Design of a novel bandgap reference
Based on the traditional first-order compensation bandgap reference analysis, this paper proposes a novel high-order compensation technique and uses this technique to design a curvature compensation voltage reference with a low temperature coefficient over a wide temperature range. The circuit struc...
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National Computer System Engineering Research Institute of China
2018-11-01
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| Series: | Dianzi Jishu Yingyong |
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| Online Access: | http://www.chinaaet.com/article/3000093304 |
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doaj-0e47a52195fb40d388752a3e71368e902020-11-24T21:40:11ZzhoNational Computer System Engineering Research Institute of ChinaDianzi Jishu Yingyong0258-79982018-11-01441191210.16157/j.issn.0258-7998.1807293000093304Design of a novel bandgap referenceDu Tao0Cai Hongyan1Liang Ke2Wang Jin3Li Guofeng4Tianjin Key Laboratory of Optoelectronic Sensor and Sensing Network Technology, Integrated Circuit and System Integration Laboratory of Nankai University,Tianjin 300350,ChinaTianjin Key Laboratory of Optoelectronic Sensor and Sensing Network Technology, Integrated Circuit and System Integration Laboratory of Nankai University,Tianjin 300350,ChinaTianjin Key Laboratory of Photo-electronics Thin Film Devices and Technique, Integrated Circuit and System Integration Laboratory of Nankai University,Tianjin 300350,ChinaTianjin Key Laboratory of Photo-electronics Thin Film Devices and Technique, Integrated Circuit and System Integration Laboratory of Nankai University,Tianjin 300350,ChinaTianjin Key Laboratory of Optoelectronic Sensor and Sensing Network Technology, Integrated Circuit and System Integration Laboratory of Nankai University,Tianjin 300350,ChinaBased on the traditional first-order compensation bandgap reference analysis, this paper proposes a novel high-order compensation technique and uses this technique to design a curvature compensation voltage reference with a low temperature coefficient over a wide temperature range. The circuit structure proposed in this paper is designed and simulated based on the VIS 0.15 μm BCD technology. The simulation results show that the average output voltage of the reference circuit is 539 mV and the temperature coefficient is 1.40 ppm/℃ in the wide temperature range(-60 ℃~120 ℃), the line regulation of output voltage at 27 ℃ is 0.001 9% under the power supply from 1.3 V to 2.1 V, and the power supply rejection is greater than 84 dB at 100 Hz.http://www.chinaaet.com/article/3000093304bandgap referencehigh-order compensationtemperature coefficientline regulationwide temperature range |
| collection |
DOAJ |
| language |
zho |
| format |
Article |
| sources |
DOAJ |
| author |
Du Tao Cai Hongyan Liang Ke Wang Jin Li Guofeng |
| spellingShingle |
Du Tao Cai Hongyan Liang Ke Wang Jin Li Guofeng Design of a novel bandgap reference Dianzi Jishu Yingyong bandgap reference high-order compensation temperature coefficient line regulation wide temperature range |
| author_facet |
Du Tao Cai Hongyan Liang Ke Wang Jin Li Guofeng |
| author_sort |
Du Tao |
| title |
Design of a novel bandgap reference |
| title_short |
Design of a novel bandgap reference |
| title_full |
Design of a novel bandgap reference |
| title_fullStr |
Design of a novel bandgap reference |
| title_full_unstemmed |
Design of a novel bandgap reference |
| title_sort |
design of a novel bandgap reference |
| publisher |
National Computer System Engineering Research Institute of China |
| series |
Dianzi Jishu Yingyong |
| issn |
0258-7998 |
| publishDate |
2018-11-01 |
| description |
Based on the traditional first-order compensation bandgap reference analysis, this paper proposes a novel high-order compensation technique and uses this technique to design a curvature compensation voltage reference with a low temperature coefficient over a wide temperature range. The circuit structure proposed in this paper is designed and simulated based on the VIS 0.15 μm BCD technology. The simulation results show that the average output voltage of the reference circuit is 539 mV and the temperature coefficient is 1.40 ppm/℃ in the wide temperature range(-60 ℃~120 ℃), the line regulation of output voltage at 27 ℃ is 0.001 9% under the power supply from 1.3 V to 2.1 V, and the power supply rejection is greater than 84 dB at 100 Hz. |
| topic |
bandgap reference high-order compensation temperature coefficient line regulation wide temperature range |
| url |
http://www.chinaaet.com/article/3000093304 |
| work_keys_str_mv |
AT dutao designofanovelbandgapreference AT caihongyan designofanovelbandgapreference AT liangke designofanovelbandgapreference AT wangjin designofanovelbandgapreference AT liguofeng designofanovelbandgapreference |
| _version_ |
1725927565531545600 |