浙江大学学报(工学版)
浙江大學學報(工學版)
절강대학학보(공학판)
JOURNAL OF ZHEJIANG UNIVERSITY(ENGINEERING SCIENCE)
2015年
4期
740-748
,共9页
胡晨%吴新科%彭方正%钱照明
鬍晨%吳新科%彭方正%錢照明
호신%오신과%팽방정%전조명
L ED驱动器%反激%变压器级联%变压器原边串联
L ED驅動器%反激%變壓器級聯%變壓器原邊串聯
L ED구동기%반격%변압기급련%변압기원변천련
LED driver%flyback%cascade transformer%series transformer primary winding
提出两级变压器级联,后级多个变压器原边绕组串联的双路均流准谐振反激LED驱动器。通过将多个后级变压器的原边绕组串联,解决了传统的多变压器串联反激变流器中无法利用准谐振控制使电路工作于临界连续模式的问题,也解决了反激变流器将多个变压器串联工作于断续模式时只能实现各路输出功率相等而无法实现各路输出均流的问题。在设计后级变压器时,应考虑后级变压器的直流磁偏。给出根据输出电流偏差要求估算后级变压器励磁电感的方法,提出在二极管两端并联电容。利用该电容与后级变压器励磁电感谐振优化输出电流偏差的设计方法,既能够保证较小的输出电流偏差,还可以减小后级变压器所需的励磁电感,从而减小后级变压器所需磁芯规格,降低成本和损耗。研制一台100W两路输出反激LED驱动器样机,每路输出700mA,验证了理论分析的正确性。
提齣兩級變壓器級聯,後級多箇變壓器原邊繞組串聯的雙路均流準諧振反激LED驅動器。通過將多箇後級變壓器的原邊繞組串聯,解決瞭傳統的多變壓器串聯反激變流器中無法利用準諧振控製使電路工作于臨界連續模式的問題,也解決瞭反激變流器將多箇變壓器串聯工作于斷續模式時隻能實現各路輸齣功率相等而無法實現各路輸齣均流的問題。在設計後級變壓器時,應攷慮後級變壓器的直流磁偏。給齣根據輸齣電流偏差要求估算後級變壓器勵磁電感的方法,提齣在二極管兩耑併聯電容。利用該電容與後級變壓器勵磁電感諧振優化輸齣電流偏差的設計方法,既能夠保證較小的輸齣電流偏差,還可以減小後級變壓器所需的勵磁電感,從而減小後級變壓器所需磁芯規格,降低成本和損耗。研製一檯100W兩路輸齣反激LED驅動器樣機,每路輸齣700mA,驗證瞭理論分析的正確性。
제출량급변압기급련,후급다개변압기원변요조천련적쌍로균류준해진반격LED구동기。통과장다개후급변압기적원변요조천련,해결료전통적다변압기천련반격변류기중무법이용준해진공제사전로공작우림계련속모식적문제,야해결료반격변류기장다개변압기천련공작우단속모식시지능실현각로수출공솔상등이무법실현각로수출균류적문제。재설계후급변압기시,응고필후급변압기적직류자편。급출근거수출전류편차요구고산후급변압기려자전감적방법,제출재이겁관량단병련전용。이용해전용여후급변압기려자전감해진우화수출전류편차적설계방법,기능구보증교소적수출전류편차,환가이감소후급변압기소수적려자전감,종이감소후급변압기소수자심규격,강저성본화손모。연제일태100W량로수출반격LED구동기양궤,매로수출700mA,험증료이론분석적정학성。
A current sharing two‐output quasi‐resonant flyback LED driver with two stage transformers was proposed . The primary windings of the 2nd stage transformers were connected in series . In conventional flyback converter with transformer in series , the quasi‐resonant control was difficult to realize .The problem was solved by adding the 2nd stage transformer .Quasi‐resonant control could realize current sharing instead of power sharing between two outputs .When designing the 2nd stage transformer , the DC bias should be noticed . The estimation of the magnetizing inductor with given output current deviation was presented .The output current deviation could be reduced and the magnetizing inductor could be minimized by paralleling capacitor across the rectifying diodes and utilizing the resonant between capacitor across the rectifying diodes and magnetizing inductor of the 2nd stage transformers .A 100 W two‐channel output prototype with 700 mA/channel was built up to verify the theoretical analysis .