Formulation of PID Control for DC-DC Converters Based on Capacitor Current: A Geometric Context
The output voltage derivative term associated with a PID controller injects significant noise in a dc-dc converter. This is mainly due to the parasitic resistance and inductance of the output capacitor. Particularly, during a large-signal transient, noise injection significantly degrades phase margi...
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| Published in | IEEE transactions on power electronics Vol. 27; no. 3; pp. 1424 - 1432 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.03.2012
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0885-8993 1941-0107 |
| DOI | 10.1109/TPEL.2011.2164423 |
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| Abstract | The output voltage derivative term associated with a PID controller injects significant noise in a dc-dc converter. This is mainly due to the parasitic resistance and inductance of the output capacitor. Particularly, during a large-signal transient, noise injection significantly degrades phase margin. Although noise characteristics can be improved by reducing the cutoff frequency of the low-pass filter associated with the voltage derivative, this degrades the closed-loop bandwidth. A formulation of a PID controller is introduced to replace the output voltage derivative with information about the capacitor current, thus reducing noise injection. It is shown that this formulation preserves the fundamental principle of a PID controller and incorporates a load current feedforward, as well as inductor current dynamics. This can be helpful to further improve bandwidth and phase margin. The proposed method is shown to be equivalent to a voltage-mode-controlled buck converter and a current-mode-controlled boost converter with a PID controller in the voltage feedback loop. A buck converter prototype is tested, and the proposed algorithm is implemented using a field-programmable gate array. |
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| AbstractList | The output voltage derivative term associated with a PID controller injects significant noise in a dc-dc converter. This is mainly due to the parasitic resistance and inductance of the output capacitor. Particularly, during a large-signal transient, noise injection significantly degrades phase margin. Although noise characteristics can be improved by reducing the cutoff frequency of the low-pass filter associated with the voltage derivative, this degrades the closed-loop bandwidth. A formulation of a PID controller is introduced to replace the output voltage derivative with information about the capacitor current, thus reducing noise injection. It is shown that this formulation preserves the fundamental principle of a PID controller and incorporates a load current feedforward, as well as inductor current dynamics. This can be helpful to further improve bandwidth and phase margin. The proposed method is shown to be equivalent to a voltage-mode-controlled buck converter and a current-mode-controlled boost converter with a PID controller in the voltage feedback loop. A buck converter prototype is tested, and the proposed algorithm is implemented using a field-programmable gate array. [PUBLICATION ABSTRACT] The output voltage derivative term associated with a PID controller injects significant noise in a dc-dc converter. This is mainly due to the parasitic resistance and inductance of the output capacitor. Particularly, during a large-signal transient, noise injection significantly degrades phase margin. Although noise characteristics can be improved by reducing the cutoff frequency of the low-pass filter associated with the voltage derivative, this degrades the closed-loop bandwidth. A formulation of a PID controller is introduced to replace the output voltage derivative with information about the capacitor current, thus reducing noise injection. It is shown that this formulation preserves the fundamental principle of a PID controller and incorporates a load current feedforward, as well as inductor current dynamics. This can be helpful to further improve bandwidth and phase margin. The proposed method is shown to be equivalent to a voltage-mode-controlled buck converter and a current-mode-controlled boost converter with a PID controller in the voltage feedback loop. A buck converter prototype is tested, and the proposed algorithm is implemented using a field-programmable gate array. |
| Author | Krein, P. T. Kapat, S. |
| Author_xml | – sequence: 1 givenname: S. surname: Kapat fullname: Kapat, S. email: santanu.kapat@ieee.org organization: Dept. of Electr. Eng., Indian Inst. of Technol., Kharagpur, India – sequence: 2 givenname: P. T. surname: Krein fullname: Krein, P. T. email: krein@illinois.edu organization: Dept. of Electr. & Comput. Eng., Univ. of Illinois at Urbana-Champaign, Urbana, IL, USA |
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| Keywords | Power converter geometric surface derivative gain Inductor Voltage control Cut off frequency Inductance Current mode Output voltage Bandwidth Feedforward Voltage mode Mode conversion noise injection Closed loop Up converter Direct current convertor Large signal behavior Power electronics Current control Step down convertor DC-DC converter PID control formulation Parasitic resistance Low pass filter Capacitor Differential integral proportional control |
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| References | ref13 ref12 ref15 ref14 ref11 ref10 ref2 ref16 ref19 burns (ref18) 1977 (ref3) 0 ref23 ref26 krein (ref17) 1998 ref25 ref20 ref22 odwyer (ref24) 2009 ref21 guo (ref1) 2002 ref8 ref7 ref9 ref4 ref6 ref5 |
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| SubjectTerms | Algorithms Applied sciences Capacitors Circuit properties DC-DC converter derivative gain Dielectric, amorphous and glass solid devices Electric currents Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electrical equipment Electrical machines Electronic circuits Electronics Exact sciences and technology Frequency filters geometric surface Inductors Integrated circuits Load Noise noise injection PID control formulation Prototypes Regulation and control Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices Signal convertors Switches Transient analysis Voltage control |
| Title | Formulation of PID Control for DC-DC Converters Based on Capacitor Current: A Geometric Context |
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