航空电子技术
航空電子技術
항공전자기술
AVIONICS TECHNOLOGY
2013年
3期
36-38,51
,共4页
冗余电源%并联技术%场效应晶体管(MOSFET )
冗餘電源%併聯技術%場效應晶體管(MOSFET )
용여전원%병련기술%장효응정체관(MOSFET )
redundancy power supply%parallel control%metal-oxide-semiconductor field-effect-transistor (MOSFET)
冗余电源技术不仅可以提高电源系统的容量,还能提高系统的可靠性。本文对传统冗余电源的方案和新型的代替方案进行了介绍,并分析了他们的优缺点。着重介绍了MAX8536在冗余电源技术中的工作原理,根据其典型应用电路进行设计与实验,实验结果表明在减小损耗,散热,隔离等问题上取得了明显的改善。
冗餘電源技術不僅可以提高電源繫統的容量,還能提高繫統的可靠性。本文對傳統冗餘電源的方案和新型的代替方案進行瞭介紹,併分析瞭他們的優缺點。著重介紹瞭MAX8536在冗餘電源技術中的工作原理,根據其典型應用電路進行設計與實驗,實驗結果錶明在減小損耗,散熱,隔離等問題上取得瞭明顯的改善。
용여전원기술불부가이제고전원계통적용량,환능제고계통적가고성。본문대전통용여전원적방안화신형적대체방안진행료개소,병분석료타문적우결점。착중개소료MAX8536재용여전원기술중적공작원리,근거기전형응용전로진행설계여실험,실험결과표명재감소손모,산열,격리등문제상취득료명현적개선。
Redundancy power supply can not only enhance system capacity , but also improve system reliability. Traditional scheme and novel scheme are introduced in this paper, and both of the advantages and disadvantages are analyzed. The principle of MAX8536 in redundancy power supply is emphasized. It is designed and tested through a typical application circuit, and test results show that the power and heat dissipation, fault isolation are obviously improved in redundancy power supply.
