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参数资料
| 型号: | LTC3733CUHF-1#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 22/32页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR BUCK 3PH AMD CPU 38-QFN |
| 标准包装: | 2,500 |
| 应用: | 控制器,AMD |
| 输入电压: | 4 V ~ 36 V |
| 输出数: | 1 |
| 输出电压: | 0.8 V ~ 1.55 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 38-WFQFN 裸露焊盘 |
| 供应商设备封装: | 38-QFN(5x7) |
| 包装: | 带卷 (TR) |
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�LTC3733/LTC3733-1�
�APPLICATIO� S� I� FOR� ATIO�
�t� ON� (� )� <�
�V� IN� (� f� )�
�The loop filter components (C� LP� , R� LP� ) smooth out the�
�current� pulses� from� the� phase� detector� and� provide� a�
�stable� input� to� the� voltage� controlled� oscillator.� The� filter�
�components� C� LP� and� R� LP� determine� how� fast� the� loop�
�acquires� lock.� Typically� R� LP� =10k� and� C� LP� ranges� from�
�0.01� μ� F� to� 0.1� μ� F.�
�Minimum� On-Time� Considerations�
�Minimum� on-time,� t� ON(MIN)� ,� is� the� smallest� time� duration�
�that� the� IC� is� capable� of� turning� on� the� top� MOSFET.� It� is�
�determined� by� internal� timing� delays� and� the� gate� charge�
�of� the� top� MOSFET.� Low� duty� cycle� applications� may�
�approach� this� minimum� on-time� limit� and� care� should� be�
�taken� to� ensure� that:�
�V� OUT�
�MIN�
�If� the� duty� cycle� falls� below� what� can� be� accommodated� by�
�the� minimum� on-time,� the� IC� will� begin� to� skip� every� other�
�cycle,� resulting� in� half-frequency� operation.� The� output�
�voltage� will� continue� to� be� regulated,� but� the� ripple� current�
�and� ripple� voltage� will� increase.�
�The� minimum� on-time� for� the� IC� is� generally� about� 120ns.�
�However,� as� the� peak� sense� voltage� decreases� the� mini-�
�mum� on-time� gradually� increases.� This� is� of� particular�
�concern� in� forced� continuous� applications� with� low� ripple�
�current� at� light� loads.� If� the� duty� cycle� drops� below� the�
�minimum� on-time� limit� in� this� situation,� a� significant�
�amount� of� cycle� skipping� can� occur� with� correspondingly�
�larger� current� and� voltage� ripple.�
�If� an� application� can� operate� close� to� the� minimum� on-�
�time� limit,� an� inductor� must� be� chosen� that� is� low� enough�
�in� value� to� provide� sufficient� ripple� amplitude� to� meet� the�
�minimum� on-time� requirement.� As� a� general� rule,� keep�
�Efficiency� Considerations�
�The� percent� efficiency� of� a� switching� regulator� is� equal� to�
�the� output� power� divided� by� the� input� power� times� 100%.�
�It� is� often� useful� to� analyze� individual� losses� to� determine�
�what� is� limiting� the� efficiency� and� which� change� would�
�produce� the� most� improvement.� Percent� efficiency� can� be�
�expressed� as:�
�%Efficiency� =� 100%� –� (L1� +� L2� +� L3� +� ...)�
�where� L1,� L2,� etc.� are� the� individual� losses� as� a� percentage�
�of� input� power.�
�Checking� Transient� Response�
�The� regulator� loop� response� can� be� checked� by� looking� at�
�the� load� transient� response.� Switching� regulators� take�
�several� cycles� to� respond� to� a� step� in� DC� (resistive)� load�
�current.� When� a� load� step� occurs,� V� OUT� shifts� by� an�
�amount� equal� to� ?� I� LOAD� ?� ESR,� where� ESR� is� the� effective�
�series� resistance� of� C� OUT� .� ?� I� LOAD� also� begins� to� charge� or�
�discharge� C� OUT� ,� generating� the� feedback� error� signal� that�
�forces� the� regulator� to� adapt� to� the� current� change� and�
�return� V� OUT� to� its� steady-state� value.� During� this� recovery�
�time,� V� OUT� can� be� monitored� for� excessive� overshoot� or�
�ringing,� which� would� indicate� a� stability� problem.� The�
�availability� of� the� I� TH� pin� not� only� allows� optimization� of�
�control� loop� behavior,� but� also� provides� a� DC� coupled�
�and� AC� filtered� closed-loop� response� test� point.� The� DC�
�step,� rise� time� and� settling� at� this� test� point� truly� reflects�
�the� closed-loop� response� .� Assuming� a� predominantly�
�second� order� system,� phase� margin� and/or� damping�
�factor� can� be� estimated� using� the� percentage� of� overshoot�
�seen� at� this� pin.� The� bandwidth� can� also� be� estimated� by�
�examining� the� rise� time� at� the� pin.� The� I� TH� external� com-�
�ponents� shown� in� the� Figure� 1� circuit� will� provide� an�
�adequate� starting� point� for� most� applications.�
�the� inductor� ripple� current� equal� to� or� greater� than� 30%�
�of� I� OUT(MAX)� at� V� IN(MAX)� .�
�3733f�
�22�
�相关PDF资料 |
PDF描述 |
|---|---|
| HSM22DSAN | CONN EDGECARD 44POS R/A .156 SLD |
| HMM22DSAN | CONN EDGECARD 44POS R/A .156 SLD |
| LTC3733CUHF-1#TR | IC CTRLR BUCK 3PH AMD CPU 38-QFN |
| LTC3733CUHF-1#PBF | IC CTRLR BUCK 3PH AMD CPU 38-QFN |
| HSM22DSAH | CONN EDGECARD 44POS R/A .156 SLD |
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