A fast transient response DC-DC converter with an active compensation capacitor module
An active capacitor module is proposed to be implemented as a dynamic compensation capacitor at the output of the operational transconductance amplifier (OTA) to improve the load transient response of a DC-DC converter. To enhance the response speed during transient event, an active compensation cap...
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sg-ntu-dr.10356-1521152021-07-19T08:51:46Z A fast transient response DC-DC converter with an active compensation capacitor module Zhou, Mi Sun, Zhuochao Xiao, Zhekai Low, Qiongwei Siek, Liter School of Electrical and Electronic Engineering 2018 IEEE International Symposium on Circuits and Systems (ISCAS) EDB A*STAR Maxim Integrated VIRTUS, IC Design Centre of Excellence Engineering::Electrical and electronic engineering DC-DC Converter Fast Transient Response An active capacitor module is proposed to be implemented as a dynamic compensation capacitor at the output of the operational transconductance amplifier (OTA) to improve the load transient response of a DC-DC converter. To enhance the response speed during transient event, an active compensation capacitor module (ACM) is adopted to instantly reduce the capacitance of the compensation capacitor. Compared to the traditional approaches by increasing the transconductance gm of the OTA which introduce higher power consumption, the proposed ACM is more power efficient and it also occupies seven times smaller footprint than the large passive compensation capacitor in this work. A current-mode buck DC-DC converter with an ACM is implemented in 0.18 μim CMOS process and simulated across different process corners. Post-layout simulation results show an excellent load regulation of 0.008 mV/mA during load current variations from 50 μA to 1 A in 1 μs, and the proposed converter is working excellently under different load current steps. Output overshoot/undershoot voltages of 15 mV/22.8 mV with 5.9 μs/6 μs recovery time and 29.5 mV/47.5 mV with 8.8 μs/7.2 μs recovery time are obtained under 0.5 A load current step and 1 A load current step respectively from the simulation. Compared with the conventional converter without ACM, the output overshoot/undershoot voltage and recovery time are approximately reduced by twice and five times respectively. Agency for Science, Technology and Research (A*STAR) Economic Development Board (EDB) Nanyang Technological University The authors would like to acknowledge the funding support from NTU-A*STAR Silicon Technologies Centre of Excellence under the program grant No. 11235100003. 2021-07-19T08:51:46Z 2021-07-19T08:51:46Z 2018 Conference Paper Zhou, M., Sun, Z., Xiao, Z., Low, Q. & Siek, L. (2018). A fast transient response DC-DC converter with an active compensation capacitor module. 2018 IEEE International Symposium on Circuits and Systems (ISCAS). https://dx.doi.org/10.1109/ISCAS.2018.8351680 978-1-5386-4882-7 2379-447X https://hdl.handle.net/10356/152115 10.1109/ISCAS.2018.8351680 en © 2018 Institute of Electrical and Electronics Engineers (IEEE). All rights reserved. |
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Engineering::Electrical and electronic engineering DC-DC Converter Fast Transient Response |
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Engineering::Electrical and electronic engineering DC-DC Converter Fast Transient Response Zhou, Mi Sun, Zhuochao Xiao, Zhekai Low, Qiongwei Siek, Liter A fast transient response DC-DC converter with an active compensation capacitor module |
| description |
An active capacitor module is proposed to be implemented as a dynamic compensation capacitor at the output of the operational transconductance amplifier (OTA) to improve the load transient response of a DC-DC converter. To enhance the response speed during transient event, an active compensation capacitor module (ACM) is adopted to instantly reduce the capacitance of the compensation capacitor. Compared to the traditional approaches by increasing the transconductance gm of the OTA which introduce higher power consumption, the proposed ACM is more power efficient and it also occupies seven times smaller footprint than the large passive compensation capacitor in this work. A current-mode buck DC-DC converter with an ACM is implemented in 0.18 μim CMOS process and simulated across different process corners. Post-layout simulation results show an excellent load regulation of 0.008 mV/mA during load current variations from 50 μA to 1 A in 1 μs, and the proposed converter is working excellently under different load current steps. Output overshoot/undershoot voltages of 15 mV/22.8 mV with 5.9 μs/6 μs recovery time and 29.5 mV/47.5 mV with 8.8 μs/7.2 μs recovery time are obtained under 0.5 A load current step and 1 A load current step respectively from the simulation. Compared with the conventional converter without ACM, the output overshoot/undershoot voltage and recovery time are approximately reduced by twice and five times respectively. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhou, Mi Sun, Zhuochao Xiao, Zhekai Low, Qiongwei Siek, Liter |
| format |
Conference or Workshop Item |
| author |
Zhou, Mi Sun, Zhuochao Xiao, Zhekai Low, Qiongwei Siek, Liter |
| author_sort |
Zhou, Mi |
| title |
A fast transient response DC-DC converter with an active compensation capacitor module |
| title_short |
A fast transient response DC-DC converter with an active compensation capacitor module |
| title_full |
A fast transient response DC-DC converter with an active compensation capacitor module |
| title_fullStr |
A fast transient response DC-DC converter with an active compensation capacitor module |
| title_full_unstemmed |
A fast transient response DC-DC converter with an active compensation capacitor module |
| title_sort |
fast transient response dc-dc converter with an active compensation capacitor module |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/152115 |
| _version_ |
1707050399937069056 |