Limit Cycle Oscillation Reduction for Digital Low Dropout Regulators

Mo Huang; Yan Lu; Sai-Weng Sin; Seng-Pan U; Rui P. Martins; Wing-Hung Ki

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Limit Cycle Oscillation Reduction for Digital Low Dropout Regulators

机译：数字低压差稳压器的极限环振荡减小

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摘要

The digital low dropout regulator (D-LDO) has drawn significant attention recently for its low-voltage operation and process-scalability. However, the D-LDO inherently suffers from limit cycle oscillation (LCO). To address this issue, the modes and amplitudes of LCO are calculated in this work and verified by SPICE simulation in a 65-nm CMOS process. An LCO reduction technique for the D-LDO is then proposed, by adding two unit power transistors in parallel with the main power MOS array as a feedforward path. This technique sets the LCO mode to 1 and effectively reduces the ripple amplitude for a wide (0.5-20 mA) load current range. When compared with the dead-zone scheme, this technique minimizes LCO with negligible circuit complexity and design difficulty.

机译：数字低压差稳压器（D-LDO）最近因其低压操作和过程可扩展性而引起了广泛关注。然而，D-LDO固有地遭受极限循环振荡（LCO）。为了解决这个问题，在这项工作中计算了LCO的模式和幅度，并在65 nm CMOS工艺中通过SPICE仿真进行了验证。然后，通过添加与主功率MOS阵列并联的两个单位功率晶体管作为前馈路径，提出了D-LDO的LCO降低技术。该技术将LCO模式设置为1，并有效地减小了宽（0.5-20 mA）负载电流范围内的纹波幅度。与死区方案相比，该技术以可忽略的电路复杂度和设计难度将LCO降至最低。

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《IEEE transactions on circuits and systems. II, Express briefs》 |2016年第9期|903-907|共5页
作者
Mo Huang; Yan Lu; Sai-Weng Sin; Seng-Pan U; Rui P. Martins; Wing-Hung Ki;
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作者单位

State Key Laboratory of Analog and Mixed-Signal VLSI, University of Macau, Macau, China;

State Key Laboratory of Analog and Mixed-Signal VLSI, University of Macau, Macau, China;

State Key Laboratory of Analog and Mixed-Signal VLSI and FST-ECE, University of Macau, Macau, China;

State Key Laboratory of Analog and Mixed-Signal VLSI and FST-ECE, University of Macau, Macau, China;

State Key Laboratory of Analog and Mixed-Signal VLSI and FST-ECE, Instituto Superior Técnico, University of Macau, Universidade de Lisboa, Macau, Lisboa, ChinaPortugal;

Department of Electrical and Computer Engineering, Hong Kong University of Science and Technology, Hong Kong;

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正文语种 eng
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关键词
Power transistors; Bidirectional control; Shift registers; Steady-state; Delays; Limit-cycles; Oscillators;

机译：功率晶体管双向控制移位寄存器稳态延迟极限周期振荡器;

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2. All-Digital Low-Dropout Regulator With Adaptive Control and Reduced Dynamic Stability for Digital Load Circuits [J] . Saad Bin Nasir, Samantak Gangopadhyay, Arijit Raychowdhury IEEE Transactions on Power Electronics . 2016,第12期

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3. A 32 nm Embedded, Fully-Digital, Phase-Locked Low Dropout Regulator for Fine Grained Power Management in Digital Circuits [J] . Gangopadhyay S., Somasekhar D., Tschanz J.W., Solid-State Circuits, IEEE Journal of . 2014,第11期

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4. A High-Accuracy Digital Low-Dropout Regulator with Limit Cycle Oscillation Reduction Technique [C] . Hongda Zhang, Baodong Yu, Chongfei Shen, IEEE International Conference on Integrated Circuits, Technologies and Applications . 2019

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5. Techniques for digital low dropout regulator modeling and transient response enhancement. [D] . West, Paul. 2016

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6. Limit-cycle oscillations and chaos in reaction networks subject to conservation of mass. [O] . E Di Cera, P E Phillipson, J Wyman 1989

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7. CMOS fast-settling time low pass filter associated with voltage reference and current limiter for low dropout regulator [O] . Wonseok Oh, Praveen Nadimpalli, Dharma Kadam 2009

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Limit Cycle Oscillation Reduction for Digital Low Dropout Regulators

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