Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional Solenoid
As the traditional power drive circuit is difficult to meet the requests of high-power high-frequency proportional solenoid fast drive, this paper proposes a push-pull energy storage pulse width modulation (PWM) power drive circuit. The circuit is equipped with an energy storage module, which releas...
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Format: | Article |
Language: | English |
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IEEE
2023-01-01
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Series: | IEEE Access |
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Online Access: | https://ieeexplore.ieee.org/document/10099454/ |
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author | Yan Qiang Dandan Yang Lin Wang Zhihang Du Liejiang Wei |
author_facet | Yan Qiang Dandan Yang Lin Wang Zhihang Du Liejiang Wei |
author_sort | Yan Qiang |
collection | DOAJ |
description | As the traditional power drive circuit is difficult to meet the requests of high-power high-frequency proportional solenoid fast drive, this paper proposes a push-pull energy storage pulse width modulation (PWM) power drive circuit. The circuit is equipped with an energy storage module, which releases energy when the proportional solenoid coil is charged, supplements the output of the power supply current, and shortens the arrival time of the steady-state current. When the coil is discharged, it recovers energy and shortens the time for the coil current to return to zero. In this paper, a theoretical model of push-pull energy storage power drive circuit is established, and simulation analysis and experimental verification are carried out for a proportional solenoid coil with rated current of 3.3A and power of 79W. The results show that the push-pull storage PWM power drive has excellent input-output linearity, minimal ripple, and good steady-state current output performance. Compared with the traditional single switch and reverse discharging power drives, the coil charging speed under the push-pull energy storage type power drive is increased by 25%, and the discharge speed is increased by 95% and 45% respectively. |
first_indexed | 2024-04-09T14:14:33Z |
format | Article |
id | doaj.art-c9458b7b699c4d6db6407a92a086d31f |
institution | Directory Open Access Journal |
issn | 2169-3536 |
language | English |
last_indexed | 2024-04-09T14:14:33Z |
publishDate | 2023-01-01 |
publisher | IEEE |
record_format | Article |
series | IEEE Access |
spelling | doaj.art-c9458b7b699c4d6db6407a92a086d31f2023-05-05T23:00:28ZengIEEEIEEE Access2169-35362023-01-0111426314264310.1109/ACCESS.2023.326665410099454Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional SolenoidYan Qiang0Dandan Yang1https://orcid.org/0000-0001-8637-6575Lin Wang2Zhihang Du3Liejiang Wei4https://orcid.org/0000-0001-9584-0077Energy and Power Engineering College, Lanzhou University of Technology, Qilihe, Lanzhou, Gansu, ChinaEnergy and Power Engineering College, Lanzhou University of Technology, Qilihe, Lanzhou, Gansu, ChinaEnergy and Power Engineering College, Lanzhou University of Technology, Qilihe, Lanzhou, Gansu, ChinaEnergy and Power Engineering College, Lanzhou University of Technology, Qilihe, Lanzhou, Gansu, ChinaEnergy and Power Engineering College, Lanzhou University of Technology, Qilihe, Lanzhou, Gansu, ChinaAs the traditional power drive circuit is difficult to meet the requests of high-power high-frequency proportional solenoid fast drive, this paper proposes a push-pull energy storage pulse width modulation (PWM) power drive circuit. The circuit is equipped with an energy storage module, which releases energy when the proportional solenoid coil is charged, supplements the output of the power supply current, and shortens the arrival time of the steady-state current. When the coil is discharged, it recovers energy and shortens the time for the coil current to return to zero. In this paper, a theoretical model of push-pull energy storage power drive circuit is established, and simulation analysis and experimental verification are carried out for a proportional solenoid coil with rated current of 3.3A and power of 79W. The results show that the push-pull storage PWM power drive has excellent input-output linearity, minimal ripple, and good steady-state current output performance. Compared with the traditional single switch and reverse discharging power drives, the coil charging speed under the push-pull energy storage type power drive is increased by 25%, and the discharge speed is increased by 95% and 45% respectively.https://ieeexplore.ieee.org/document/10099454/High powerhigh responseproportional solenoidpush-pull energy storagepower drive |
spellingShingle | Yan Qiang Dandan Yang Lin Wang Zhihang Du Liejiang Wei Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional Solenoid IEEE Access High power high response proportional solenoid push-pull energy storage power drive |
title | Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional Solenoid |
title_full | Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional Solenoid |
title_fullStr | Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional Solenoid |
title_full_unstemmed | Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional Solenoid |
title_short | Research on Push-Pull Energy Storage PWM Power Drive of High-Power High-Response Proportional Solenoid |
title_sort | research on push pull energy storage pwm power drive of high power high response proportional solenoid |
topic | High power high response proportional solenoid push-pull energy storage power drive |
url | https://ieeexplore.ieee.org/document/10099454/ |
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