基于UCC1895移相全橋電源的設計
2022年電子技術應用第9期
林 杰,馬文超
中國電子科技集團公司第五十八研究所,江蘇 無錫214035
摘要: 移相全橋拓撲因為能夠實現真正的軟開關,降低高頻下的開關損耗,得到了越來越廣泛的應用。研制了基于UCC1895的300 W移相全橋電源,介紹了其電路結構和軟開關的實現原理,說明了主電路的設計過程以及關鍵器件的選型依據。利用低側單通道驅動芯片和隔離變壓器解決了UCC1895驅動能力不足和全橋上下管驅動隔離的問題。通過對仿真波形和試驗數據的分析證明了整體方案的合理性。
中圖分類號: TN624
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.212437
中文引用格式: 林杰,馬文超. 基于UCC1895移相全橋電源的設計[J].電子技術應用,2022,48(9):140-144.
英文引用格式: Lin Jie, Ma Wenchao. Design of phase shifted full bridge power supply based on UCC1895[J]. Application of Electronic Technique,2022,48(9):140-144.
文獻標識碼: A
DOI:10.16157/j.issn.0258-7998.212437
中文引用格式: 林杰,馬文超. 基于UCC1895移相全橋電源的設計[J].電子技術應用,2022,48(9):140-144.
英文引用格式: Lin Jie, Ma Wenchao. Design of phase shifted full bridge power supply based on UCC1895[J]. Application of Electronic Technique,2022,48(9):140-144.
Design of phase shifted full bridge power supply based on UCC1895
Lin Jie, Ma Wenchao
The N0.58 Research Institute of China Electronic Technology Group Corp, Wuxi 214035, China
Abstract: Phase shifted full bridge topology has been more and more widely used because it can realize real soft switching and reduce switching loss at high frequency. A 300 W phase shifted full bridge power supply based on UCC1895 is presented. Its circuit structure and the implementation principle of soft switching are introduced. The design process of the main circuit and the selection basis of key components are explained. The problems of insufficient driving capacity of UCC1895 and driving isolation of upper and lower MOS of the full bridge are solved by using low side single channel driving chip and isolation transformer. Through the analysis of simulation waveform and test data, the rationality of the overall scheme is proved.
Key words : soft switching; phase shifted full bridge; UCC1895
0 引言
隨著開關電源對功率密度的要求越來越高,提高開關頻率,減小磁性器件的體積和重量成為一條最重要的途徑。但是伴隨著開關頻率地逐步提高,一方面,功率管硬開關帶來的開關損耗會導致器件的發熱嚴重,從而迫使工程師增加散熱器件的面積;另一方面,硬開關還會導致功率管在開關過程中承受更大的電壓應力,同時還會產生高頻振蕩,這會加劇電磁噪聲的問題[1],工程中通常會使用更多的濾波電感和電容來應對[2],導致電源體積和重量增大,這嚴重制約了開關電源高頻化的發展[3-4]。
為了解決這些問題,軟開關技術應運而生。移相全橋就是其中一種可以實現零電壓開關的軟開關拓撲,相比于其他軟開關拓撲,移相全橋具有功率等級高,輸入輸出隔離等優勢。
本文詳細內容請下載:http://m.jysgc.com/resource/share/2000004939。
作者信息:
林 杰,馬文超
(中國電子科技集團公司第五十八研究所,江蘇 無錫214035)
此內容為AET網站原創,未經授權禁止轉載。