Bipolar transistor with reduced base resistance
1. Field of the Invention According to a disclosed method, a dopant spike region is formed in a link base region, which connects an intrinsic base region to an extrinsic base region. For example, the intrinsic base region can be the region in which the base-emitter junction is formed in a silicon-ge...
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Main Author | |
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Format | Patent |
Language | English |
Published |
25.06.2002
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Online Access | Get full text |
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Summary: | 1. Field of the Invention
According to a disclosed method, a dopant spike region is formed in a link base region, which connects an intrinsic base region to an extrinsic base region. For example, the intrinsic base region can be the region in which the base-emitter junction is formed in a silicon-germanium heterojunction bipolar transistor, and the extrinsic base region can be the external portion of the base of the same transistor to which external electrical contact is made. The dopant spike can be an increased concentration of boron dopant. A diffusion blocking segment is then fabricated on top of the link base region in order to prevent diffusion of the dopant spike out of the link base region. For example, the diffusion blocking segment can be formed from silicon-oxide. Thus, link base resistance is reduced, for example, by the higher concentration of boron dopant in the dopant spike region causing the link base resistance to be lower than the intrinsic base resistance. Moreover, a structure comprising a base region with reduced link base resistance can be fabricated according to the disclosed method. |
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