Title :
High-low polysilicon-emitter SiGe-base bipolar transistors
Author :
Crabbé, Emmanuel F. ; Comfort, James H. ; Cressler, John D. ; Sun, Jack Y C ; Stork, Johannes M C
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
Self-aligned heterojunction bipolar transistors with a high-low emitter profile consisting of a heavily doped polysilicon contact on top of a thin epitaxial emitter cap have been fabricated. The low doping in the single-crystal emitter cap allows a very high dopant concentration in the base with low emitter-base reverse leakage and low emitter-base capacitance. The thin emitter cap is contacted by heavily doped polysilicon to reduce the emitter resistance, the base current, and the emitter charge storage. A trapezoidal germanium profile in the base ensures a small base transit time and adequate current gain despite high base doping. The performance potential of this structure was simulated and demonstrated experimentally in transistors with near-ideal characteristics, very small reverse emitter-base leakage current, and 52-GHz peak f/sub max/, and in unloaded ECL and NTL ring oscillators with 24- and 19-ps gate delays, respectively.<>
Keywords :
Ge-Si alloys; elemental semiconductors; heavily doped semiconductors; heterojunction bipolar transistors; leakage currents; silicon; solid-state microwave devices; 52 GHz; Si-SiGe; SiGe-base; base transit time; current gain; heavily doped polysilicon contact; heterojunction bipolar transistors; high-low emitter profile; low emitter-base capacitance; low emitter-base reverse leakage; polysilicon-emitter; self-aligned HBT; thin epitaxial emitter cap; trapezoidal Ge profile; Bipolar transistors; Boron; Capacitance; Contact resistance; Delay; Fabrication; Germanium; Lifting equipment; Ring oscillators; Sun;
Journal_Title :
Electron Device Letters, IEEE
