Thin Emitter Structure Improved Turn-on Characteristics in RSD

The thin emitter structure was introduced into reversely switched dynistor(RSD) to improve its turn-on characteristics. According to the analysis of turn-on condition, thin emitter structure is capable of reducing the extraction action for the triggering plasma layer P1 during turn-on process, and s...

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Published inTransactions of Tianjin University Vol. 14; no. 3; pp. 182 - 185
Main Author 梁琳 余岳辉 周郁明 王璐
Format Journal Article
LanguageEnglish
Published Heidelberg Tianjin University 01.06.2008
Department of Electronic Science and Technology, Huazhong University of Science and Technology, Wuhan 430074, China
Subjects
Engineering
Humanities and Social Sciences
Mechanical Engineering
multidisciplinary
Science
前向电压降落
发射器
接通特征
转向开关负阻半导体
thin emitter
turn-on characteristics
reversely switched dynistor(RSD)
forward voltage drop
switch
reversely switched dynistor (RSD)
Online AccessGet full text
ISSN1006-4982
1995-8196
DOI10.1007/s12209-008-0033-7

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Abstract The thin emitter structure was introduced into reversely switched dynistor(RSD) to improve its turn-on characteristics. According to the analysis of turn-on condition, thin emitter structure is capable of reducing the extraction action for the triggering plasma layer P1 during turn-on process, and satisfying the requirement that triggering electric charge cannot be exhausted and therefore enables RSD to turn on uniformly. The on-state thin emitter RSD was equivalent to an asymmetric pin diode model. The simulation result shows that the forward voltage drop of RSD falls with the decrease of doping dose in p^+-emitter in a certain range, and when the doping concentration is extremely tow, the decrease of the width of p^+-emitter can obtain a tow forward voltage drop. Thin emitter RSD chips were made by sintering AI on n-Si. The test result shows that their turn-on process is uniform and the voltage drop is 7.5 V when the peak conversion current is 5 500 A.
AbstractList The thin emitter structure was introduced into reversely switched dynistor(RSD) to improve its turn-on characteristics. According to the analysis of turn-on condition, thin emitter structure is capable of reducing the extraction action for the triggering plasma layer P1 during turn-on process, and satisfying the requirement that triggering electric charge cannot be exhausted and therefore enables RSD to turn on uniformly. The on-state thin emitter RSD was equivalent to an asymmetric pin diode model. The simulation result shows that the forward voltage drop of RSD falls with the decrease of doping dose in p^+-emitter in a certain range, and when the doping concentration is extremely tow, the decrease of the width of p^+-emitter can obtain a tow forward voltage drop. Thin emitter RSD chips were made by sintering AI on n-Si. The test result shows that their turn-on process is uniform and the voltage drop is 7.5 V when the peak conversion current is 5 500 A.
The thin emitter structure was introduced into reversely switched dynistor(RSD) to improve its turn-on characteristics. According to the analysis of turn-on condition, thin emitter structure is capable of reducing the extraction action for the triggering plasma layer P1 during turn-on process, and satisfying the requirement that triggering electric charge cannot be exhausted and therefore enables RSD to turn on uniformly. The on-state thin emitter RSD was equivalent to an asymmetric pin diode model. The simulation result shows that the forward voltage drop of RSD falls with the decrease of doping dose in p-emitter in a certain range, and when the doping concentration is extremely low, the decrease of the width of p-emitter can obtain a low forward voltage drop. Thin emitter RSD chips were made by sintering Al on n-Si. The test result shows that their turn-on process is uniform and the voltage drop is 7.5 V when the peak conversion current is 5 500 A.
O4; The thin emitter structure was introduced into reversely switched dynistor (RSD) to improve its turn-on characteristics. According to the analysis of turn-on condition, thin emitter structure is capable of reducing the extraction action for the triggering plasma layer P1 during turn-on process, and satisfying the requirement that triggering electric charge cannot be exhausted and therefore enables RSD to turn on uniformly. The on-state thin emitter RSD was equivalent to an asymmetric pin diode model. The simulation result shows that the forward voltage drop of RSD falls with the decrease of doping dose in p+-emitter in a certain range, and when the doping concentration is extremely low, the decrease of the width of p+-emitter can obtain a low forward voltage drop. Thin emitter RSD chips were made by sintering Al on n-Si. The test result shows that their turn-on process is uniform and the voltage drop is 7.5V when the peak conversion current is 5500A.
The thin emitter structure was introduced into reversely switched dynistor(RSD) to improve its turn-on characteristics. According to the analysis of turn-on condition, thin emitter structure is capable of reducing the extraction action for the triggering plasma layer P 1 during turn-on process, and satisfying the requirement that triggering electric charge cannot be exhausted and therefore enables RSD to turn on uniformly. The on-state thin emitter RSD was equivalent to an asymmetric pin diode model. The simulation result shows that the forward voltage drop of RSD falls with the decrease of doping dose in p + -emitter in a certain range, and when the doping concentration is extremely low, the decrease of the width of p + -emitter can obtain a low forward voltage drop. Thin emitter RSD chips were made by sintering Al on n-Si. The test result shows that their turn-on process is uniform and the voltage drop is 7.5 V when the peak conversion current is 5 500 A.
Author 梁琳 余岳辉 周郁明 王璐
AuthorAffiliation Department of Electronic Science and Technology, Huazhong University of Science and Technology,Wuhan 430074, China
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10.1109/T-ED.1976.18514
10.1541/ieejfms.124.607
10.1016/0038-1101(88)90019-6
10.1134/S0020441207020108
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Issue 3
Keywords thin emitter
turn-on characteristics
reversely switched dynistor(RSD)
forward voltage drop
switch
reversely switched dynistor (RSD)
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Notes thin emitter
turn-on characteristics
forward voltage drop
12-1248/T
reversely switched dynistor(RSD)
reversely switched dynistor(RSD); thin emitter; turn-on characteristics; switch; forward voltage drop
TN304
switch
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Department of Electronic Science and Technology, Huazhong University of Science and Technology, Wuhan 430074, China
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Snippet The thin emitter structure was introduced into reversely switched dynistor(RSD) to improve its turn-on characteristics. According to the analysis of turn-on...
The thin emitter structure was introduced into reversely switched dynistor(RSD) to improve its turn-on characteristics. According to the analysis of turn-on...
O4; The thin emitter structure was introduced into reversely switched dynistor (RSD) to improve its turn-on characteristics. According to the analysis of...
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SubjectTerms Engineering
Humanities and Social Sciences
Mechanical Engineering
multidisciplinary
Science
前向电压降落
发射器
接通特征
转向开关负阻半导体
Title Thin Emitter Structure Improved Turn-on Characteristics in RSD
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