D. Céli scite author profile

This paper describes a methodology for extracting and verifying the high-frequency model parameters of the HICUM L0 and L2 models of a silicon-germanium HBT from device and circuit measurements in the 110-325-GHz range. For the first time, the non-quasi-static effects, missing in the HICUM/L0 model, are found to be essential in accurately capturing the frequency dependence of the transistor maximum available power gain beyond the inflection frequency for unconditional stability. Furthermore, it is demonstrated that the optimal partitioning of the area and periphery components of the junction base-emitter, base-collector, and collector-substrate capacitances, and of the internal and external base and collector resistances can only be determined from -parameter measurements beyond 200 GHz. The extracted models are validated on state-of-the-art linear and nonlinear circuits (amplifier, voltage-controlled oscillator (VCO), and VCO + divider chain) operating at frequencies as high as 240 GHz.

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Scalable compact modeling of trap generation near the EB spacer oxide interface in SiGe HBTs

Couret

Jaoul

Fabert

et al. 2020

Solid-State Electronics

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A conventional double-polysilicon FSA-SEG Si/SiGe:C HBT reaching 400 GHz f<inf>MAX</inf>

Chevalier¹,

Pourchon²,

Lacave³

et al. 2009

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D. Céli

A 55 nm triple gate oxide 9 metal layers SiGe BiCMOS technology featuring 320 GHz f<inf>T</inf> / 370 GHz f<inf>MAX</inf> HBT and high-Q millimeter-wave passives

A physical and versatile aging compact model for hot carrier degradation in SiGe HBTs under dynamic operating conditions

Characterization and Modeling of an SiGe HBT Technology for Transceiver Applications in the 100–300-GHz Range

Scalable compact modeling of trap generation near the EB spacer oxide interface in SiGe HBTs

A conventional double-polysilicon FSA-SEG Si/SiGe:C HBT reaching 400 GHz f<inf>MAX</inf>

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