In this paper, the effects of different transistor design aspects on the noise behavior of SiGe heterojunction bipolar transistors have been investigated. Selectively implanted collector, although retards the base push-out, does not deteriorate the noise characteristics. Moreover, a higher dopant implant in the extrinsic base region intended for a smaller base resistance does not deteriorate the noise characteristics. While the interface between the SiGe epitaxial and polycrystalline layers does not have any detrimental impact, the emitter-poly overlap significantly influences both the DC and the noise characteristics. Smaller emitter-poly overlap results in an increased non-ideal base current at lower bias voltages and produces appreciable generation-recombination noise. For all the transistors, except for the ones with smaller emitter-poly overlap, the base current noise power spectral density shows a near quadratic dependence on the base current, where the noise is believed to originate mostly from the superposition of the generation-recombination noise in the intrinsic emitter-base junction. The base current noise power spectral density for the transistors with a smaller emitter-poly overlap shows a near linear dependence on the base current, which results from an increased contribution from the trap-assisted tunneling fluctuations of the minority carriers at the surface of the emitter base junction. (c) 2006 Elsevier Ltd. All rights reserved.