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参数资料
| 型号: | AOZ1083CI |
| 厂商: | Alpha & Omega Semiconductor Inc |
| 文件页数: | 8/12页 |
| 文件大小: | 0K |
| 描述: | IC LED DRVR BUCK CC 1.2A SOT23-6 |
| 标准包装: | 3,000 |
| 系列: | * |
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�
�AOZ1083�
�Δ� V� O� =� Δ� I� L� ×� ?� ESR� CO� +� -------------------------� ?�
�8� � f� � C�
�Δ� V� O� =� Δ� I� L� ×� -------------------------�
�8� � f� � C�
�Δ� I� L�
�The� selected� output� capacitor� must� have� a� higher� rated�
�voltage� specification� than� the� maximum� desired� output�
�voltage� including� ripple.� De-rating� needs� to� be�
�considered� for� long� term� reliability.�
�Output� ripple� voltage� specification� is� another� important�
�factor� for� selecting� the� output� capacitor.� In� a� buck�
�converter� circuit,� output� ripple� voltage� is� determined� by�
�inductor� value,� switching� frequency,� output� capacitor�
�value� and� ESR.� It� can� be� calculated� by� the� equation�
�below:�
�1�
�?� ?�
�O�
�where,�
�C� O� is� output� capacitor� value,� and�
�ESR� CO� is� the� equivalent� series� resistance� of� the� output�
�capacitor.�
�When� a� low� ESR� ceramic� capacitor� is� used� as� the� output�
�capacitor,� the� impedance� of� the� capacitor� at� the� switching�
�frequency� dominates.� Output� ripple� is� mainly� caused� by�
�capacitor� value� and� inductor� ripple� current.� The� output�
�ripple� voltage� calculation� can� be� simplified� to:�
�1�
�O�
�If� the� impedance� of� ESR� at� switching� frequency�
�dominates,� the� output� ripple� voltage� is� mainly� decided� by�
�the� capacitor� ESR� and� inductor� ripple� current.� The� output�
�ripple� voltage� calculation� can� be� further� simplified� to:�
�Δ� V� O� =� Δ� I� L� ×� ESR� CO�
�For� lower� output� ripple� voltage� across� the� entire�
�operating� temperature� range,� X5R� or� X7R� dielectric� type�
�of� ceramic,� or� other� low� ESR� tantalum� capacitors� or�
�aluminum� electrolytic� capacitors� may� also� be� used� as�
�output� capacitors.�
�In� a� buck� converter,� output� capacitor� current� is�
�continuous.� The� RMS� current� of� output� capacitor� is�
�decided� by� the� peak� to� peak� inductor� ripple� current.� It� can�
�be� calculated� by:�
�I� CO_RMS� =� ----------�
�12�
�Usually,� the� ripple� current� rating� of� the� output� capacitor� is�
�a� smaller� issue� because� of� the� low� current� stress.� When�
�the� buck� inductor� is� selected� to� be� very� small� and�
�inductor� ripple� current� is� high,� the� output� capacitor� could�
�be� overstressed.�
�Schottky� Diode� Selection�
�The� external� freewheeling� diode� supplies� the� current� to�
�the� inductor� when� the� high� side� NMOS� switch� is� off.� To�
�reduce� the� losses� due� to� the� forward� voltage� drop� and�
�recovery� of� diode,� Schottky� diode� is� recommended� to�
�use.� The� maximum� reverse� voltage� rating� of� the� chosen�
�Schottky� diode� should� be� greater� than� the� maximum�
�input� voltage,� and� the� current� rating� should� be� greater�
�than� the� maximum� load� current.�
�Thermal� Management� and� Layout�
�Considerations�
�In� the� AOZ1083� buck� regulator� circuit,� high� pulsing�
�current� flows� through� two� circuit� loops.� The� first� loop�
�starts� from� the� input� capacitors,� to� the� VIN� pin,� to� the�
�LX� pin,� to� the� filter� inductor,� to� the� output� capacitor� and�
�load,� and� then� returns� to� the� input� capacitor� through�
�ground.� Current� flows� in� the� first� loop� when� the� high� side�
�switch� is� on.� The� second� loop� starts� from� the� inductor,�
�to� the� output� capacitor� and� load,� to� the� anode� of� Schottky�
�diode,� to� the� cathode� of� Schottky� diode.� Current� flows� in�
�the� second� loop� when� the� low� side� diode� is� on.�
�In� PCB� layout,� minimizing� the� area� of� the� two� loops�
�reduces� the� noise� of� the� circuit� and� improves� efficiency.�
�A� ground� plane� is� strongly� recommended� to� connect�
�input� capacitor,� output� capacitor,� and� PGND� pin� of� the�
�AOZ1083.�
�In� the� AOZ1083� buck� regulator� circuit,� the� major� power�
�dissipating� components� are� the� AOZ1083,� the� Schottky�
�diode� and� output� inductor.� The� total� power� dissipation� of�
�the� converter� circuit� can� be� measured� by� input� power�
�minus� output� power:�
�P� total_loss� =� (� V� IN� ×� I� IN� )� –� (� V� O� ×� V� IN� )�
�The� power� dissipation� in� the� Schottky� diode� can� be�
�approximated� as:�
�P� diode_loss� =� I� O� ×� (� 1� –� D� )� ×� V� FW_Schottky�
�where,�
�V� FW_Schottky� is� the� Schottky� diode� forward� voltage� drop.�
�The� power� dissipation� of� the� inductor� can� be�
�approximately� calculated� by� output� current� and� DCR� of�
�the� inductor.�
�P� inductor_loss� =� I� O� 2� � R� inductor� � 1.1�
�Rev.� 1.0� July� 2011�
�www.aosmd.com�
�Page� 8� of� 12�
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