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Base profile design for high-performance operation of bipolar transistors at liquid-nitrogen temperature

Journal Article · · IEEE (Institute of Electrical and Electronics Engineers) Transactions on Electron Devices; (USA)
DOI:https://doi.org/10.1109/16.30963· OSTI ID:5364675
; ; ;  [1]
  1. International Business Machines Corp., Yorktown Heights, NY (USA). Thomas J. Watson Research Center
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The base profile requirements of Si bipolar junction transistors (BJT's) high-performance operation at liquid-nitrogen temperature are examined. Measurements of thin epitaxial-base polysilicon-emitter n-p-n transistors with increasing base doping show the effects of bandgap narrowing, mobility changes, and carrier freezeout. At room temperature the collector current at low injection is proportional to the integrated base charge, independent of the impurity distribution. At temperatures below 150 {Kappa}, however, minority injection is dominated by the peak base doping because of the greater effectiveness of bandgap narrowing. When the peak doping in the base approaches 10/sup 19/ cm/sup -3/, the bandgap difference between emitter and base is sufficiently small that the current gain no longer monotonically decreases with lower temperature but instead shows a maximum as low as 180 {Kappa}. The device design window appears limited at the low-current end by increased base-emitter leakage due to tunneling and by resistance control at the high-current end. Using the measured dc characteristics, circuit delay calculations are made to estimate the performance of an ECL ring oscillator at room and liquid-nitrogen temperatures. It is shown that if the base doping can be raised to 10/sup 19/ cm/sup -3/ while keeping the base thickness constant, the minimum delay at liquid nitrogen can approach the delay of optimized devices at room temperature.

OSTI ID:
5364675
Journal Information:
IEEE (Institute of Electrical and Electronics Engineers) Transactions on Electron Devices; (USA), Journal Name: IEEE (Institute of Electrical and Electronics Engineers) Transactions on Electron Devices; (USA) Vol. 36:8; ISSN IETDA; ISSN 0018-9383
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360603 -- Materials-- Properties
42 ENGINEERING
420400 -- Engineering-- Heat Transfer & Fluid Flow
426000* -- Engineering-- Components
Electron Devices & Circuits-- (1990-)
AMPLIFICATION
CALCULATION METHODS
CURRENT DENSITY
DESIGN
ELECTRONIC EQUIPMENT
ELEMENTS
EQUIPMENT
GAIN
JUNCTION TRANSISTORS
JUNCTIONS
LOW TEMPERATURE
NITROGEN
NONMETALS
OSCILLATORS
P-N JUNCTIONS
PERFORMANCE
SEMICONDUCTOR DEVICES
SEMICONDUCTOR JUNCTIONS
SEMIMETALS
SILICON
TRANSISTORS