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参数资料
| 型号: | LT3508IUF#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 11/26页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 1.4A DL 24QFN |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 2 |
| 输出电压: | 0.8 V ~ 35.3 V |
| 输入电压: | 3.7 V ~ 36 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 920kHz ~ 1.06MHz |
| 电流 - 输出: | 1.4A |
| 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: | 24-WFQFN 裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 24-QFN 裸露焊盘(4x4) |
��
�
�LT3508�
�APPLICATIONS� INFORMATION�
�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,�
�to� 1.55A� at� DC� =� 90%.� The� maximum� output� current� is� a�
�function� of� the� chosen� inductor� value:�
�and� reduces� the� output� voltage� ripple.� If� your� load� is� lower�
�than� the� maximum� load� current,� then� you� can� relax� the�
�I� OUT(MAX)� =� I� LIM� –�
�Δ� I� L�
�2�
�=� 2A� ?� (� 1� –� 0.25� ?� DC� )� –�
�Δ� I� L�
�2�
�value� of� the� inductor� and� operate� with� higher� ripple� cur-�
�rent.� This� allows� you� to� use� a� physically� smaller� inductor,�
�or� one� with� a� lower� DCR� resulting� in� higher� ef?ciency.�
�Be� aware� that� if� the� inductance� differs� from� the� simple�
�rule� above,� then� the� maximum� load� current� will� depend�
�on� input� voltage.� In� addition,� low� inductance� may� result�
�in� discontinuous� mode� operation,� which� further� reduces�
�maximum� load� current.� For� details� of� discontinuous� mode�
�operation,� see� 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:�
�Choosing� an� inductor� value� so� that� the� ripple� current� is�
�small� will� allow� a� maximum� output� current� near� the� switch�
�current� limit.�
�One� approach� to� choosing� the� inductor� is� to� start� with� the�
�simple� rule� given� above,� look� at� the� available� inductors,� and�
�choose� one� to� meet� cost� or� space� goals.� Then� use� these�
�equations� to� check� that� the� LT3508� will� be� able� to� deliver�
�the� required� output� current.� Note� again� that� these� equations�
�assume� that� the� inductor� current� is� continuous.� Discontinu-�
�ous� operation� occurs� when� I� OUT� is� less� than� ?� I� L� /2.�
�L� MIN� =� (� V� OUT� +� V� F� )� ?�
�0.8μH�
�f�
�Input� Capacitor� Selection�
�where� f� is� in� MHz.� The� current� in� the� inductor� is� a� triangle�
�wave� with� an� average� value� equal� to� the� load� current.� The�
�peak� switch� current� is� equal� to� the� output� current� plus�
�half� the� peak-to-peak� inductor� ripple� current.� The� LT3508�
�limits� its� switch� current� in� order� to� protect� itself� and� the�
�system� from� overload� faults.� Therefore,� the� maximum�
�output� current� that� the� LT3508� will� deliver� depends� on�
�the� switch� current� limit,� the� inductor� value,� and� the� input�
�and� output� voltages.�
�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:�
�Bypass� the� V� IN� pins� of� the� LT3508� circuit� with� a� ceramic�
�capacitor� of� X7R� or� X5R� type.� For� switching� frequen-�
�cies� above� 500kHz,� use� a� 4.7μF� capacitor� or� greater.� For�
�switching� frequencies� below� 500kHz,� use� a� 10μF� or� higher�
�capacitor.� If� the� V� IN� pins� are� tied� together� only� a� single�
�capacitor� is� necessary.� If� the� V� IN� pins� are� separated,� each�
�pin� will� need� its� own� bypass.� The� following� paragraphs�
�describe� the� input� capacitor� considerations� in� more� detail.�
�Step-down� regulators� draw� current� from� the� input� supply�
�in� pulses� with� very� fast� rise� and� fall� times.� The� input� ca-�
�pacitor� is� required� to� reduce� the� resulting� voltage� ripple� at�
�the� LT3508� input� and� to� force� this� switching� current� into� a�
�tight� local� loop,� minimizing� EMI.� The� input� capacitor� must�
�Δ� I� L� =�
�(� 1– DC� )� (� V� OUT� +� V� F� )�
�L?f�
�have� low� impedance� at� the� switching� frequency� to� do� this�
�effectively,� and� it� must� have� an� adequate� ripple� current�
�rating.� With� two� switchers� operating� at� the� same� frequency�
�I� SW(PK)� =� I� L(PK)� =� I� OUT� +�
�V� OUT� (� V� IN� –� V� OUT� )� I� OUT�
�where f is the switching frequency of the LT3508 and L�
�is� the� value� of� the� inductor.� The� peak� inductor� and� switch�
�current� is:�
�Δ� I� L�
�2�
�To� maintain� output� regulation,� this� peak� current� must� be�
�less� than� the� LT3508’s� switch� current� limit� I� LIM� .� I� LIM� is�
�at� least� 2A� for� at� low� duty� cycles� and� decreases� linearly�
�but� with� different� phases� and� duty� cycles,� calculating� the�
�input� capacitor� RMS� current� is� not� simple.� However,� a�
�conservative� value� is� the� RMS� input� current� for� the� channel�
�that� is� delivering� most� power� (V� OUT� times� I� OUT� ):�
�I� CIN(RMS)� =� I� OUT� ?� <�
�V� IN� 2�
�and� is� largest� when� V� IN� =� 2V� OUT� (50%� duty� cycle).� As�
�the� second,� lower� power� channel� draws� input� current,�
�3508fd�
�11�
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