Performance of InP/InGaAs HBTs with a Thin Highly N-Type Doped Layer in the Emitter-Base Heterojunction Vicinity

Performance of InP/InGaAs HBTs with a Thin Highly N-Type Doped Layer in the Emitter-Base Heterojunction Vicinity

This paper investigates the effects of n-type doping in the emitter-base heterojunction vicinity on the DC and high-frequency characteristics of InP/InGaAs heterojunction bipolar transistors (HBTs). The n-type doping is shown to be very effective for enhancing the tunneling-injection current from th...

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Veröffentlicht in:IEICE transactions on electronics 2012-01, Vol.E95.C (8)
Hauptverfasser: KURISHIMA, Kenji, IDA, Minoru, KASHIO, Norihide, FUKAI, Yoshino K
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Sprache:jpn
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Doping
Electric potential
Emittance
Gain
Heterojunctions
Indium gallium arsenides
Indium phosphides
Voltage
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creator KURISHIMA, Kenji
IDA, Minoru
KASHIO, Norihide
FUKAI, Yoshino K
description This paper investigates the effects of n-type doping in the emitter-base heterojunction vicinity on the DC and high-frequency characteristics of InP/InGaAs heterojunction bipolar transistors (HBTs). The n-type doping is shown to be very effective for enhancing the tunneling-injection current from the emitter and thus for reducing the collector-current turn-on voltage. However, it is also revealed that an unnecessary increase in the doping level only degrades the current gain, especially in the low-current region. A higher doping level also increases the emitter junction capacitance. The optimized HBT structures with a 0.5-[mu]m-wide emitter exhibit turn-on voltage as low as 0.78V and current gain of around 80 at JC =1mA/[mu]m2. They also provide a current-gain cutoff frequency, ft, of 280GHz and a maximum oscillation frequency, fmax, of 385GHz at VCE =1V and JC =3mA/[mu]m2. These results indicate that the proposed HBTs are very useful for high-speed and low-power IC applications.
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subjects Doping
Electric potential
Emittance
Gain
Heterojunctions
Indium gallium arsenides
Indium phosphides
Voltage
title Performance of InP/InGaAs HBTs with a Thin Highly N-Type Doped Layer in the Emitter-Base Heterojunction Vicinity
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