A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach
A voltage mode DCM boost converter with a square-root voltage mode (SRVM) controller featuring analogue processing is proposed. The controller utilizes as a key parameter the square-root value of the instantaneous load current to obtain pulse-width modulated (PWM) control signals. As a result, no co...
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sg-ntu-dr.10356-1521302021-07-22T08:07:31Z A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach Luo, Hao Siek, Liter School of Electrical and Electronic Engineering 2017 IEEE International Symposium on Circuits and Systems (ISCAS) EDB Broadcom VIRTUS, IC Design Centre of Excellence Engineering::Electrical and electronic engineering Boost Converter Load Transient A voltage mode DCM boost converter with a square-root voltage mode (SRVM) controller featuring analogue processing is proposed. The controller utilizes as a key parameter the square-root value of the instantaneous load current to obtain pulse-width modulated (PWM) control signals. As a result, no compensation circuits are needed. The output ripples are 0.42% out of the steady-state output of 3 V according to simulation results. Output overshoots of 3 mV with 4 μs recovery time are observed during step-down load transients between 40 and 0 mA in 100 ns. Correspondingly, output undershoots during step-up load transients are less than 10.8 mV with a recovery time of 8.9 μs. The boost converter can start up from its 0.9-V input autonomously based on a proposed two-phase start-up control scheme. In addition, a novel signal boosting technique is presented to ensure gate driving voltages for MOSFET switches as high as attainable to minimize the conduction losses. At the steady state, the boost converter operates with a fixed 1-MHz switching frequency with a 1 μH inductor and a 10 μF capacitor with the maximum load current of 40 mA. Economic Development Board (EDB) The author would express gratitude for the scholarship provided by Broadcom Ltd. for this research work as well as meaningful questions and suggestions from Mr. Low Khim Leng and his PMU team in Broadcom Ltd. towards finalizing the design. 2021-07-22T08:07:31Z 2021-07-22T08:07:31Z 2017 Conference Paper Luo, H. & Siek, L. (2017). A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach. 2017 IEEE International Symposium on Circuits and Systems (ISCAS). https://dx.doi.org/10.1109/ISCAS.2017.8050653 978-146736852-0 02714310 https://hdl.handle.net/10356/152130 10.1109/ISCAS.2017.8050653 en © 2017 Institute of Electrical and Electronics Engineers (IEEE). All rights reserved. |
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Engineering::Electrical and electronic engineering Boost Converter Load Transient |
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Engineering::Electrical and electronic engineering Boost Converter Load Transient Luo, Hao Siek, Liter A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach |
| description |
A voltage mode DCM boost converter with a square-root voltage mode (SRVM) controller featuring analogue processing is proposed. The controller utilizes as a key parameter the square-root value of the instantaneous load current to obtain pulse-width modulated (PWM) control signals. As a result, no compensation circuits are needed. The output ripples are 0.42% out of the steady-state output of 3 V according to simulation results. Output overshoots of 3 mV with 4 μs recovery time are observed during step-down load transients between 40 and 0 mA in 100 ns. Correspondingly, output undershoots during step-up load transients are less than 10.8 mV with a recovery time of 8.9 μs. The boost converter can start up from its 0.9-V input autonomously based on a proposed two-phase start-up control scheme. In addition, a novel signal boosting technique is presented to ensure gate driving voltages for MOSFET switches as high as attainable to minimize the conduction losses. At the steady state, the boost converter operates with a fixed 1-MHz switching frequency with a 1 μH inductor and a 10 μF capacitor with the maximum load current of 40 mA. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Luo, Hao Siek, Liter |
| format |
Conference or Workshop Item |
| author |
Luo, Hao Siek, Liter |
| author_sort |
Luo, Hao |
| title |
A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach |
| title_short |
A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach |
| title_full |
A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach |
| title_fullStr |
A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach |
| title_full_unstemmed |
A 0.9-V input PWM DCM boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (SRVM) control approach |
| title_sort |
0.9-v input pwm dcm boost converter with low output ripples and fast load transient response based on a novel square-root voltage mode (srvm) control approach |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/152130 |
| _version_ |
1707050436497768448 |