Journal ArticleDOI
Thermal properties of very fast transistors
R.C. Joy,E.S. Schlig +1 more
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TLDR
In this paper, a mathematical model of the three-dimensional transient heat flow problem is presented which takes into account the physical structure of the device and the actual region of power dissipation.Abstract:
Recent predictions that thermal effects will limit future transistor speed improvement motivated an interest in predicting and measuring these effects. A mathematical model of the three-dimensional transient heat flow problem is presented which takes into account the physical structure of the device and the actual region of power dissipation. At any point within the device, the model predicts the time-dependent temperature response to a change in power dissipation. A new method of measuring the local time-dependent thermal behavior of small bipolar transistors is described and used to verify the model. It was found that the thermal spreading resistance becomes important in silicon transistors when the emitter stripe dimensions approach 1 µ. Furthermore, the thermal response is much slower than the electrical response. Also, it was confirmed that adjacent devices in integrated circuits are essentially thermally isolated as far as thermal spreading resistance is concerned.read more
Citations
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Book ChapterDOI
Metamorphic HEMT Technology Exemplified by InAlAs/InGaAs/GaAs HEMTs
William E. Hoke,C.S. Whelan +1 more
Book ChapterDOI
Heat Generation Analysis in SOI LDMOS Power Transistors
TL;DR: An overview of the heat generation phenomena in SOI LDMOS transistors, mainly due to the Joule effect, is provided in this article, where the authors derive the 3D dynamic temperature distribution at short time operation.
Journal ArticleDOI
A closed-loop system for the measurement of self-heating in BJTs
TL;DR: In this paper, the authors made dynamic measurements of self-heating in a bipolar transistor by making the device part of a closed-loop temperature control system and then observing the transient response.
Journal ArticleDOI
PSPICE modelling of self-heating effects on lateral bipolar magneto-transistors
TL;DR: In this paper, the PSPICE modelling of self-heating effects on the time response of electronic processing lateral bipolar magneto-transistor (LMT) circuits is covered, and it is concluded that LMTs should be as matched as possible and especially developed packages are required to minimize these deleterious effects.
Proceedings ArticleDOI
Dynamic electrothermal macromodeling techniques for thermal-aware design of circuits and systems
TL;DR: The applicability of classical macromodeling techniques to dynamic electrothermal analysis is reviewed, with emphasis on specific aspects of the Fourier heat conduction problem.
References
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Journal ArticleDOI
The Thermal Conductivity of Germanium and Silicon between 2 and 300 degrees K
TL;DR: The thermal conductivity of single crystals of pure n-type germanium and of p-type Germanium containing from 10$ 14$ to 10$ 19$ group III impurity atoms per cm$^{3}$ has been measured from 2 to 90 degrees K in some cases the readings have been extended up to room temperature as discussed by the authors.
Journal ArticleDOI
Physical problems and limits in computer logic
TL;DR: This article examines physical problems and limits of logical circuitry at increasingly higher current densities, and offers the most directly effective solution to the dilemma-lower operating temperature.
Journal ArticleDOI
Low-temperature operation of Ge picosecond logic circuits
TL;DR: In this article, the results of a study of the design factors and performance of germanium circuits at low temperatures are described, with comparisons to silicon circuits, and the effect of temperature on circuit propagation delay is emphasized.
Journal ArticleDOI
Picosecond Integrated Circuits in Germanium and Silicon
F.H. Dill,A.S. Farber,H.N. Yu +2 more
TL;DR: Calculations based upon material properties indicate a considerable advantage to germanium over silicon for high-speed logic-switching applications, due largely to the better electron and hole mobilities for germanum.