated temperature for a duration, depositing a second metal layer having a second metal layer thickness, applying a third photoresist having a third photoresist layer thickness, exposing said third photoresist layer through a third photomask and developing said third photoresist layer, forming a second source pattern with a second source pattern length, a second drain pattern with a second drain pattern length and a gate pattern with a gate pattern length, etching exposed second metal layer, forming a second source portion having a second source portion length and a second drain portion having a second drain portion length, and forming said gate with a head portion and a stem portion, said gate head portion has a gate head length and a gate head center and said gate stem portion has a gate stem length and a gate stem center defined by said gate cavity center, wherein said second source portion length is defined by said second source pattern length, said second drain portion length is defined by said second drain pattern length and said gate head length is defined by said gate pattern length and said gate stem length is defined by said gate cavity length, removing said third photoresist layer and completing the fabrication of said HEMT device, wherein said head portion of said gate is supported by said first passivation layer to enhance mechanical strength of said stem portion of said gate, and wherein said second source portion length is larger than said first source portion bottom length and is substantially equal to said first source portion top length, forming a head portion and a stem portion, said head portion of said source is supported by said first passivation layer to enhance mechanical strength of said stem portion of said source.