总结正激变换器各种复位方式辅助绕组.ppt

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1、adlsongForward Converter Forward Converter 1 开关管导通 LdiL/dt=Vin Vo I=(Vin Vo)ton/L2 开关管关断 LdiL/dt=Vo I=Vo toff/L I:输出电感伏秒平衡.输出电压:Vo=Vin1 Conventional clamp&reset technical Magnetizing current reset by an extra winding that in parallel with Pri-winding2 RCD type clamp&reset technical 3Loss less snubbe

2、r-LCD Snubber Circuit4Self resonant reset5 Soft Switching Active Clamp/ResetADVANTAGES-drain current reduced by the ratio of Ns/Np-low output voltage ripple-supports multiple outputsDISADVANTAGES-poor transformer utilization-poor transient response-transformer design is critical because of reset win

3、ding-transformer reset limits duty ratio-high switch voltage required-high input ripple currentForward Converter The forward converter transfers directly the energy from the input source to the load during the on-timeof the powerswitch.During off-time of the power switch,the energy is freewheeling t

4、hrough the output inductor and the rectifier D2,like in a chopper A forward regulator can be realized with a single switch structure or witha doubleswitch structure,according to the way the energy stored in the transformer primary inductanceis demagnetized.Forward converters are commonly usedfor out

5、put power up to 250W N Vin Vout=d Vin single switches,and up to 1kW in double switch structures.Single switch vs.double switch forwardForward Converter In the single switch forward,the magnetizing energy stored in the primary inductance is restored to the input source by a demagnetization winding Nd

6、.Most commonly,the primary and thedemagnetization windings have the same number of turns.So,at turn-off,the power switch has to withstand twice the input voltage during the demagnetization time,and then,once the input voltage.The demagnetization and primary windings have to be tightly coupled to red

7、uce the voltage spike-morethan the theoretical 2Vin-occuring at turn-off across the power switch.Forward Converter Forward Converter Forward Converter Power Switch:VDDS Vinmax(1+n)+leakage inductance spikeIDrms 1.2Pin/VinminDmaxIDrms1.2Pin/VinminDmax1/2Rectifiers:Forward D1:VRRM Vinmax/n+leakage ind

8、uctance spikeIF(AV)IoDmaxFreewheeling D2:VRRM Vinmax(Vo+VFD)/VinminDmaxIF(AV)IoDemagnetization D3:VRRM(1+N3/Np)Vinmax(Vo+VFD)/VinminDmaxIF(AV)ImagpeakDmax/2Forward Converter Double switch forward,also called asymmetrical half bridge forward,themagnetizing energy stored in the primary inductance is a

9、utomatically returned to the bulk capacitor by the two demagnetization diodes D1 and D2.The two power switches and demagnetization diodes have to withstand only once the input voltage Vin.As for the double switch fly back,the asymmetrical half bridge needs a floating gate drive for the high side swi

10、tch.Power Switch:VDDS VinmaxIDrms 1.2Pin/VinminD1/2Rectifiers:Forward D1:VRRM Vinmax(Vo+VFD)/VinminDmaxIF(AV)IoDmaxFreewheeling D2:VRRM Vinmax(Vo+VFD)/VinminDmaxIF(AV)IoForward Converter Dual Switches ConvertersSelf Reverse Voltage Clamp&Magnetism Current ResetMax Duty been limits and not exceeds 50

11、%because of the magnetizing current reset Lm=LP on dual switches convertersForward Converter Forward Converter The Forward ConverterA Review of Transformers:Voltage applied across primary is transformed into a voltage across the secondary,with polarity following the dotted terminals,in accordance wi

12、th the relation:Vp/Vs=Np/NsCurrent going into the dotted primary terminal is transformed and goes out of the secondary terminal,following the relation:Ip/Is=Ns/NpAn ideal transformer does not store energy,hence:Pin=Pout or Pp=Ps.Forward Converter The forward topology is one of the most commonly used

13、,and has several variations,the most basic of which is shown in Figure 1.9.The forward converter is essentially an isolated version of the buck converter operating in the direct mode and the basic single switch version shown can be successfully operated over a wide power range.Due to the transformer

14、,the forward topology can be used as either an up or a down converter,although the mostcommon application is down conversion.The power transferred to the secondary during the on-time is conducted through diode D1 to the output LC filter.During the off-time,the secondary current circulates through di

15、ode D2.The transformer is reset during the offtime by means of the auxiliary winding,Naux,and diode D3.The main advantages of the forward topology are itssimplicity and flexibility.Output Ripple Frequency FRelative Cost Low One common variation on the forward converter is the two transistor forward.

16、This configuration adds another switch element on the other side of the transformer primary and two clamping diodes,one from each side of the primary to the opposite input voltage terminal.In exchange for this additional complexity the two transistor forward reduces the voltage stress on the switch

17、elements.Forward Converter 辅助绕组复位辅助绕组复位开关管关断时激磁能量由复位绕组传输到输入电容,无功率损耗.简单,复位电路只要一个二极管和一个复位绕组最大占空比小于50%保证变压器复位,因而最大输入电压时占空比小,输入电压范围窄.最大占空比50%,开关管额定电压VDS=2VIN由于复位绕组使漏感大输出短路时复位二极管大有电流和电压应力减小Dmax可以开关管的最大电压,但会导致次级二极管的电压应力大.宽电压输入时:Dmax=0.45 and Np=Nr.开关管的最大电压最大占空比RCD复位复位Dissipative type Clamp/Reset technical

18、Very low cost design of reset circuit with discrete components R,C and D Max.operating duty could be slightly higher than 50%(up to 5565%),depending the magnetizing current reset by RC constant Critical point:Higher consumption because the energy storage on“C”should dissipates by passive component“R

19、”The transformer volt/second balance should tradeoff by adjust the value of“C”and“R”for Clamp/ResetIn case VDS 2Vin but very possible higher than 2VIN in worst case at open loop operating and max duty exceed 50%To avoid transformer saturation need to evaluate the Dset max of PWM in case of short cir

20、cuit RCD resetForward Converter The snubber capacitor voltage is fixed and almost independent of the input voltage,the MOSFET voltage stress can be reduced compared to the reset winding approach when the converter is operated with a wide input voltage range.Another advantage of RCD reset method is t

21、hat it is possible to set the maximum duty ratio larger than 50%with relatively low voltage stress on MOSFET compared to auxiliary winding reset method,which results in reduced voltage stress on the secondary side.The maximum voltage stressthe nominal snubber capacitor voltageZC ResetElements of pri

22、mary zener clamp circuitD1 currentPrimary winding leakage current with reverse current pull out due to slow diode D1/C2Leakage spikeNormalized and inverted secondary winding voltageMagnetizing voltage ring at drainMagnetizing currentLCD ResetNon dissipative type snubber with passive components L,C a

23、nd D,but higher cost than RCD type clamp circuitOperating duty limits as same as RCD voltage clampEnergy recycle and clamp VDS at passive linear mode thru C to Bulk Bus during main switch turn off and LC resonant transition mode to move the energy storage of C to L during main switch turning onCriti

24、cal point:Very high peak current on the leading edge of switching current of Q1 at switch turn on because the energy storage of“C”transfer to“L”thru Q1Higher power efficiency than RCD type but lower than“Conventional”because addition one more diode dissipationTo avoid DC bias on“L”,should be selecte

25、d low leakage current of the Diode that in series on current loop1.Self Resonant Reset1.要高要高压的的MOSFETAdd AuxiliarySwitch Sa BasicRCD ClampRemoveResistorCompared with RCD,Cc can discharge to inversely deeply magnetize the magnetization inductance via Sc.Active Clamp Reset Forward Converter Sa:auxilia

26、ry switchS1:main switchDa:intrinsic parasitic diode inside SaD1:intrinsic parasitic diode inside S1C1:intrinsic parasitic capacitor inside Sa and external capacitorActive Clamp Reset Forward Converter 1.Usually need high side drive for high side active switch.Need P channel MOSFET for Low side drive

27、.2.Dead time adjustment in between two switches3.Resonant Transition mode need control the inductance of the main transformer.4.Active switch need select high voltage MOSFET because the energy store in Cc5.Allow much higher efficiency operation because energy of transformer magnetizing recycles and

28、ZVT of the main switch.6.Lower voltage clamp would reduced the voltage stress on main switch,similar power transfer to conventional square wave switching7.Reduced EMI/RFI via soft switching8.Operate at fixed switching frequency9.Duty cycles beyond 50%max are obtainable10.Actively resets main transfo

29、rmer to third quadrant of BH curveActive Clamp Reset Forward Converter S1SavCsipimiCcVinVCcActive Clamp Reset Forward Converter M1:t0t1S1/Dr is on and Sa/Dc is offActive Clamp Reset Forward Converter Lf is so high that it can be acted as constant current source IoM2:t1t2S1/Sa/Dc is off and Dr is onN

30、ormal PWMIm:Rise from to 0 to+ResonantIm:RiseM3:t2t3S1/Sa/Dr is off and Dc is onVNp is negative so Dr is off and Io can not reflected to primary side.C1 and Lm resonate and Vc1 resonated up to Vin+VCc at t3 and Da is on.Active Clamp Reset Forward Converter ResonantIm:DownResonantIm:DownM4:t3t4S1/Dr

31、is off and Da/Dc is onVNp is VCc so Im is demagnetized to 0 and Da is turned off naturally at t4.Sa is ZVS during t3t4.M5:t4t5Sa/Dc is on and Sa/Dr is offVNp is-VCc and Im increases inversely from 0.Sa is turned off at t5.Active Clamp Reset Forward Converter ResonantIm:Rise inversely M6:t5t6S1/Sa/Dr

32、 is off and Dc is onLm and C1 resonate and C1 discharge and VC1 declined to Vin at t6.ResonantIm:Rise inversely M7(very short):t6t7Sa/S1 is off and Dr/Dr is onVNp is positive so Dr is on.Primary current is not enough to provide load current so Dc is still on and secondary side is short circuit.Prima

33、ry inductance is magnetized by Vin-VC1 and iLm increases from negative.Leakage inductance Lk is magnetized by Vin-VC1 and its current rises sharply and is reflected to secondary side.So iDr increases gradually from 0.Vc1 declines to 0 and D1 is on at t7.Active Clamp Reset Forward Converter Active Cl

34、amp Reset Forward Converter M8(very short):t7t8S1/Sa is off and Dr/Dc is onD1 is on and primary inductance continues to be magnetized by Vin and im continues to increase from negative.Leakage inductance Lk continues to be magnetized by Vin and its current rises sharply and is reflected to secondary

35、side.iDr continues to increase and iDc continues to decline.iD1=0 and iLk=iLm at t8 and D1 turned off naturally.S1 is ZVS during t7t8.M9(very short):t8t9S1/Dc/Dr is on and Sa is offS1 is on and primary inductance continues to be magnetized by Vin and im continues to increase from negative.Leakage inductance Lk continues to be magnetized by Vin and its current rises sharply and is reflected to secondary side.iDr continues to increase and iDc continues to decline.iLm+iS1=iLk=iNp=Io/n at t9 so Dc turned off naturally and iDr=Io.Go into next cycle.Active Clamp Reset Forward Converter