Design of Hybrid Power Supply System With Energy Regulation Capability for Hand-Held Tools

This paper proposes a hybrid power supply system design and control strategies to enhance the energy regulation capability. This study is motivated because some connected loads such as brushless dc motor-driven circuit which may need a significant output current supplied by the battery power, possib...

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Veröffentlicht in:	IEEE transactions on industrial electronics (1982) 2017-02, Vol.64 (2), p.1148-1156
Hauptverfasser:	Huang, Shyh-Jier, Huang, Kuan-Chieh, Hung, Te-Chun, Liu, Shih-Yu, Wen, Pin-Yuan, Lee, Tsong-Shing
Format:	Artikel
Sprache:	eng
Schlagworte:	Batteries Brushless motors Circuits Control systems design Electrical engineering Energy regulation Energy regulation capability Energy storage Hand tools hybrid power supply Hybrid power systems Hybrid systems Inductance Inductors integrated dc converter Magnetic flux Power dispatch Power supply Supercapacitors
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container_title	IEEE transactions on industrial electronics (1982)
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creator	Huang, Shyh-Jier Huang, Kuan-Chieh Hung, Te-Chun Liu, Shih-Yu Wen, Pin-Yuan Lee, Tsong-Shing
description	This paper proposes a hybrid power supply system design and control strategies to enhance the energy regulation capability. This study is motivated because some connected loads such as brushless dc motor-driven circuit which may need a significant output current supplied by the battery power, possibly leading to unexpected impacts and consequences. To cope with such energy supply problems, the utilization of supercapacitors is suggested as an energy buffer along with the leakage inductance for the energy storage. This is further aided by a controller design so as to perform a power dispatch to ensure a better energy regulation, by which those batteries sources can be more effectively protected. To validate this proposed method, both circuit analysis and hardware realization have been completed under different scenarios. Experimental results gained from these tests help support the effectiveness of the approach for hand-held tools applications.
doi_str_mv	10.1109/TIE.2016.2612165
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This study is motivated because some connected loads such as brushless dc motor-driven circuit which may need a significant output current supplied by the battery power, possibly leading to unexpected impacts and consequences. To cope with such energy supply problems, the utilization of supercapacitors is suggested as an energy buffer along with the leakage inductance for the energy storage. This is further aided by a controller design so as to perform a power dispatch to ensure a better energy regulation, by which those batteries sources can be more effectively protected. To validate this proposed method, both circuit analysis and hardware realization have been completed under different scenarios. 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This study is motivated because some connected loads such as brushless dc motor-driven circuit which may need a significant output current supplied by the battery power, possibly leading to unexpected impacts and consequences. To cope with such energy supply problems, the utilization of supercapacitors is suggested as an energy buffer along with the leakage inductance for the energy storage. This is further aided by a controller design so as to perform a power dispatch to ensure a better energy regulation, by which those batteries sources can be more effectively protected. To validate this proposed method, both circuit analysis and hardware realization have been completed under different scenarios. 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This study is motivated because some connected loads such as brushless dc motor-driven circuit which may need a significant output current supplied by the battery power, possibly leading to unexpected impacts and consequences. To cope with such energy supply problems, the utilization of supercapacitors is suggested as an energy buffer along with the leakage inductance for the energy storage. This is further aided by a controller design so as to perform a power dispatch to ensure a better energy regulation, by which those batteries sources can be more effectively protected. To validate this proposed method, both circuit analysis and hardware realization have been completed under different scenarios. Experimental results gained from these tests help support the effectiveness of the approach for hand-held tools applications.</abstract><cop>New York</cop><pub>IEEE</pub><doi>10.1109/TIE.2016.2612165</doi><tpages>9</tpages></addata></record>
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subjects	Batteries Brushless motors Circuits Control systems design Electrical engineering Energy regulation Energy regulation capability Energy storage Hand tools hybrid power supply Hybrid power systems Hybrid systems Inductance Inductors integrated dc converter Magnetic flux Power dispatch Power supply Supercapacitors
title	Design of Hybrid Power Supply System With Energy Regulation Capability for Hand-Held Tools
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