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�
�NCP1028�
�As� the� internal� logic� takes� some� time� to� react,� the� switch�
�gate� shutdown� does� not� immediately� occur� when� the�
�maximum� power� limit� is� detected� (just� before� activating�
�the� overload� protection� circuit).� Clearly� speaking,� it� can�
�take� up� to� 100� ns� for� the� NCP1028� current� sense�
�comparator� to� propagate� through� the� various� logical� gates�
�before� reaching� the� power� switch� and� finally� shutting� it� off.�
�This� is� the� well-known� propagation� delay� noted� t� prop� .�
�Unfortunately,� during� this� time,� the� current� keeps� growing�
�as� Figure� 35� depicts.� The� peak� current� will� therefore� be�
�>� 30� ms�
�troubled� by� this� propagation� delay.� The� formula� to� obtain�
�the� final� value� is� simply:�
�Ipeak,� final� +� in� t� prop� )� Ipeak,� max�
�Figure� 34.� The� burst� frequency� becomes� so� low�
�V�
�Lp�
�(eq.� 5)�
�that� it� is� difficult� to� keep� an� adequate� level� on� the�
�auxiliary� V� CC� .�
�Over� Power� Compensation�
�Over� Power� Compensation� or� Protection� (OPP)�
�represents� a� way� to� limit� the� effects� of� the� propagation�
�delay� when� the� converter� is� supplied� from� its� highest� input�
�voltage.� The� propagation� delay� naturally� extends� the�
�power� capability� of� any� current-limited� converter.�
�Figure� 35� explains� why.� The� main� parameter� is� the� on�
�slope,� that� is� to� say,� the� pace� at� which� the� inductor� current�
�grows-up� when� the� power� switch� closes.� For� a� flyback�
�At� low� line,� S� on� is� relatively� low� and� does� not� bother� the�
�final� peak� value.� The� situation� differs� at� high� line� and�
�induces� a� higher� peak� current.� Therefore,� the� power� supply�
�output� power� capability� increases� with� the� input� voltage.�
�Let� us� a� take� a� look� at� a� simple� example.� Suppose� the� peak�
�current� is� 700� mA:�
�L� p� =� 1.0� mH�
�V� in� lowline� =� 100� Vdc�
�V� in� highline� =� 350� Vdc�
�I� peak,max� =� 700� mA�
�t� prop� =� 100� ns�
�Pout� +� 1� I2peak,� final� FSWLp� h�
�controller,� the� slope� is� given� by:�
�2�
�(eq.� 6)�
�Son� +� in�
�V�
�Lp�
�(eq.� 4)�
�Where:� F� sw� is� the� switching� frequency� and� h� the� efficiency.�
�Usually� h� is� bigger� in� high� line� conditions� than� in� low� line�
�where� L� p�
�is� the� transformer� magnetizing/primary�
�conditions.� This� formula� is� valid� for� a� Discontinuous�
�inductance� and� V� in� ,� the� input� voltage.�
�Conduction� Mode� flyback.�
�From� Equation� 5,� we� can� calculate� the� final� peak� current�
�in� both� conditions:�
�I� peak,final� =� (100/1m)� x� 100n� +� 700m� =� 710� mA� at� low� line.�
�I� peak,final� =� (350/1m)� x� 100n� +� 700m� =� 735� mA� at� high� line.�
�From� Equation� 6,� we� can� have� an� idea� of� the� maximum�
�output� power� capability� again,� in� both� conditions� with�
�respective� low� and� high� line� efficiency� numbers� of� 78%�
�and� 82%� for� instance:�
�P� out,lowline� =� 0.5�
�P� out,highline� =� 0.5�
�0.71� 2�
�0.735� 2�
�1m�
�1m�
�65k�
�65k�
�0.78� =� 12.8� W�
�0.82� =� 14.4� W�
�Figure� 35.� Internal� logic� blocks� take� a� certain�
�amount� of� time� before� shutting� off� the� driving�
�pulses� in� presence� of� an� overcurrent� event.�
�http://onsemi.com�
�20�
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