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参数资料
| 型号: | NCP1013ST65T3G |
| 厂商: | ON Semiconductor |
| 文件页数: | 17/24页 |
| 文件大小: | 0K |
| 描述: | IC OFFLINE SWIT SMPS CM SOT223 |
| 标准包装: | 1 |
| 输出隔离: | 隔离 |
| 频率范围: | 59kHz ~ 71kHz |
| 输入电压: | 8.1 V ~ 10 V |
| 输出电压: | 700V |
| 功率(瓦特): | 19W |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | TO-261-4,TO-261AA |
| 供应商设备封装: | SOT-223 |
| 包装: | 剪切带 (CT) |
| 其它名称: | NCP1013ST65T3GOSCT |
��
�
�NCP1010,� NCP1011,� NCP1012,� NCP1013,� NCP1014�
�?� ?� ?�
�1�
�1� +�
�Tsw� =� Lp�
�·�
�2� ·� Fsw� ·� [Pout� ·� (Vr2� +� 2� ·� Vr� ·� Vin� +� Vin2)]�
�(eq.� 22)� where� Vinmin�
�Lpmax� =�
�which� lets� us� calculate� the� RMS�
�Ip� ·� Lp�
�d� =�
�?� d3�
�The� Flyback� transfer� formula� dictates� that:�
�η� 2�
�Pout� =� 1� ·� Lp� ·� Ip2� ·� Fsw� (eq.� 19)� which,� by� extracting�
�Ip� and� plugging� into� Equation� 19,� leads� to:�
�2� ·� Pout�
�η� ·� Fsw� ·� Lp� Vin� N� ·� (Vout� +� Vf)�
�(eq.� 20)�
�Extracting� Lp� from� Equation� 20� gives:�
�(Vin� ·� Vr)2� ·� η�
�Lpcritical� =�
�(eq.� 21)� ,� with� Vr� =� N� .� (Vout� +� Vf)� and� η� the� efficiency.�
�If� Lp� critical� gives� the� inductance� value� above� which�
�DCM� operation� is� lost,� there� is� another� expression� we� can�
�write� to� connect� Lp,� the� primary� peak� current� bounded� by�
�the� NCP101X� and� the� maximum� duty--cycle� that� needs� to�
�stay� below� 50%:�
�DCmax · Vinmin · Tsw�
�Ipmax�
�corresponds� to� the� lowest� rectified� bulk� voltage,� hence� the�
�longest� ton� duration� or� largest� duty--cycle.� Ip� max� is� the�
�available� peak� current� from� the� considered� part,� e.g.� 350� mA�
�typical� for� the� NCP1013� (however,� the� minimum� value� of�
�this� parameter� shall� be� considered� for� reliable� evaluation).�
�Combining� Equations� 21� and� 22� gives� the� maximum�
�theoretical� power� you� can� pass� respecting� the� peak� current�
�capability� of� the� NCP101X,� the� maximum� duty--cycle� and�
�the� discontinuous� mode� operation:�
�Pmax� :� =� Tsw2� ·� Vinmin2� ·� Vr2� ·� η� ·�
�Fsw�
�(2� ·� Lpmax� ·� Vr2� +� 4� ·� Lpmax� ·� Vr� ·� Vinmin�
�+� 2� ·� Lpmax� ·� Vinmin2)� (eq.� 23)�
�From� Equation� 22� we� obtain� the� operating� duty--cycle�
�(eq.� 24)�
�Vin� ·� Tsw�
�current� circulating� i� n� the� MOSFET:�
�IdRMS� =� Ip� ·� (eq.� 25)� .� From� this� equation,� we�
�obtain� the� average� dissipation� in� the� MOSFET:�
�Example� 1.� A� 12� V� 7.0� W� SMPS� operating� on� a� large�
�mains� with� NCP101X:�
�Vin� =� 100� Vac� to� 250� Vac� or� 140� Vdc� to� 350� Vdc� once�
�rectified,� assuming� a� low� bulk� ripple�
�Efficiency� =� 80%�
�Vout� =� 12� V,� Iout� =� 580� mA�
�Fswitching� =� 65� kHz�
�Ip� max� =� 350� mA� –� 10%� =� 315� mA�
�Applying� the� above� equations� leads� to:�
�Selected� maximum� reflected� voltage� =� 120� V�
�with� Vout� =� 12� V,� secondary� drop� =� 0.5� V� ?� Np:Ns� =� 1:0.1�
�Lp� critical� =� 3.2� mH�
�Ip� =� 292� mA�
�Duty--cycle� worse� case� =� 50%�
�Idrain� RMS� =� 119� mA�
�P� MOSFET� =� 354� mW� at� R� DSon� =� 24� Ω� (T� J� >� 100� ?� C)�
�P� DSS� =� 1.1� mA� x� 350� V� =� 385� mW,� if� DSS� is� used�
�Secondary� diode� voltage� stress� =� (350� x� 0.1)� +� 12� =� 47� V�
�(e.g.� a� MBRS360T3,� 3.0� A/60� V� would� fit)�
�Example� 2.� A� 12� V� 16� W� SMPS� operating� on� narrow�
�European� mains� with� NCP101X:�
�Vin� =� 230� Vac� ?� 15%,� 276� Vdc� for� Vin� min� to� 370� Vdc�
�once� rectified�
�Efficiency� =� 80%�
�Vout� =� 12� V,� Iout� =� 1.25� A�
�Fswitching� =� 65� kHz�
�Ip� max� =� 350� mA� –� 10%� =� 315� mA�
�Applying� the� equations� leads� to:�
�Selected� maximum� reflected� voltage� =� 250� V�
�with� Vout� =� 12� V,� secondary� drop� =� 0.5� V� ?� Np:Ns� =� 1:0.05�
�Lp� =� 6.6� mH�
�Ip� =� 0.305� mA�
�3�
�Pavg� =� 1� ·� Ip2� ·� d� ·� RDSon�
�losses� shall� be� added.�
�(eq.� 26)�
�to� which� switching�
�Duty--cycle� worse� case� =� 0.47�
�Idrain� RMS� =� 121� mA�
�If� we� stick� to� Equation� 23,� compute� Lp� and� follow� the�
�above� calculations,� we� will� discover� that� a� power� supply�
�built� with� the� NCP101X� and� operating� from� a� 100� Vac� line�
�minimum� will� not� be� able� to� deliver� more� than� 7.0� W�
�continuous,� regardless� of� the� selected� switching� frequency�
�(however� the� transformer� core� size� will� go� down� as�
�Fswitching� is� increased).� This� number� increases�
�significantly� when� operated� from� a� single� European� mains�
�(18� W).� Application� note� AND8125/D,� “Evaluating� the�
�Power� Capability� of� the� NCP101X� Members”� details� how�
�to� assess� the� available� power� budget� from� all� the� NCP101X�
�series.�
�P� MOSFET� =� 368� mW� at� R� DSon� =� 24� Ω� (T� J� >� 100� ?� C)�
�P� DSS� =� 1.1� mA� x� 370� V� =� 407� mW,� if� DSS� is� used� below� an�
�ambient� of� 50� ?� C.�
�Secondary� diode� voltage� stress� =� (370� x� 0.05)� +� 12� =� 30.5� V�
�(e.g.� a� MBRS340T3,� 3.0� A/40� V)�
�Please� note� that� these� calculations� assume� a� flat� DC� rail�
�whereas� a� 10� ms� ripple� naturally� affects� the� final� voltage�
�available� on� the� transformer� end.� Once� the� Bulk� capacitor� has�
�been� selected,� one� should� check� that� the� resulting� ripple� (min�
�Vbulk?)� is� still� compatible� with� the� above� calculations.� As� an�
�example,� to� benefit� from� the� largest� operating� range,� a� 7.0� W�
�board� was� built� with� a� 47� m� F� bulk� capacitor� which� ensured�
�discontinuous� operation� even� in� the� ripple� minimum� waves.�
�http://onsemi.com�
�17�
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