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1、开关电源拓朴结构分析,FAE NAME:CARY.CHEN,SZ2,2,电源的分类,什么是Power Supply?,Power Supply,负载,Vin,Iin,Power Supply是一种提供电力能源的设备,它可以将一种电力能源形式转换成另外一种电力能源形式,并能对其进行控制和调节。,上级电能形式,Vo,Io,f,phase,f,phase,根据转换的形式分类:AC/DC,DC/DC,DC/AC,AC/AC,根据转换的方法分类:线性电源,相控电源,开关电源,根据调控的效果分类:稳压,恒流,调频,调相,根据调控的方法分类:传统反馈控制,矢量控制,数位控制,3,开关电源的元件构成,开关电源
2、的基本元件:,有源开关(Switch),二极管(Diode),电感(Inductor),电容器(Capacitor),变压器(Transformer),4,三种基本的非隔离开关电源,Vo=Vin*D/(1-D),Vo=Vin*D,Vo=Vin/(1-D),VoVin,Bulk 降压型电路,VoVin,Boost 升压型电路,VoVin 当D0.5,buckboost 升降压型电路,5,三种基本的隔离开关电源,正激型变换器,反激型变换器,桥式变换器,6,反激变换器(Flyback)工作原理(电流连续模式),根据变压器的伏秒平衡:,7,反激变换器(Flyback)工作原理(电流断续模式),根据变压
3、器的伏秒平衡:,Vgs,ID,Vds,D,1-D,T,Io,Vin,Vin+nVo,Im,VL,Vin,-nVo,ID-p,-nVo,根据能量守恒:,8,反激变换器(Flyback)工作原理(1),Vr=?,9,反激变换器(Flyback)工作原理(2),Ploss=(Vc-Vin)2/R,Ploss=(Vc)2/R,10,反激变换器(Flyback)工作原理(3),Vo=?,根据Co在DT时间的基本方程:,11,反激变换器(Flyback)工作原理(4),多路输出的反激变换器:,减小交叉调整率的措施:尽量减少两个绕组之间的漏感。在辅助输出一路中加入尖峰抑制器(饱和电感)主路输出工作于电流连续
4、模式。采用双路加权反馈的控制方式,12,反激变换器(Flyback)特征总结,缺点:输出纹波电流大。输出控制特性非线性。通常需要辅助的吸收回路。转换效率较低。,优点:电路简单。输入电压范围广。容易实现多路输出。,13,谐振复位正激变换器(Resonant Reset Forward)(1),Io,n:1,Vin,Vo,Lo,G,DS,Vgs,IL,Vds,D,1-D,T,Ip,VL,Io,Vin/n-Vo,-Vo,Im,Vin,IL,IL,Lm,Lk,Cr,t0,t1,t2,t3,t4,Ip,t0,t1,t5,14,谐振复位正激变换器(Resonant Reset Forward)(2),Io
5、,n:1,Vin,Vo,L,G,DS,Vgs,IL,Vds,D,1-D,T,Ip,VL,Io,Vin/n-Vo,-Vo,Im,Vin,IL,IL,Lm,Lk,Cr,t0,t1,t2,t3,t4,Ip,t1,t2,t5,15,谐振复位正激变换器(Resonant Reset Forward)(3),Io,n:1,Vin,Vo,L,G,DS,Vgs,IL,Vds,D,1-D,T,Ip,VL,Io,Vin/n-Vo,-Vo,Im,Vin,IL,IL,Lm,Lk,Cr,t0,t1,t2,t3,t4,Ip,t2,t3,t5,16,谐振复位正激变换器(Resonant Reset Forward)(4),
6、Io,n:1,Vin,Vo,L,G,DS,Vgs,IL,Vds,D,1-D,T,Ip,VL,Io,Vin/n-Vo,-Vo,Im,Vin,IL,IL,Lm,Lk,Cr,t0,t1,t2,t3,t4,Ip,t3,t4,t5,Lm,Cr的选取原则:,17,谐振复位正激变换器(Resonant Reset Forward)(5),Io,n:1,Vin,Vo,L,G,DS,Vgs,IL,Vds,D,1-D,T,Ip,VL,Io,Vin/n-Vo,-Vo,Im,Vin,IL,IL,Lm,Lk,Cr,t0,t1,t2,t3,t4,Ip,t4,t5,t5,(Vin/n-Vo)DT=Vo(1-D)T,根据电感
7、的伏秒平衡:,Vo=VinD/n,18,谐振复位正激变换器(Resonant Reset Forward)特征,Vin,Vo,Cr,缺点:原边开管电压应力较高。谐振电容的损耗大。宽范围输入效率很难兼顾。,优点:电路简单。线性输出控制特性。不需要辅助的吸收回路。,Vin,Vo,Cr,Vin,Vo,Cr,19,有源钳位正激变换器(Active Clamped Forward)(1),Io,n:1,Vin,Vo,Lo,G,DS,Sa,IL,Vds,D,T,Ip,VT,Io,Vin/n,-Vc/n,Im,Vin,IL,IL,Lm,Lk,Cr,t0,t1,t2,t3,t4,Ip,t0,t1,t5,S1,
8、S1,Sa,1-D,+VT-,20,有源钳位正激变换器(Active Clamped Forward)(2),Io,n:1,Vin,Vo,Lo,G,DS,Sa,IL,Vds,D,Ip,VT,Io,Vin/n,-Vc/n,Im,Vin,IL,IL,Lm,Lk,-Vc+,t0,t1,t2,t3,t4,Ip,t1,t2,t5,S1,S1,Sa,1-D,+VT-,*副边电压的死区跟Lk和Io有关,跟原边开管的死区无关,21,有源钳位正激变换器(Active Clamped Forward)(3),Io,n:1,Vin,Vo,Lo,G,DS,Sa,IL,Vds,D,Ip,VT,Io,Vin/n,-Vc/
9、n,Im,Vin,IL,IL,Lm,Lk,-Vc+,t0,t1,t2,t3,t4,Ip,t2,t3,t5,S1,S1,Sa,1-D,+VT-,Sa在零电压条件下开通,*原边开管的死区时间需满足:,22,有源钳位正激变换器(Active Clamped Forward)(4),Io,n:1,Vin,Vo,Lo,G,DS,Sa,IL,Vds,D,Ip,VT,Io,Vin/n,-Vc/n,Im,Vin,IL,IL,Lm,Lk,-Vc+,t0,t1,t2,t3,t4,Ip,t3,t4,t5,S1,S1,1-D,+VT-,激磁电流反向,变压器被复位,23,有源钳位正激变换器(Active Clamped
10、 Forward)(5),Io,n:1,Vin,Vo,Lo,G,DS,Sa,IL,Vds,D,Ip,VT,Io,Vin/n,-Vc/n,Im,Vin,IL,IL,Lm,Lk,-Vc+,t0,t1,t2,t3,t4,Ip,t4,t5,t5,S1,S1,Sa,1-D,+VT-,激磁电流对主开关的输出电容放电。,t6=t0,24,有源钳位正激变换器(Active Clamped Forward)(6),Io,n:1,Vin,Vo,Lo,G,DS,Sa,IL,Vds,D,Ip,VT,Io,Vin/n,-Vc/n,Im,Vin,IL,IL,Lm,Lk,-Vc+,t0,t1,t2,t3,t4,Ip,t4,
11、t5,t5,S1,S1,Sa,1-D,+VT-,激磁电流对主开关的输出电容放电。,t6=t0,25,有源钳位正激变换器(Active Clamped Forward)(7),Io,n:1,Vin,Vo,Lo,G,DS,Sa,IL,Vds,D,Ip,VT,Io,Vin/n,-Vc/n,Im,Vin,IL,IL,Lm,Lk,-Vc+,t0,t1,t2,t3,t4,Ip,t5,t6,t5,S1,S1,Sa,1-D,+VT-,t5时刻副边二极管钳位主开关的输出电容放电结束。t6时刻新的周期开始,t6=t0,26,有源钳位正激变换器(Active Clamped Forward)(8),Io,n:1,V
12、in,Vo,Lo,G,DS,Sa,IL,Vds,D,Ip,VT,Io,Vin/n,-Vc/n,Im,Vin,IL,IL,Lm,Lk,-Vc+,t0,t1,t2,t3,t4,Ip,t5,S1,S1,Sa,1-D,+VT-,t6=t0,(Vin/n-Vo)DT=Vo(1-D)T,根据电感的伏秒平衡:,Vo=VinD/n,VinDT=Vc(1-D)T,根据变压器的伏秒平衡:,Vc=VinD/(1-D),Vds=Vc+Vin,Vds=Vin/(1-D),27,有源钳位正激变换器(Active Clamped Forward)(9),Vc=VinD/(1-D),Vds=Vin/(1-D),Vin,28,
13、有源钳位正激变换器(Active Clamped Forward)(10),Vin,Vo,Vin,Vo,Vin,Vo,Sa,Sa,Sa,缺点:钳位电压建立较慢,启动过程变压器易偏磁。对输入电压的动态响应慢。,优点:变压器最优化复位(电压应力低)。输入电压范围宽。线性输出控制特性。不需要辅助的吸收回路。,29,桥式变换器(Bridge Type Converter),Vin,Vo,L,S1,D1,D2,S2,半桥变换器,Vin,Vo,L,S1,D1,D2,S2,全桥变换器,Vin,Vo,L,S1,D1,D2,S2,推挽变换器,Vin,Vo,S1,D2,S2,半桥变换器(倍流整流),30,桥式变换
14、器(Bridge Type Converter)(1),Vin,Vo,Lo,S1,D1,D2,S2,n:1+1,Lm,Lk,Ip,Io,C,B,VT,S1,IL,Vds1,D,Ip,VT,Io,Vin/2n,-Vin/2n,Im,Vin,IL,t0,t1,t2,t3,t4,t5,S2,D,t6=t0,T/2,T/2,Vc,t0,t1,变换器正半周工作,Ip,Im增加;Vc减少。,C1,C1,31,桥式变换器(Bridge Type Converter)(2),Vin,Vo,Lo,S1,D1,D2,S2,n:1+1,Lm,Lk,Ip,Io,B,VT,S1,IL,Vds1,D,Ip,VT,Io,V
15、in/2n,-Vin/2n,Im,Vin,IL,t0,t1,t2,t3,t4,t5,S2,D,t6=t0,T/2,T/2,Vc,C1,C,C1,Vin/2,t1,t2,S1关断,变压器副边续流,原边漏感能量被S2体二极管钳位。,32,桥式变换器(Bridge Type Converter)(3),Vin,Vo,Lo,S1,D1,D2,S2,n:1+1,Lm,Lk,Ip,Io,B,VT,S1,IL,Vds1,D,Ip,VT,Io,Vin/2n,-Vin/2n,Im,Vin,IL,t0,t1,t2,t3,t4,t5,S2,D,t6=t0,T/2,T/2,Vc,C1,C,C1,Vin/2,t2,t3
16、,S1,S2全部关断,变压器副边续流,Lm保持不变,D1,D2电流之差为Lm。,33,桥式变换器(Bridge Type Converter)(4),Vin,Vo,Lo,S1,D1,D2,S2,n:1+1,Lm,Lk,Ip,Io,A,B,S1,IL,Vds1,D,Ip,VT,Io,Vin/2n,-Vin/2n,Im,Vin,IL,t0,t1,t2,t3,t4,t5,S2,D,t6=t0,T/2,T/2,Vin/2,VT,Vc,t3,t4,变换器负半周工作,Ip,Im减少;Vc增加。,34,桥式变换器(Bridge Type Converter)(5),Vin,Vo,Lo,S1,D1,D2,S2
17、,n:1+1,Lm,Lk,Ip,Io,A,B,S1,IL,Vds1,D,Ip,VT,Io,Vin/2n,-Vin/2n,Im,Vin,IL,t0,t1,t2,t3,t4,t5,S2,D,t6=t0,T/2,T/2,Vin/2,VT,Vc,t4,t5,S2关断,变压器副边续流,原边漏感能量被S1体二极管钳位。,35,桥式变换器(Bridge Type Converter)(6),Vin,Vo,Lo,S1,D1,D2,S2,n:1+1,Lm,Lk,Ip,Io,B,VT,S1,IL,Vds1,D,Ip,VT,Io,Vin/2n,-Vin/2n,Im,Vin,IL,t0,t1,t2,t3,t4,t5,
18、S2,D,t6=t0,T/2,T/2,Vc,C1,C,C1,Vin/2,t5,t6,S1,S2全部关断,变压器副边续流,Lm保持不变,D1,D2电流之差为Lm。,t0,t1,t1,t3,36,桥式变换器(Bridge Type Converter)(7),Vin,Vo,Lo,S1,D1,D2,S2,n:1+1,Lm,Lk,Ip,Io,B,VT,C1,C,C1,缺点:变压器结构复杂。输入电压范围较小。,优点:变压器正负工作,不需要辅助的复位电路。输出纹波频率是开关频率的两倍,所需电感量小。线性输出控制特性。电路平衡对称。,37,几种隔离式变换器之比较,38,AC/DC Application Block Diagram,BridgeDiode,Vin,Vo,S,Lm,D,PFC,PWM,AC INPUT,PHC,Vref,LM431AZ431,LM5021AZ3843,
