Title :
BiCMOS integration of SiGe:C heterojunction bipolar transistors
Author :
Knoll, D. ; Heinemann, B. ; Ehwald, K.E. ; Rücker, H. ; Tillack, B. ; Winkler, W. ; Schley, P.
Author_Institution :
IHP, Frankfurt, Germany
Abstract :
We demonstrate the advantages of implementing C-doped SiGe HBTs in a BiCMOS technology with respect to manufacturability, RF performance, modular process integration, and low process complexity. SiGe:C HBTs with fT values above 100 GHz, fmax values up to 180 GHz, and ring oscillator delays lower than 6 ps are demonstrated in a BiCMOS technology without an epitaxially-buried subcollector and without deep trench isolation. High-voltage HBTs with BVCEO values up to 9 V and BVCEO×fT products exceeding 220 VGHz can also be obtained on the same chip. We show that C doping allows the fabrication of the HBT layers before the essential CMOS steps start, paving the way for a truly modular HBT integration in different CMOS platforms. We also address the integration of high-performance RF LDMOS transistors as valuable, additional BiCMOS components.
Keywords :
BiCMOS integrated circuits; Ge-Si alloys; bipolar MIMIC; carbon; heterojunction bipolar transistors; power integrated circuits; semiconductor materials; 100 GHz; 180 GHz; 6 ps; 9 V; BiCMOS integration; C-doped SiGe HBTs; CMOS platforms; RF performance; SiGe:C; SiGe:C heterojunction bipolar transistors; fabrication; high-performance RF LDMOS transistors; high-voltage HBTs; low process complexity; manufacturability; modular HBT integration; modular process integration; ring oscillator delays; BiCMOS integrated circuits; Delay; Doping; Germanium silicon alloys; Heterojunction bipolar transistors; Isolation technology; Manufacturing processes; Radio frequency; Ring oscillators; Silicon germanium;
Conference_Titel :
Bipolar/BiCMOS Circuits and Technology Meeting, 2002. Proceedings of the 2002
Print_ISBN :
0-7803-7561-0
DOI :
10.1109/BIPOL.2002.1042909
