J. Semicond. > 2013, Volume 34 > Issue 2 > 025006
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SEMICONDUCTOR INTEGRATED CIRCUITS

A fast novel soft-start circuit for peak current-mode DC-DC buck converters

Jie Li, Miao Yang, Weifeng Sun, Xiaoxia Lu, Shen Xu and Shengli Lu

+ Author Affiliations

 Corresponding author: Yang Miao, Email:myron@seu.edu.cn

DOI: 10.1088/1674-4926/34/2/025006

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Abstract: A fully integrated soft-start circuit for DC-DC buck converters is presented. The proposed high speed soft-start circuit is made of two sections:an overshoot suppression circuit and an inrush current suppression circuit. The overshoot suppression circuit is presented to control the input of the error amplifier to make output voltage limit increase in steps without using an external capacitor. A variable clock signal is adopted in the inrush current suppression circuit to increase the duty cycle of the system and suppress the inrush current. The DC-DC converter with the proposed soft-start circuit has been fabricated with a standard 0.13 μm CMOS process. Experimental results show that the proposed high speed soft-start circuit has achieved less than 50 μs start-up time. The inductor current and the output voltage increase smoothly over the whole load range.

Key words: current-modeDC-DC convertersoft-startinrush currentovershoot voltage



[1]
Lai Xinquan, Jia Ligang, Hu Juncai, et al. The design of a low voltage and high speed driver circuit for boost DC-DC converter. 5th International Conference on ASIC Proceeding, 2003, 1(10):635 http://vanner.com/manuals/HIGH-VOLTAGE-DC-DC-CONVERTER.pdf
[2]
Lai Xinquan, Guo Jianping, Yu Weixue. A novel digital soft-start circuit for DC-DC switching regulator. 6th International Conference on ASIC Proceeding, 2005, 2(10):564 http://ieeexplore.ieee.org/document/1611391/
[3]
Yuan Bing, Lai Xinquan, Ye Qiang, et al. A novel compact soft-start circuit with internal circuitry for DC-DC converter. 7th International Conference on ASIC Proceeding, 2007:450 http://yadda.icm.edu.pl/yadda/element/bwmeta1.element.ieee-000004415664
[4]
Chen K H, Chang C T, Liu T H. Bidirectional current-mode capacitor multipliers for on-chip compensation. IEEE Trans Power Electron, 2008, 23(1):180 doi: 10.1109/TPEL.2007.911776
[5]
Wang Y, Xu D, Guo D, et al. The new soft starting methods for electronics ballasts of UV lamps based on microcontroller. IEEE Conference on Industrial Electronics and Applications, 2006:1
[6]
Ryu Y C, Hwang Y W. A new soft-start method with abnormal over current protection function for switching power supplies. IEEE International Conference on Electric Machines and Drives, 2005:431 doi: 10.1007%2F1-4020-7830-7_24
[7]
Li Sizhen, Zou Xuecheng, Chen Xiaofei. Designing a compact soft-start scheme for voltage-mode DC-DC switching converter. Microelectron J, 2010, 41(7):430 doi: 10.1016/j.mejo.2010.05.001
[8]
Lee K C, Chae C S, Cho G H, et al. A PLL-based high-stability single-inductor 6-channel output DC-DC buck converter. IEEE International ISSCC, 2010:200
[9]
Barrado A, Quintero J, Lazaro A, et al. Linear-non-linear control applied in multiphase VRM. IEEE Power Electronics Specialists Conference, 2005:904
[10]
Shibata K, Pham C K. A DC-DC converter using a high speed soft-start control circuit. IEEE International Symposium on Circuits and Systems, 2010:833 http://scm.nsfc.gov.cn/indexhtml/pub_maint_en_US.html
Fig. 1.  Typical structure of a peak current-mode DC–DC buck converter.

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Fig. 2.  Overshoot suppression circuit.

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Fig. 3.  Waveform of output voltage and inductor current at the ideal fastest start-up phase.

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Fig. 4.  Waveform of start-up $I_{\rm L}$ and CLK (a) with constant minimum clock and (b) with 3 times the cycle minimum clock.

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Fig. 5.  Inrush current suppression circuit.

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Fig. 6.  Simulated results of start-up $V_{\rm set}$, $V_{\rm out}$, $I_{\rm L}$ and CLK (a) with constant minimum duty cycle and (b) with variable minimum duty cycle.

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Fig. 7.  Chip microphotograph of the buck converter with the proposed soft-start circuit.

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Fig. 8.  Measured output voltage $V_{\rm out}$ (Channel 1) and inductor current $I_{\rm L}$ (Channel 2) during the start-up (a) with no load and (b) with load 200 mA.

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[1]
Lai Xinquan, Jia Ligang, Hu Juncai, et al. The design of a low voltage and high speed driver circuit for boost DC-DC converter. 5th International Conference on ASIC Proceeding, 2003, 1(10):635 http://vanner.com/manuals/HIGH-VOLTAGE-DC-DC-CONVERTER.pdf
[2]
Lai Xinquan, Guo Jianping, Yu Weixue. A novel digital soft-start circuit for DC-DC switching regulator. 6th International Conference on ASIC Proceeding, 2005, 2(10):564 http://ieeexplore.ieee.org/document/1611391/
[3]
Yuan Bing, Lai Xinquan, Ye Qiang, et al. A novel compact soft-start circuit with internal circuitry for DC-DC converter. 7th International Conference on ASIC Proceeding, 2007:450 http://yadda.icm.edu.pl/yadda/element/bwmeta1.element.ieee-000004415664
[4]
Chen K H, Chang C T, Liu T H. Bidirectional current-mode capacitor multipliers for on-chip compensation. IEEE Trans Power Electron, 2008, 23(1):180 doi: 10.1109/TPEL.2007.911776
[5]
Wang Y, Xu D, Guo D, et al. The new soft starting methods for electronics ballasts of UV lamps based on microcontroller. IEEE Conference on Industrial Electronics and Applications, 2006:1
[6]
Ryu Y C, Hwang Y W. A new soft-start method with abnormal over current protection function for switching power supplies. IEEE International Conference on Electric Machines and Drives, 2005:431 doi: 10.1007%2F1-4020-7830-7_24
[7]
Li Sizhen, Zou Xuecheng, Chen Xiaofei. Designing a compact soft-start scheme for voltage-mode DC-DC switching converter. Microelectron J, 2010, 41(7):430 doi: 10.1016/j.mejo.2010.05.001
[8]
Lee K C, Chae C S, Cho G H, et al. A PLL-based high-stability single-inductor 6-channel output DC-DC buck converter. IEEE International ISSCC, 2010:200
[9]
Barrado A, Quintero J, Lazaro A, et al. Linear-non-linear control applied in multiphase VRM. IEEE Power Electronics Specialists Conference, 2005:904
[10]
Shibata K, Pham C K. A DC-DC converter using a high speed soft-start control circuit. IEEE International Symposium on Circuits and Systems, 2010:833 http://scm.nsfc.gov.cn/indexhtml/pub_maint_en_US.html

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    Received: 21 June 2012 Revised: 11 September 2012 Online: Published: 01 February 2013

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      Article Navigation >  Journal of Semiconductors  > 2013  >  34(2): 025006
      Jie Li, Miao Yang, Weifeng Sun, Xiaoxia Lu, Shen Xu, Shengli Lu. A fast novel soft-start circuit for peak current-mode DC-DC buck converters[J]. Journal of Semiconductors, 2013, 34(2): 025006. doi: 10.1088/1674-4926/34/2/025006 ****J Li, M Yang, W F Sun, X X Lu, S Xu, S L Lu. A fast novel soft-start circuit for peak current-mode DC-DC buck converters[J]. J. Semicond., 2013, 34(2): 025006. doi: 10.1088/1674-4926/34/2/025006.
      Citation:
      Jie Li, Miao Yang, Weifeng Sun, Xiaoxia Lu, Shen Xu, Shengli Lu. A fast novel soft-start circuit for peak current-mode DC-DC buck converters[J]. Journal of Semiconductors, 2013, 34(2): 025006. doi: 10.1088/1674-4926/34/2/025006 ****
      J Li, M Yang, W F Sun, X X Lu, S Xu, S L Lu. A fast novel soft-start circuit for peak current-mode DC-DC buck converters[J]. J. Semicond., 2013, 34(2): 025006. doi: 10.1088/1674-4926/34/2/025006.
      shu

      A fast novel soft-start circuit for peak current-mode DC-DC buck converters

      DOI: 10.1088/1674-4926/34/2/025006

      • National ASIC System Engineering Research Center, Southeast University, Nanjing 210096, China

      Funds:

      the Natural Science Foundation of Jiangsu, China BK2011059

      the Qing Lan Project. 

      the Program for New Century Excellent Talents in University NCET-10-0331

      Project supported by the Natural Science Foundation of Jiangsu, China (No. BK2011059), the Program for New Century Excellent Talents in University (NCET-10-0331), and the Qing Lan Project

      More Information
      • Corresponding author: Yang Miao, Email:myron@seu.edu.cn
      • Received Date: 2012-06-21
      • Revised Date: 2012-09-11
      • Published Date: 2013-02-01

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