F. Hebert scite author profile

Abstract-Silicon complementary bipolar processes offer the possibility of realizing high-performance circuits for a variety of analog applications. This paper presents a summary of silicon complementary bipolar process technology reported in recent years. Specifically, an overview of a family of silicon complementary bipolar process technologies, called Vertically Integrated PNP (VIP™ 1 ), which have been used for the realization of high-frequency analog circuits is presented. Three process technologies, termed VIP-3, VIP-3H, and VIP-4H offer device breakdowns of 40, 85, and 170 V, respectively. These processes feature optimized vertically integrated bipolar junction transistors (PNPs) along with high performance NPN transistors with polycrystalline silicon emitters, low parasitic polycrystalline silicon resistors, and metal-insulator-polycrystalline silicon capacitors. Key issues and aspects of the processes are described. These issues include the polycrystalline silicon emitter optimization and vertical and lateral device isolation in the transistors. Circuit design examples are also described which have been implemented in these technologies.

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N-Si/sub x/C/sub 1-x//P-Si diode fabricated using silane, 1,1,1-trichloroethane and arsine at low temperatures

Hebert¹

1991

IEEE Electron Device Lett.

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F. Hebert

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Base resistance of bipolar transistors from layout details including two dimensional effects at low currents and low frequencies

A 40 volt silicon complementary bipolar technology for high-precision and high-frequency analog circuits

A complementary bipolar technology family with a Vertically Integrated PNP for high-frequency analog applications

N-Si/sub x/C/sub 1-x//P-Si diode fabricated using silane, 1,1,1-trichloroethane and arsine at low temperatures

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