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| 型号: | LT3991EMSE-5#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 12/24页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK 5V 1.2A 10-MSOP |
| 标准包装: | 50 |
| 类型: | 降压(降压) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 5V |
| 输入电压: | 4.3 V ~ 55 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 200kHz ~ 2MHz |
| 电流 - 输出: | 1.2A |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽)裸露焊盘 |
| 包装: | 管件 |
| 供应商设备封装: | 10-MSOP 裸露焊盘 |
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�
�LT3991/LT3991-3.3/LT3991-5�
�APPLICATIONS� INFORMATION�
�V� OUT� +� V� D�
�I� OUT(MAX)� =� I� LIM� –�
�(1� ?� DC)� ?� (V� OUT� +� V� D� )�
�L� ?� f� SW�
�InductorSelectionandMaximumOutputCurrent�
�A� good� first� choice� for� the� inductor� value� is:�
�L� =�
�f� SW�
�where� f� SW� is� the� switching� frequency� in� MHz,� V� OUT� is� the�
�output� voltage,� V� D� is� the� catch� diode� drop� (~0.5V)� and� L�
�is� the� inductor� value� in� μH.�
�The� inductor’s� RMS� current� rating� must� be� greater� than� the�
�maximum� load� current� and� its� saturation� current� should� be�
�about� 30%� higher.� For� robust� operation� in� fault� conditions�
�(start-up� or� short-circuit)� and� high� input� voltage� (>30V),�
�the� saturation� current� should� be� above� 2.8A.� To� keep� the�
�efficiency� high,� the� series� resistance� (DCR)� should� be� less�
�than� 0.1Ω,� and� the� core� material� should� be� intended� for�
�high� frequency� applications.� Table� 2� lists� several� vendors�
�and� suitable� types.�
�The� inductor� value� must� be� sufficient� to� supply� the� desired�
�maximum� output� current� (I� OUT(MAX)� ),� which� is� a� function�
�of� the� switch� current� limit� (I� LIM� )� and� the� ripple� current.�
�Δ� I� L�
�2�
�The� LT3991� limits� its� peak� switch� current� in� order� to� protect�
�itself� and� the� system� from� overload� faults.� The� LT3991’s�
�switch� current� limit� (I� LIM� )� is� at� least� 2.33A� at� low� duty�
�cycles� and� decreases� linearly� to� 1.8A� at� DC� =� 0.8.�
�Table� 2.� Inductor� Vendors�
�VENDOR� URL� PART� SERIES� TYPE�
�Murata� www.murata.com� LQH55D� Open�
�TDK� www.componenttdk.com� SLF7045� Shielded�
�SLF10145� Shielded�
�Toko� www.toko.com� D62CB� Shielded�
�D63CB� Shielded�
�D73C� Shielded�
�D75F� Open�
�Coilcraft� www.coilcraft.com� MSS7341� Shielded�
�MSS1038� Shielded�
�Sumida� www.sumida.com� CR54� Open�
�CDRH74� Shielded�
�CDRH6D38� Shielded�
�CR75� Open�
�12�
�When� the� switch� is� off,� the� potential� across� the� inductor�
�is� the� output� voltage� plus� the� catch� diode� drop.� This� gives�
�the� peak-to-peak� ripple� current� in� the� inductor:�
�Δ� I� L� =�
�where� f� SW� is� the� switching� frequency� of� the� LT3991,� DC� is�
�the� duty� cycle� and� L� is� the� value� of� the� inductor.� Therefore,�
�the� maximum� output� current� that� the� LT3991� will� deliver�
�depends� on� the� switch� current� limit,� the� inductor� value,�
�and� the� input� and� output� voltages.� The� inductor� value� may�
�have� to� be� increased� if� the� inductor� ripple� current� does�
�not� allow� sufficient� maximum� output� current� (I� OUT(MAX)� )�
�given� the� switching� frequency,� and� maximum� input� voltage�
�used� in� the� desired� application.�
�The� optimum� inductor� for� a� given� application� may� differ�
�from� the� one� indicated� by� this� simple� design� guide.� A� larger�
�value� inductor� provides� a� higher� maximum� load� current� and�
�reduces� the� output� voltage� ripple.� If� your� load� is� lower� than�
�the� maximum� load� current,� than� you� can� relax� the� value� of�
�the� inductor� and� operate� with� higher� ripple� current.� This�
�allows� you� to� use� a� physically� smaller� inductor,� or� one� with�
�a� lower� DCR� resulting� in� higher� efficiency.� Be� aware� that� if�
�the� inductance� differs� from� the� simple� rule� above,� then� the�
�maximum� load� current� will� depend� on� the� input� voltage.� In�
�addition,� low� inductance� may� result� in� discontinuous� mode�
�operation,� which� further� reduces� maximum� load� current.�
�For� details� of� maximum� output� current� and� discontinuous�
�operation,� see� Linear� Technology’s� Application� Note� 44.�
�Finally,� for� duty� cycles� greater� than� 50%� (V� OUT� /V� IN� >0.5),�
�a� minimum� inductance� is� required� to� avoid� sub-harmonic�
�oscillations.� See� Application� Note� 19.�
�One� approach� to� choosing� the� inductor� is� to� start� with�
�the� simple� rule� given� above,� look� at� the� available� induc-�
�tors,� and� choose� one� to� meet� cost� or� space� goals.� Then�
�use� the� equations� above� to� check� that� the� LT3991� will� be�
�able� to� deliver� the� required� output� current.� Note� again�
�that� these� equations� assume� that� the� inductor� current� is�
�continuous.� Discontinuous� operation� occurs� when� I� OUT�
�is� less� than� Δ� I� L� /2.�
�3991fa�
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