Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination
The series-series compensation topology is widely adopted in many wireless power transfer applications. For such systems, their wireless power receiver part typically involves a DC-DC converter with front-stage full-bridge diode rectifier, to process the high-frequency transmitted AC power into a...
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sg-ntu-dr.10356-1604832022-08-02T05:37:29Z Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination Li, Kerui Tan, Siew-Chong Hui, Ron Shu-Yuen School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Dynamic Response Wireless Power Receiver The series-series compensation topology is widely adopted in many wireless power transfer applications. For such systems, their wireless power receiver part typically involves a DC-DC converter with front-stage full-bridge diode rectifier, to process the high-frequency transmitted AC power into a DC output voltage for the load. It is recently reported that the current source nature of the series-series compensation will introduce right-half-plane (RHP) zeros into the small-signal transfer functions of the DC-DC converter of the wireless power receiver, which will severely affect the stability and dynamic response of the system. To resolve this issue, in this paper, it is proposed to adopt a different rectifier configuration for the system such that the input current to the DC-DC converter becomes controllable to eliminate the presence of RHP zeros of the small-signal transfer functions of the system. This rectifier can be applied to different wireless power receivers using the buck, buck-boost, or boost converters. As compared with the original wireless power receivers, the modified ones feature minimum-phase characteristics and hence ease the design of compensator. Theoretical and experimental results are provided. The comparative experimental results verify the elimination of the RHP zero, improved dynamic responses of reference tracking and against load disturbances, and a larger stability margin. 2022-07-25T06:09:56Z 2022-07-25T06:09:56Z 2021 Journal Article Li, K., Tan, S. & Hui, R. S. (2021). Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination. IEEE Transactions On Power Electronics, 36(10), 11196-11207. https://dx.doi.org/10.1109/TPEL.2021.3074324 0885-8993 https://hdl.handle.net/10356/160483 10.1109/TPEL.2021.3074324 2-s2.0-85104677901 10 36 11196 11207 en IEEE Transactions on Power Electronics © 2021 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Dynamic Response Wireless Power Receiver |
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Engineering::Electrical and electronic engineering Dynamic Response Wireless Power Receiver Li, Kerui Tan, Siew-Chong Hui, Ron Shu-Yuen Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination |
| description |
The series-series compensation topology is widely adopted in many wireless
power transfer applications. For such systems, their wireless power receiver
part typically involves a DC-DC converter with front-stage full-bridge diode
rectifier, to process the high-frequency transmitted AC power into a DC output
voltage for the load. It is recently reported that the current source nature of
the series-series compensation will introduce right-half-plane (RHP) zeros into
the small-signal transfer functions of the DC-DC converter of the wireless
power receiver, which will severely affect the stability and dynamic response
of the system. To resolve this issue, in this paper, it is proposed to adopt a
different rectifier configuration for the system such that the input current to
the DC-DC converter becomes controllable to eliminate the presence of RHP zeros
of the small-signal transfer functions of the system. This rectifier can be
applied to different wireless power receivers using the buck, buck-boost, or
boost converters. As compared with the original wireless power receivers, the
modified ones feature minimum-phase characteristics and hence ease the design
of compensator. Theoretical and experimental results are provided. The
comparative experimental results verify the elimination of the RHP zero,
improved dynamic responses of reference tracking and against load disturbances,
and a larger stability margin. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Li, Kerui Tan, Siew-Chong Hui, Ron Shu-Yuen |
| format |
Article |
| author |
Li, Kerui Tan, Siew-Chong Hui, Ron Shu-Yuen |
| author_sort |
Li, Kerui |
| title |
Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination |
| title_short |
Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination |
| title_full |
Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination |
| title_fullStr |
Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination |
| title_full_unstemmed |
Dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination |
| title_sort |
dynamic response and stability margin improvement of wireless power receiver systems via right-half-plane zero elimination |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160483 |
| _version_ |
1743119513708134400 |