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�ISL97632�
�SEPIC� Operation�
�For� applications� where� the� output� voltage� is� not� always�
�above� the� input� voltage,� a� buck� or� boost� regulation� is�
�needed.� A� SEPIC� (Single� Ended� Primary� Inductance�
�Converter)� topology,� (see� Figure� 10),� can� be� considered� for�
�such� an� application.� A� single� cell� Li-Ion� battery� operating� a�
�cellphone� backlight� or� flashlight� is� one� example.� The�
�battery� voltage� is� between� 2.5V� and� 4.2V� depending� on� the�
�state� of� charge.� On� the� other� hand,� the� output� may� require�
�only� one� 3V� to� 4V� medium� power� LED� for� illumination�
�because� the� light� guard� of� the� backlight� assembly� is�
�optimized� or� it� is� a� cost� efficiency� trade� off� reason.�
�In� fact,� a� SEPIC� configured� LED� driver� is� flexible� enough� to�
�allow� the� output� to� be� well� above� or� below� the� input� voltage,�
�unlike� the� previous� example.� Another� example� is� when� the�
�number� of� LEDs� and� input� requirements� are� different� from�
�platform� to� platform,� a� common� circuit� and� PCB� that� fit� all� the�
�platforms,� in� some� cases,� may� be� beneficial� enough� that� it�
�where� D� is� the� on-time� of� the� PWM� duty� cycle.�
�The� convenience� of� SEPIC� comes� with� some� trade� off� in�
�addition� to� the� additional� L� and� C� costs.� The� efficiency� is�
�usually� lowered� because� of� the� relatively� large� efficiency�
�loss� through� the� Schottky� diode� if� the� output� voltage� is� low.�
�The� L2� series� resistance� also� contributes� additional� loss.�
�Figure� 11� shows� the� efficiency� measurement� of� a� single� LED�
�application� as� the� input� varies� between� 2.7V� and� 4.2V.�
�Note,� V� B� is� considered� the� level-shifted� LX� node� of� a�
�standard� boost� regulator.� The� higher� the� input� voltage,� the�
�lower� the� V� B� voltage� will� be� during� PWM� on� period.� The�
�result� is� that� the� efficiency� will� be� lower� at� higher� input�
�voltages� because� the� SEPIC� has� to� work� harder� to� boost� up�
�to� the� required� level.� This� behavior� is� the� opposite� to� the�
�standard� boost� regulator� ’s� and� the� comparison� is� shown� in�
�Figure� 11.�
�outweighs� the� disadvantage� of� adding� additional� component�
�cost.� L1� and� L2� can� be� a� coupled� inductor� in� one� package.�
�76�
�V� IN� =� 2.7V�
�VIN� =� 2.7V� to� 5.5V� 1� L1� 2�
�V� A�
�C3�
�V� B�
�72�
�C1�
�1μF�
�22μH�
�1μF�
�L2� C4�
�22μH�
�0.22μ�
�D1�
�68�
�V� IN� =� 4.2V�
�1� LED�
�C2�
�0.1μF�
�VIN�
�EN�
�LX�
�VOUT�
�FBSW�
�FB�
�64�
�60�
�L1� =� L2� =� 22μH�
�C3� =� 1μF�
�R1� =� 4.7� Ω�
�SDIN�
�GND�
�R1�
�1� Ω�
�0�
�5�
�10�
�ILED� (mA)�
�15�
�20�
�FIGURE� 11.� EFFICIENCY� MEASUREMENT� OF� 1� LED� SEPIC�
�DRIVER�
�FIGURE� 10.� SEPIC� LED� DRIVER�
�The� simplest� way� to� understand� SEPIC� topology� is� to� think�
�about� it� as� a� boost� regulator� in� which� the� input� volute� is� level�
�shifted� downward� at� the� same� magnitude� and� the� lowest�
�reference� level� starts� at� -V� IN� rather� than� 0V.�
�The� SEPIC� works� as� follows:� Assume� the� circuit� in� Figure� 10�
�operates� normally� when� the� ISL97632� internal� switch� opens,�
�and� it� is� in� the� PWM� ‘OFF’� state.� After� a� short� duration� where�
�few� LC� time� constants� elapsed,� the� circuit� is� considered� in�
�the� steady-state� within� the� PWM� ‘OFF’� period� that� L1� and� L2�
�are� shorted.� V� B� is� therefore� shorted� to� the� ground� and� C3� is�
�charged� to� V� IN� with� V� A� =� V� IN� .� When� the� ISL97632� internal�
�switch� closes,� and� the� circuit� is� in� the� PWM� on� state,� V� A� is�
�now� pulled� to� ground.� Since� the� voltage� in� C3� cannot� be�
�changed� instantaneously,� V� B� is� shifted� downward� and�
�becomes� -V� IN� .� The� next� cycle,� when� the� ISL97632� switch�
�opens,� V� B� boosts� up� to� the� targeted� output� like� the� standard�
�boost� regulator� operation,� except� the� lowest� reference� point�
�is� at� -V� IN� .� The� output� is� approximated� as� shown� in�
�Equation� 5:�
�PCB� Layout� Considerations�
�The� layout� is� very� important� for� the� converter� to� function�
�properly.� R� SET� must� be� located� as� close� as� possible� to� the� FB�
�and� GND� pins.� Longer� traces� to� the� LEDs� are� acceptable.�
�Similarly,� the� supply� decoupling� capacitor� and� the� output� filter�
�capacitor� should� be� as� close� as� possible� to� the� VIN� and�
�VOUTpins.�
�The� heat� of� the� IC� is� mainly� dissipated� through� the� thermal�
�pad� of� the� package.� Maximize� the� copper� area� connected� to�
�this� pad� if� possible.� In� addition,� a� solid� ground� plane� is� always�
�helpful� for� the� EMI� performance.�
�V� OUT� =� V� IN� ------------------�
�D�
�(� 1� –� D� )�
�8�
�(EQ.� 5)�
�FN9239.3�
�March� 22,� 2010�
�发布紧急采购,3分钟左右您将得到回复。
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