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参数资料
| 型号: | ADP1613-BL3-EVZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 14/28页 |
| 文件大小: | 0K |
| 描述: | EVAL BLANK ADISIMPOWER ADP1613 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步升 |
| 稳压器拓扑结构: | 升压 |
| 板类型: | 裸(未填充) |
| 已供物品: | 裸板 |
| 已用 IC / 零件: | ADP1613 |
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��
�
�ADP1612/ADP1613�
�Data� Sheet�
�V� OUT� ?� V� IN� (� MAX� )�
�D� MIN� =�
�CHOOSING� THE� INPUT� AND� OUTPUT� CAPACITORS�
�The� ADP1612/ADP1613� require� input� and� output� bypass� capa-�
�citors� to� supply� transient� currents� while� maintaining� constant�
�input� and� output� voltages.� Use� a� low� equivalent� series� resistance�
�(ESR),� 10� μF� or� greater� input� capacitor� to� prevent� noise� at� the�
�ADP1612/ADP1613� input.� Place� the� capacitor� between� VIN�
�and� GND� as� close� to� the� ADP1612/ADP1613� as� possible.�
�Ceramic� capacitors� are� preferred� because� of� their� low� ESR�
�characteristics.� Alternatively,� use� a� high� value,� medium� ESR�
�capacitor� in� parallel� with� a� 0.1� μF� low� ESR� capacitor� as� close�
�to� the� ADP1612/ADP1613� as� possible.�
�Ensure� that� the� diode� is� rated� to� handle� the� average� output�
�load� current.� Many� diode� manufacturers� derate� the� current�
�capability� of� the� diode� as� a� function� of� the� duty� cycle.� Verify�
�that� the� output� diode� is� rated� to� handle� the� average� output�
�load� current� with� the� minimum� duty� cycle.� The� minimum�
�duty� cycle� of� the� ADP1612/ADP1613� is�
�V� OUT�
�where� V� IN(MAX)� is� the� maximum� input� voltage.�
�The� following� are� suggested� Schottky� diode� manufacturers:�
�(12)�
�The� output� capacitor� maintains� the� output� voltage� and� supplies�
�current� to� the� load� while� the� ADP1612/ADP1613� switch� is� on.�
�?�
�?�
�ON� Semiconductor�
�Diodes,� Inc.�
�?� V� OUT� =�
�Q� C� I� OUT� � t� ON� (8)�
�t� ON� =�
�D�
�V� OUT� ?� V� IN�
�?� V� IN�
�?�
�R�
�F� Z� (� RHP� )� =� ?� ?�
�?� � LOAD� (13)�
�2� π� ×� L�
�?� V� OUT�
�?�
�C� OUT� ≥�
�The� value� and� characteristics� of� the� output� capacitor� greatly�
�affect� the� output� voltage� ripple� and� stability� of� the� regulator.� A�
�low� ESR� ceramic� dielectric� capacitor� is� preferred.� The� output�
�voltage� ripple� (� ?� V� OUT� )� is� calculated� as� follows:�
�=�
�C� OUT� C� OUT�
�where:�
�Q� C� is� the� charge� removed� from� the� capacitor.�
�t� ON� is� the� on� time� of� the� switch.�
�C� OUT� is� the� output� capacitance.�
�I� OUT� is� the� output� load� current.�
�(9)�
�f� SW�
�and�
�D� =� (10)�
�V� OUT�
�Choose� the� output� capacitor� based� on� the� following� equation:�
�I� OUT� � (� V� OUT� ?� V� IN� )� (11)�
�f� SW� � V� OUT� � ?� V� OUT�
�LOOP� COMPENSATION�
�The� ADP1612/ADP1613� use� external� components� to�
�compensate� the� regulator� loop,� allowing� optimization� of�
�the� loop� dynamics� for� a� given� application.�
�The� step-up� converter� produces� an� undesirable� right-half� plane�
�zero� in� the� regulation� feedback� loop.� This� requires� compensating�
�the� regulator� such� that� the� crossover� frequency� occurs� well�
�below� the� frequency� of� the� right-half� plane� zero.� The� right-�
�half� plane� zero� is� determined� by� the� following� equation:�
�2�
�?�
�where:�
�F� Z� (RHP)� is� the� right-half� plane� zero.�
�R� LOAD� is� the� equivalent� load� resistance� or� the� output� voltage�
�divided� by� the� load� current.�
�To� stabilize� the� regulator,� ensure� that� the� regulator� crossover�
�frequency� is� less� than� or� equal� to� one-fifth� of� the� right-half�
�plane� zero.�
�The� regulator� loop� gain� is�
�Multilayer� ceramic� capacitors� are� recommended� for� this�
�application.�
�A� VL� =�
�V� FB�
�V� OUT�
��
�V� IN�
�V� OUT�
�� G� MEA� � R� OUT� ||� Z� COMP� � G� CS� � Z� OUT�
�(14)�
�DIODE� SELECTION�
�The� output� rectifier� conducts� the� inductor� current� to� the� output�
�capacitor� and� load� while� the� switch� is� off.� For� high� efficiency,�
�minimize� the� forward� voltage� drop� of� the� diode.� For� this� reason,�
�Schottky� rectifiers� are� recommended.� However,� for� high� voltage,�
�high� temperature� applications,� where� the� Schottky� rectifier�
�reverse� leakage� current� becomes� significant� and� can� degrade�
�efficiency,� use� an� ultrafast� junction� diode.�
�where:�
�A� VL� is� the� loop� gain.�
�V� FB� is� the� feedback� regulation� voltage,� 1.235� V.�
�V� OUT� is� the� regulated� output� voltage.�
�V� IN� is� the� input� voltage.�
�G� MEA� is� the� error� amplifier� transconductance� gain.�
�R� OUT� is� 125� M?.�
�Z� COMP� is� the� impedance� of� the� series� RC� network� from� COMP�
�to� GND.�
�G� CS� is� the� current� sense� transconductance� gain� (the� inductor�
�current� divided� by� the� voltage� at� COMP),� which� is� internally�
�set� by� the� ADP1612/ADP1613.�
�Z� OUT� is� the� impedance� of� the� load� in� parallel� with� the� output�
�capacitor.�
�Rev.� D� |� Page� 14� of� 28�
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