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| 型号: | LTC3633IUFD#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 16/28页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 3A DL 28QFN |
| 标准包装: | 73 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 2 |
| 输出电压: | 0.6 V ~ 14.7 V |
| 输入电压: | 3.6 V ~ 15 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 500kHz ~ 4MHz |
| 电流 - 输出: | 3A |
| 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: | 28-WFQFN 裸露焊盘 |
| 包装: | 管件 |
| 供应商设备封装: | 28-QFN(4x5) |
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�
�LTC3633�
�APPLICATIONS� INFORMATION�
�LTC3633�
�Suggested� compensation� component� values� are� shown� in�
�Figure� 3.� For� a� 2MHz� application,� an� R-C� network� of� 220pF�
�and� 13k� provides� a� good� starting� point.� The� bandwidth�
�of� the� loop� increases� with� decreasing� C.� If� R� is� increased�
�by� the� same� factor� that� C� is� decreased,� the� zero� frequency�
�will� be� kept� the� same,� thereby� keeping� the� phase� the� same�
�in� the� most� critical� frequency� range� of� the� feedback� loop.�
�A� 10pF� bypass� capacitor� on� the� ITH� pin� is� recommended�
�for� the� purposes� of� filtering� out� high� frequency� coupling�
�from� stray� board� capacitance.� In� addition,� a� feedforward�
�capacitor� C� F� can� be� added� to� improve� the� high� frequency�
�response,� as� previously� shown� in� Figure� 2.� Capacitor� C� F�
�provides� phase� lead� by� creating� a� high� frequency� zero�
�with� R2� which� improves� the� phase� margin.�
�ITH�
�R� COMP�
�13k�
�C� COMP�
�220pF�
�SGND�
�3633� F03�
�Figure� 3.� Compensation� Component�
�Checking� Transient� Response�
�The� regulator� loop� response� can� be� checked� by� observing�
�the� response� of� the� system� to� a� load� step.� When� configured�
�for� external� compensation,� the� availability� of� the� ITH� pin�
�not� only� allows� optimization� of� the� control� loop� behavior�
�but� also� provides� a� DC-coupled� and� AC� filtered� closed� loop�
�response� test� point.� The� DC� step,� rise� time,� and� settling�
�behavior� at� this� test� point� reflect� 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� ITH� external� components� shown� in� Figure� 3� circuit�
�will� provide� an� adequate� starting� point� for� most� applica-�
�tions.� The� series� R-C� filter� sets� the� dominant� pole-zero�
�loop� compensation.� The� values� can� be� modified� slightly�
�(from� 0.5� to� 2� times� their� suggested� values)� to� optimize�
�transient� response� once� the� final� PC� layout� is� done� and�
�the� particular� output� capacitor� type� and� value� have� been�
�determined.� The� output� capacitors� need� to� be� selected�
�because� their� various� types� and� values� determine� the�
�loop� gain� and� phase.� An� output� current� pulse� of� 20%� to�
�100%� of� full� load� current� having� a� rise� time� of� ~1μs� will�
�produce� output� voltage� and� ITH� pin� waveforms� that� will�
�give� a� sense� of� the� overall� loop� stability� without� breaking�
�the� feedback� loop.�
�Switching� regulators� take� several� cycles� to� respond� to� a�
�step� in� load� current.� When� a� load� step� occurs,� V� OUT� im-�
�mediately� 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� a� feedback�
�error� signal� used� by� the� regulator� to� return� V� OUT� to� its�
�steady-state� value.� During� this� recovery� time,� V� OUT� can�
�be� monitored� for� overshoot� or� ringing� that� would� indicate�
�a� stability� problem.�
�When� observing� the� response� of� V� OUT� to� a� load� step,� the�
�initial� output� voltage� step� may� not� be� within� the� bandwidth� of�
�the� feedback� loop,� so� the� standard� second� order� overshoot/�
�DC� ratio� cannot� be� used� to� determine� phase� margin.� The�
�output� voltage� settling� behavior� is� related� to� the� stability�
�of� the� closed-loop� system� and� will� demonstrate� the� actual�
�overall� supply� performance.� For� a� detailed� explanation� of�
�optimizing� the� compensation� components,� including� a�
�review� of� control� loop� theory,� refer� to� Linear� Technology�
�Application� Note� 76.�
�In� some� applications,� a� more� severe� transient� can� be� caused�
�by� switching� in� loads� with� large� (>10μF)� input� capacitors.�
�The� discharged� input� capacitors� are� effectively� put� in� paral-�
�lel� with� C� OUT� ,� causing� a� rapid� drop� in� V� OUT� .� No� regulator�
�can� deliver� enough� current� to� prevent� this� problem,� if�
�the� switch� connecting� the� load� has� low� resistance� and� is�
�driven� quickly.� The� solution� is� to� limit� the� turn-on� speed�
�of� the� load� switch� driver.� A� hot� swap� controller� is� designed�
�specifically� for� this� purpose� and� usually� incorporates� cur-�
�rent� limiting,� short-circuit� protection,� and� soft� starting.�
�3633fc�
�16�
�For� more� information� www.linear.com/LTC3633�
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