Two dimensional quantitative study of the performance of low temperature epitaxial silicon emitter bipolar transistors with side-wall spacer

Proceedings of the 1988 Bipolar Circuits and Technology Meeting, Pub Date : 1988-09-12 DOI:10.1109/BIPOL.1988.51055
M. Ghannam, R. Mertens, R. van Overstraeten
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Abstract

Detailed two dimensional simulations were carried out on side-wall spacer self-aligned (1) polysilicon emitter bipolar transistor and (2) low-temperature epitaxial emitter bipolar transistor. It is shown that the lateral extrinsic-base-to-intrinsic-base encroachment is improved in the epitaxial emitter transistor resulting in reduced peripheral punchthrough currents. Also, the maximum surface electric field is strongly reduced in the epitaxial emitter structure resulting in smaller tunneling currents. Finally, the calculated transient delays is shorter for the epitaxial transistor than for the polysilicon emitter transistor.<>
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带有侧壁间隔的低温外延硅发射极双极晶体管性能的二维定量研究
对侧壁间隔自对准(1)多晶硅发射极双极晶体管和(2)低温外延发射极双极晶体管进行了详细的二维仿真。结果表明,外延发射极晶体管的外延基和本征基间的横向侵蚀得到了改善,从而降低了外延发射极晶体管的外围穿通电流。此外,在外延发射极结构中,最大表面电场被大大降低,从而导致更小的隧道电流。最后,计算出的外延晶体管的瞬态延迟比多晶硅发射极晶体管短。
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Proceedings of the 1988 Bipolar Circuits and Technology Meeting,
Proceedings of the 1988 Bipolar Circuits and Technology Meeting,
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The best-case power-delay products for polysilicon-contacted bipolar-transistor gates. A theoretical study The effect of emitter sidewall isolation on the emitter junction in a double layer polysilicon bipolar process Delay analysis for BiCMOS drivers Comparing techniques for fabrication polysilicon contacted emitter bipolar transistors Thin base formation by double diffused polysilicon technology
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