An extensive on-wafer experimental campaign is carried out to determine the thermal resistance dependence on scaling and emitter geometry in state-of-the-art toward-THz silicon–germanium bipolar transistors designed and fabricated within the framework of the European DOTFIVE project. The extraction is performed through a robust procedure, which—differently from classic approaches—exploits an accurately calibrated thermometer relating base-emitter voltage to junction temperature. Experimental data are then used to assess the accuracy of scalable thermal resistance laws for advanced transistor models; it was found that at least four parameters are needed to ensure a favorable agreement over wide ranges of emitter widths and lengths
Influence of scaling and emitter layout on the thermal behavior of toward-THz SiGe:C HBTs / D'Alessandro, Vincenzo; Sasso, Grazia; Rinaldi, Niccolo'; Klaus, Aufinger. - In: IEEE TRANSACTIONS ON ELECTRON DEVICES. - ISSN 0018-9383. - 61:10(2014), pp. 3386-3394. [10.1109/TED.2014.2349792]
Influence of scaling and emitter layout on the thermal behavior of toward-THz SiGe:C HBTs
d'ALESSANDRO, VINCENZO;SASSO, GRAZIA;RINALDI, NICCOLO';
2014
Abstract
An extensive on-wafer experimental campaign is carried out to determine the thermal resistance dependence on scaling and emitter geometry in state-of-the-art toward-THz silicon–germanium bipolar transistors designed and fabricated within the framework of the European DOTFIVE project. The extraction is performed through a robust procedure, which—differently from classic approaches—exploits an accurately calibrated thermometer relating base-emitter voltage to junction temperature. Experimental data are then used to assess the accuracy of scalable thermal resistance laws for advanced transistor models; it was found that at least four parameters are needed to ensure a favorable agreement over wide ranges of emitter widths and lengths| File | Dimensione | Formato | |
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