We describe a low fabrication cost, high-performance implementation of SiGe BiCMOS on SOI. The use of high-energy Implant allows the simultaneous formation of the subcollector and an additional n-type region below the buried oxide. The combination of buried oxide layer and floating n-type region underneath results In a very low col lector-to-substrate capacitance. We also show that this process option achieves a much lower thermal resistance than using SOI with deep trench isolation, both reducing cost and curbing self-heating effects.
Minimizing thermal resistance and collector-to-substrate capacitance in graded base SiGe BiCMOS on SOI
PALESTRI, Pierpaolo;
2002-01-01
Abstract
We describe a low fabrication cost, high-performance implementation of SiGe BiCMOS on SOI. The use of high-energy Implant allows the simultaneous formation of the subcollector and an additional n-type region below the buried oxide. The combination of buried oxide layer and floating n-type region underneath results In a very low col lector-to-substrate capacitance. We also show that this process option achieves a much lower thermal resistance than using SOI with deep trench isolation, both reducing cost and curbing self-heating effects.File in questo prodotto:
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