Self-Aligned Bipolar Transistors for High-Performance and Low-Power-Delay VLSI
Abstract
An n-p-n bipolar transistor structure with the emitter region self-aligned to the polysilicon base contact is described. The self-alignment results in an emitter-to-base contact separation less than 0.4 μm and a collector-to-emitter area ratio about 3:1 for a two-sided base contact. This ratio can be less than 2:1 for a base contacted only on one side. The vertical doping profile can be optimized independently for high-performance and/or high-density and low-power-delay circuit applications. The technology, using recessed oxide isolation, was evaluated using 13-stage nonthreshold logic (NTL) and 11-stage merged transition logic (MTL) ring-oscillator circuits designed with 2.5 μm design rules. For transistors with 200-nm emitter junction depth the common-emitter current gain for polysilicon emitter contact is typically 2–4 times that for Pd2Si emitter contact. There is no observable circuit performance degradation attributable to the polysilicon emitter contact. Typical observed per-stage delays were 190 ps at 1.3 mW and 120 ps at 2.3 mW for the NTL (FI = FO = 1) circuits and 1.3 ns at 0.15 mA for the MTL (FO = 4) circuits. Copyright © 1981 by The Institute of Electrical and Electronics Engineers, Inc.