参数资料
| 型号: | ISL97649AIRZ |
| 厂商: | Intersil |
| 文件页数: | 11/21页 |
| 文件大小: | 0K |
| 描述: | IC POWER MANAGEMENT |
| 标准包装: | 75 |
| 系列: | * |
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�
�ISL97649A�
�I� OMAX� =� ?� I� LMT� –� --------� ?� ×� ---------�
�V� O�
�Δ� I� L� =� ---------� ×� ----�
�f� s�
�Applications� Information�
�Enable� Control�
�With� VIN� >� UVLO,� only� the� Logic� output� channel� is� activated.� All�
�other� functions� in� ISL97649A� are� shut� down� when� the� enable� pin�
�is� pulled� down.� When� the� voltage� at� the� enable� pin� reaches� H�
�threshold,� the� whole� chip� turns� on.�
�Frequency� Selection�
�The� ISL97649A� switching� frequency� can� be� user� selected� to�
�operate� at� either� constant� 600kHz� or� 1.2MHz.� Lower� switching�
�frequency� can� save� power� dissipation� at� very� light� load�
�conditions.� Also,� low� switching� frequency� more� easily� leads� to�
�discontinuous� conduction� mode,� while� higher� switching�
�frequency� allows� for� smaller� external� components,� such� as�
�inductor� and� output� capacitors,� etc.� Higher� switching� frequency�
�will� get� higher� efficiency� within� some� loading� range� depending�
�on� VIN,� VOUT,� and� external� components,� as� shown� in� Figure� 1.�
�Connecting� the� FREQ� pin� to� GND� sets� the� PWM� switching�
�frequency� to� 600kHz,� or� connecting� FREQ� pin� to� V� IN� for� 1.2MHz.�
�This� restricts� the� maximum� output� current� (average)� based� on�
�Equation� 3:�
�Δ� I� L� V� IN� (EQ.� 3)�
�?� 2� ?�
�where� Δ� I� L� is� the� peak-to-peak� inductor� ripple� current,� and� is� set�
�by� Equation� 4:�
�V� IN� D� (EQ.� 4)�
�L�
�where� f� S� is� the� switching� frequency� (600kHz� or� 1.2MHz).�
�Capacitor�
�An� input� capacitor� is� used� to� suppress� the� voltage� ripple� injected�
�into� the� boost� converter.� The� ceramic� capacitor� with� a�
�capacitance� larger� than� 10μF� is� recommended.� The� voltage�
�rating� of� the� input� capacitor� should� be� larger� than� the� maximum�
�input� voltage.� Some� input� capacitors� are� recommended� in�
�Table� 1.�
�TABLE� 1.� BOOST� CONVERTER� INPUT� CAPACITOR� RECOMMENDATION�
�CAPACITOR� SIZE� MFG� PART� NUMBER�
�Soft-Start�
�The� soft-start� is� provided� by� an� internal� current� source� to� charge�
�the� external� soft-start� capacitor.� The� ISL97649A� ramps� up� the�
�current� limit� from� 0A� up� to� the� full� value,� as� the� voltage� at� the� SS�
�pin� ramps� from� 0V� to� 0.8V.� Hence,� the� soft-start� time� is� 3.2ms�
�when� the� soft-start� capacitor� is� 22nF,� 6.8ms� for� 47nF� and�
�10μF/6.3V�
�10μF/16V�
�10μF/10V�
�22μF/10V�
�0603�
�1206�
�0805�
�1210�
�TDK�
�TDK�
�Murata�
�Murata�
�C1608X5R0J106M�
�C3216X7R1C106M�
�GRM21BR61A106K�
�GRB32ER61A226K�
�V� Boost� 1� (EQ.� 1)�
�V� IN�
�I� LAVG� =� -------------�
�(EQ.� 5)�
�Δ� I� L�
�I� LPK� =� I� LAVG� +� --------�
�14.5ms� for� 100nF.�
�Operation�
�The� boost� converter� is� a� current� mode� PWM� converter� operating�
�at� either� 600kHz� or� 1.2MHz.� It� can� operate� in� both� discontinuous�
�conduction� mode� (DCM)� at� light� load� and� continuous� conduction�
�mode� (CCM).� In� continuous� conduction� mode,� current� flows�
�continuously� in� the� inductor� during� the� entire� switching� cycle� in�
�steady� state� operation.� The� voltage� conversion� ratio� in�
�continuous� current� mode� is� given� by� Equation� 1:�
�-------------------� =� -------------�
�1� –� D�
�where� D� is� the� duty� cycle� of� the� switching� MOSFET.�
�The� boost� regulator� uses� a� summing� amplifier� architecture�
�consisting� of� gm� stages� for� voltage� feedback,� current� feedback�
�and� slope� compensation.� A� comparator� looks� at� the� peak�
�inductor� current� cycle-by-cycle� and� terminates� the� PWM� cycle� if�
�the� current� limit� is� reached.�
�An� external� resistor� divider� is� required� to� divide� the� output�
�voltage� down� to� the� nominal� reference� voltage.� Current� drawn� by�
�the� resistor� network� should� be� limited� to� maintain� the� overall�
�converter� efficiency.� The� maximum� value� of� the� resistor� network�
�is� limited� by� the� feedback� input� bias� current� and� the� potential� for�
�noise� being� coupled� into� the� feedback� pin.� A� resistor� network� in�
�the� order� of� 60k� ?� is� recommended.� The� boost� converter� output�
�Inductor�
�The� boost� inductor� is� a� critical� part� that� influences� the� output�
�voltage� ripple,� transient� response,� and� efficiency.� Values� of�
�3.3μH� to� 10μH� are� used� to� match� the� internal� slope�
�compensation.� The� inductor� must� be� able� to� handle� the� following�
�average� and� peak� currents� shown� in� Equation� 5:�
�I� O�
�1� –� D�
�2�
�Some� inductors� are� recommended� in� Table� 2� for� different� design�
�considerations.�
�Rectifier� Diode�
�A� high-speed� diode� is� necessary� due� to� the� high� switching�
�frequency.� Schottky� diodes� are� recommended� because� of� their�
�fast� recovery� time� and� low� forward� voltage.� The� reverse� voltage�
�rating� of� this� diode� should� be� higher� than� the� maximum� output�
�voltage.� The� rectifier� diode� must� meet� the� output� current� and�
�peak� inductor� current� requirements.� Table� 3� shows� some�
�recommendations� for� boost� converter� diode.�
�TABLE� 2.� BOOST� CONVERTER� INDUCTOR� RECOMMENDATION�
�DIMENSIONS� PART�
�INDUCTOR� (mm)� MFG� NUMBER� NOTE�
�voltage� is� determined� by� Equation� 2:�
�10μH/�
�8.3x8.3x4.5� Sumida� CDR8D43-100NC�
�Efficiency�
�V� Boost� =� ---------------------� � V� FB�
�R� 1� +� R� 2�
�R� 2�
�(EQ.� 2)�
�4Apeak�
�6.8μH/�
�5.0x5.0x2.0�
�TDK�
�PLF5020T-6R8M1R8�
�Optimization�
�The� current� through� the� MOSFET� is� limited� to� 1.5A� PEAK� .�
�11�
�1.8Apeak�
�FN7928.3�
�June� 27,� 2013�
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