一種高效無感AC/DC開關電源拓撲結構
2020年電子技術應用第9期
崔俊國
蕪湖銳芯電子科技有限公司,上海201199
摘要: 提出一種高效率無電感的AC/DC開關電源拓撲結構。通過對中間儲能電容放電電壓(放電時間)最終值的控制,實現對該儲能電容充電電壓(充電時間)的控制,進而實現AC周期內的輸出端穩壓恒流。在中間儲能電容充放電過程中,AC輸入能量通過中間儲能電容直接傳輸給負載端;同時中間儲能電容充電階段存儲的能量在中間儲能電容放電階段也全部傳輸給負載端,從而提高了AC能量傳輸效率,進而提高了整個電路的效率。在中間儲能電容充放電過程中,AC輸入電壓的時間變化率決定中間儲能電容的充放電電流瞬時值,進而決定了輸入電流瞬時值。
中圖分類號: TN86
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.200247
中文引用格式: 崔俊國. 一種高效無感AC/DC開關電源拓撲結構[J].電子技術應用,2020,46(9):114-117.
英文引用格式: Cui Junguo. A high efficiency AC/DC switching mode power supply topology without inductor[J]. Application of Electronic Technique,2020,46(9):114-117.
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.200247
中文引用格式: 崔俊國. 一種高效無感AC/DC開關電源拓撲結構[J].電子技術應用,2020,46(9):114-117.
英文引用格式: Cui Junguo. A high efficiency AC/DC switching mode power supply topology without inductor[J]. Application of Electronic Technique,2020,46(9):114-117.
A high efficiency AC/DC switching mode power supply topology without inductor
Cui Junguo
Wuhu Risingchip Electronic Technology,Co.,Ltd,Shanghai 201209,China
Abstract: This paper presents a high efficiency AC/DC switching power supply topology without inductor. Through the control of the final discharging voltage(discharge time) of the energy-storage capacitor, the initial charging voltage of the capacitor is controlled. So the output load can get the constant voltage or constant current. In the charging and discharging process of the energy-storage capacitor, the AC input energy is directly transmitted to the load terminal through the energy-storage capacitor. At the same time, the energy stored in the energy-storage capacitor is fully transferred to the load terminal. So this topology transition efficiency is high. In the charging and discharging process of the energy-storage capacitor, the rate of the AC input voltage determines the instantaneous value of the charging and discharging current of the energy-storage capacitor, and then determines the instantaneous value of the input current.
Key words : high efficiency;switching mode power supply;non-inductor
0 引言
近年來,開關電源由于具有效率高、體積小、重量輕等許多優點而被廣泛應用于通信、家電、電子、電氣、能源、航空航天等領域[1-2]。大多開關電源采用了變壓器(電感)、功率半導體器件、電容和控制集成電路作為核心器件[3],其中電感和變壓器是開關電源中少數不能標準化的器件之一[4],以用戶定制生產為主,屬于勞動密集型產業。
鑒于這一現狀,本文提出一種高效率無電感的AC/DC開關電源拓撲結構及其控制方法,該AC/DC電源電路在交流電源電壓幅值高于中間儲能電容電壓與負載電壓之和時,交流電源對中間儲能電容充電并向負載提供能量;在交流電源電壓幅值低于中間儲能電容電壓與負載電壓之和,并且交流電源電壓幅值高于負載電壓與中間儲能電容電壓之差時,交流電源與中間儲能電容共同向負載提供能量,中間儲能電容放電。控制中間儲能電容放電電壓的幅值或放電時間,可實現輸出端穩壓恒流。本文電路功率器件開關損耗低,轉換效率高,并有較好的抗雷擊浪涌的能力。最后用原理樣機驗證了本電路效率高達94%。
本文詳細內容請下載:http://www.xxav2194.com/resource/share/2000002998
作者信息:
崔俊國
(蕪湖銳芯電子科技有限公司,上海201199)
此內容為AET網站原創,未經授權禁止轉載。