公开(公告)号：DE4444776C2

公开(公告)日：2001-08-16

申请号：DE4444776

申请日：1994-12-15

Applicant: KOREA ELECTRONICS TELECOMM ,  KOREA TELECOMM AUTHORITY SEOUL

Inventor： RYUM BYUNG-RYUL ,  HAN TAE-HYEON ,  LEE SOO-MIN ,  CHO DEOK-HO ,  LEE SEONG-HEARN ,  KANG JIN-YOUNG

IPC: H01L21/331 ,  H01L29/732 ,  H01L29/737

Abstract: Disclosed is a fabrication of a bipolar transistor with a super self-aligned vertical structure in which emitter, base and collector are vertically self-aligned, the fabrication method comprising the steps of forming a conductive buried collector region in a silicon substrate by using ion-implantation of an impurity and thermal-annealing; sequentially forming several layers; selectively removing the nitride and polysilicon layers to form a pattern; sequentially forming a silicon oxide layer, a third layer and a silicon oxide layer thereon; forming a patterned photoresist layer thereon to define active and inactive regions and removing several layers on the active region to form an opening; forming a side wall on both sides of the opening; forming a collector on a surface portion of the buried collector region up to a lower surface of the polysilicon layer; removing the side wall and the third nitride layer to expose a side surface of the second polysilicon layer; selectively forming a base on an upper surface of the collector including a side surface of the polysilicon layer; forming side wall oxide layer on both sides of the base and the silicon oxide to define an emitter region; forming an emitter on the base; and forming electrodes thereon. In the method, an active region is defined by a photolithography, and thereby a trench isolation acting as factors of lowering in integration and device-performance can be omitted in the method. As a result, fabrication sequence can be simplified and integration can be improved.

公开(公告)号：DE4445345C2

公开(公告)日：2001-08-23

申请号：DE4445345

申请日：1994-12-19

Applicant: KOREA ELECTRONICS TELECOMM ,  KOREA TELECOMM AUTHORITY SEOUL

Inventor： RYUM BYUNG-RYUL ,  HAN TAE-HYEON ,  CHO DEOK-HO ,  LEE SOO-MIN ,  LEE SEONG-HEARN ,  KANG JIN-YOUNG

IPC: H01L21/331 ,  H01L21/762 ,  H01L29/732 ,  H01L29/737

Abstract: Disclosed is a fabrication of a bipolar transistor using an enhanced trench isolation so as to improve integration and performance thereof, comprising the steps of sequentially etching back portions corresponding to a trench using a trench forming mask to a predetermined depth of the buried collector to form the trench; filling an isolation insulating layer into the trench; polishing the isolation insulating layer up to a surface of the silicon oxide layer; sequentially forming a second insulating layer on the isolating insulating layer and the silicon oxide layer; removing the first polysilicon layer and the first insulating layer formed on an inactive region other than an active region defined by the trench; thermal-oxidizing the collector layer formed on the inactive region to form a thermal oxide layer; removing the second insulating layer and sequentially forming a third polysilicon, a third insulating layer and a second nitride layer; etching back layers formed on a portion of the first insulating layer to form an opening in the active region; forming a first side wall on both edges of the opening and removing the first insulating layer; forming an intrinsic base at a region where the first insulating layer is removed to electrically connect the intrinsic base with an extrinsic base in self-alignment; forming a second side wall on both sides of the first side wall; and forming an emitter layer on the intrinsic base.