Improved Bipolar Transistor Performance in a VLSI CMOS Process

C. S. Yue; C. C. Huang; J. W. Schrankler; N. F. Pu; G. D. Kirchner; C. Rahn

doi:10.1109/EDL.1983.25738

Improved Bipolar Transistor Performance in a VLSI CMOS Process

C. S. Yue, C. C. Huang, J. W. Schrankler, N. F. Pu, G. D. Kirchner, C. Rahn

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Abstract

Bipolar n-p-n transistors have been successfully fabricated on a high-performance n-well VLSI CMOS process incorporating an additional mask and implant step. A double active-base implant was utilized to control the base surface concentration and the transistor characteristics separately. High forward common-emitter current gain and collector–emitter breakdown voltage can be achieved by this process. n-p-n transistors with βf = 100, BVCE0 = 9.0 V, and BVCB0 = 23 V can be easily fabricated on this scaled VLSI CMOS process.

Original language	English (US)
Pages (from-to)	294-296
Number of pages	3
Journal	IEEE Electron Device Letters
Volume	4
Issue number	8
DOIs	https://doi.org/10.1109/EDL.1983.25738
State	Published - Aug 1983

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AU - Rahn, C.

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AB - Bipolar n-p-n transistors have been successfully fabricated on a high-performance n-well VLSI CMOS process incorporating an additional mask and implant step. A double active-base implant was utilized to control the base surface concentration and the transistor characteristics separately. High forward common-emitter current gain and collector–emitter breakdown voltage can be achieved by this process. n-p-n transistors with βf = 100, BVCE0 = 9.0 V, and BVCB0 = 23 V can be easily fabricated on this scaled VLSI CMOS process.

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Improved Bipolar Transistor Performance in a VLSI CMOS Process

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