This study proposes a design method for a rectifier circuit that can be rapidly charged by focusing on the design-load value of the circuit and the load fluctuation of a storage capacitor. The design-load value is suitable for rapidly charging the capacitor. It can be obtained at the lowest reflection condition and estimated according to the circuit design. This is a conventional method for designing the rectifier circuit using the optimum load. First, we designed rectifier circuits for the following three cases. The first circuit design uses a load set to 10 kΩ. The second design uses a load of 30 kΩ that is larger than the optimum load. The third design utilizes a load of 3 kΩ. Then, we measure the charging time to design the capacitor on each circuit. Consequently, the results show that the charge time could be shortened by employing the design-load value lower than that used in the conventional design. Finally, we discuss herein whether this design method can be applied regardless of the rectifier circuit topology.
Daiki FUJII
Toyohashi University of Technology
Masaya TAMURA
Toyohashi University of Technology
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Daiki FUJII, Masaya TAMURA, "Design Method for Differential Rectifier Circuit Capable of Rapidly Charging Storage Capacitor" in IEICE TRANSACTIONS on Electronics,
vol. E104-C, no. 7, pp. 355-362, July 2021, doi: 10.1587/transele.2020ECP5026.
Abstract: This study proposes a design method for a rectifier circuit that can be rapidly charged by focusing on the design-load value of the circuit and the load fluctuation of a storage capacitor. The design-load value is suitable for rapidly charging the capacitor. It can be obtained at the lowest reflection condition and estimated according to the circuit design. This is a conventional method for designing the rectifier circuit using the optimum load. First, we designed rectifier circuits for the following three cases. The first circuit design uses a load set to 10 kΩ. The second design uses a load of 30 kΩ that is larger than the optimum load. The third design utilizes a load of 3 kΩ. Then, we measure the charging time to design the capacitor on each circuit. Consequently, the results show that the charge time could be shortened by employing the design-load value lower than that used in the conventional design. Finally, we discuss herein whether this design method can be applied regardless of the rectifier circuit topology.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/transele.2020ECP5026/_p
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@ARTICLE{e104-c_7_355,
author={Daiki FUJII, Masaya TAMURA, },
journal={IEICE TRANSACTIONS on Electronics},
title={Design Method for Differential Rectifier Circuit Capable of Rapidly Charging Storage Capacitor},
year={2021},
volume={E104-C},
number={7},
pages={355-362},
abstract={This study proposes a design method for a rectifier circuit that can be rapidly charged by focusing on the design-load value of the circuit and the load fluctuation of a storage capacitor. The design-load value is suitable for rapidly charging the capacitor. It can be obtained at the lowest reflection condition and estimated according to the circuit design. This is a conventional method for designing the rectifier circuit using the optimum load. First, we designed rectifier circuits for the following three cases. The first circuit design uses a load set to 10 kΩ. The second design uses a load of 30 kΩ that is larger than the optimum load. The third design utilizes a load of 3 kΩ. Then, we measure the charging time to design the capacitor on each circuit. Consequently, the results show that the charge time could be shortened by employing the design-load value lower than that used in the conventional design. Finally, we discuss herein whether this design method can be applied regardless of the rectifier circuit topology.},
keywords={},
doi={10.1587/transele.2020ECP5026},
ISSN={1745-1353},
month={July},}
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TY - JOUR
TI - Design Method for Differential Rectifier Circuit Capable of Rapidly Charging Storage Capacitor
T2 - IEICE TRANSACTIONS on Electronics
SP - 355
EP - 362
AU - Daiki FUJII
AU - Masaya TAMURA
PY - 2021
DO - 10.1587/transele.2020ECP5026
JO - IEICE TRANSACTIONS on Electronics
SN - 1745-1353
VL - E104-C
IS - 7
JA - IEICE TRANSACTIONS on Electronics
Y1 - July 2021
AB - This study proposes a design method for a rectifier circuit that can be rapidly charged by focusing on the design-load value of the circuit and the load fluctuation of a storage capacitor. The design-load value is suitable for rapidly charging the capacitor. It can be obtained at the lowest reflection condition and estimated according to the circuit design. This is a conventional method for designing the rectifier circuit using the optimum load. First, we designed rectifier circuits for the following three cases. The first circuit design uses a load set to 10 kΩ. The second design uses a load of 30 kΩ that is larger than the optimum load. The third design utilizes a load of 3 kΩ. Then, we measure the charging time to design the capacitor on each circuit. Consequently, the results show that the charge time could be shortened by employing the design-load value lower than that used in the conventional design. Finally, we discuss herein whether this design method can be applied regardless of the rectifier circuit topology.
ER -