Designing power heterojunction bipolar transistors with non-uniform emitter finger lengths to achieve high thermal stability
With the aid of a thermal-electrical model, a practical method for designing multi-finger power heterojunction bipolar transistors with finger lengths divided in groups is proposed. The method can effectively enhance the thermal stability of the devices without sacrificing the design time. Taking a...
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| Published in | Chinese physics B Vol. 20; no. 7; pp. 259 - 265 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
01.07.2011
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1674-1056 2058-3834 |
| DOI | 10.1088/1674-1056/20/7/074401 |
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| Abstract | With the aid of a thermal-electrical model, a practical method for designing multi-finger power heterojunction bipolar transistors with finger lengths divided in groups is proposed. The method can effectively enhance the thermal stability of the devices without sacrificing the design time. Taking a 40-finger heterojunction bipolar transistor for example, the device with non-uniform emitter finger lengths is optimized and fabricated. Both the theoretical and the experimental results show that, for the optimum device, the peak temperature is lowered by 26.19 K and the maximum temperature difference is reduced by 56.67% when compared with the conventional heterojunction bipolar transistor with uniform emitter finger length. Furthermore, the ability to improve the uniformity of the temperature profile and to expand the thermal stable operation range is strengthened as the power level increases, which is ascribed to the improvement of the thermal resistance in the optimum device. A detailed design procedure is also summarized to provide a general guide for designing power heterojunction bipolar transistors with non-uniform finger lengths. |
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| AbstractList | With the aid of a thermal-electrical model, a practical method for designing multi-finger power heterojunction bipolar transistors with finger lengths divided in groups is proposed. The method can effectively enhance the thermal stability of the devices without sacrificing the design time. Taking a 40-finger heterojunction bipolar transistor for example, the device with non-uniform emitter finger lengths is optimized and fabricated. Both the theoretical and the experimental results show that, for the optimum device, the peak temperature is lowered by 26.19 K and the maximum temperature difference is reduced by 56.67% when compared with the conventional heterojunction bipolar transistor with uniform emitter finger length. Furthermore, the ability to improve the uniformity of the temperature profile and to expand the thermal stable operation range is strengthened as the power level increases, which is ascribed to the improvement of the thermal resistance in the optimum device. A detailed design procedure is also summarized to provide a general guide for designing power heterojunction bipolar transistors with non-uniform finger lengths. |
| Author | 金冬月 张万荣 付强 陈亮 肖盈 王任卿 赵昕 |
| AuthorAffiliation | College of Electronic Information and Control Engineering, Beijing University of Technology, Beijing 100124, China |
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| Cites_doi | 10.1109/JSSC.2009.2024102 10.1109/16.299666 10.1016/j.sse.2007.12.007 10.1049/el.2009.1973 10.1016/S0038-1101(00)00189-1 10.1016/j.microrel.2009.01.008 10.1109/16.239729 10.7498/aps.58.8419 10.1116/1.582177 10.1088/1674-1056/18/4/043 10.7498/aps.57.4273 |
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| Notes | Jin Dong-Yue, Zhang Wan-Rong, Fu Qiang Chen Liang Xiao Ying, Wang Ren-Qing, and Zhao Xin College of Electronic Information and Control Engineering, Beijing University of Technology, Beijing 100124, China With the aid of a thermal-electrical model, a practical method for designing multi-finger power heterojunction bipolar transistors with finger lengths divided in groups is proposed. The method can effectively enhance the thermal stability of the devices without sacrificing the design time. Taking a 40-finger heterojunction bipolar transistor for example, the device with non-uniform emitter finger lengths is optimized and fabricated. Both the theoretical and the experimental results show that, for the optimum device, the peak temperature is lowered by 26.19 K and the maximum temperature difference is reduced by 56.67% when compared with the conventional heterojunction bipolar transistor with uniform emitter finger length. Furthermore, the ability to improve the uniformity of the temperature profile and to expand the thermal stable operation range is strengthened as the power level increases, which is ascribed to the improvement of the thermal resistance in the optimum device. A detailed design procedure is also summarized to provide a general guide for designing power heterojunction bipolar transistors with non-uniform finger lengths. heterojunction bipolar transistor, high power, thermal stability 11-5639/O4 |
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| References | Kou J L (2) 2009; 18 11 1 12 4 5 7 Macchiaroli M (6) 2002 9 Cao B Y (8) 2008; 57 Ding Y G (3) 2009; 58 10 |
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| SubjectTerms | 功率 异质结双极型晶体管 异质结双极晶体管 手指 热稳定性 设计时间 长度 非均匀 |
| Title | Designing power heterojunction bipolar transistors with non-uniform emitter finger lengths to achieve high thermal stability |
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