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| 型号: | LTC3859EUHF#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 24/42页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST PWM CM 38-QFN |
| 标准包装: | 52 |
| PWM 型: | 电流模式,Burst Mode? |
| 输出数: | 3 |
| 频率 - 最大: | 850kHz |
| 占空比: | 100% |
| 电源电压: | 4.5 V ~ 38 V |
| 降压: | 是 |
| 升压: | 是 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 38-WFQFN 裸露焊盘 |
| 包装: | 管件 |
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�LTC3859�
�APPLICATIONS� INFORMATION�
�I� OUT(MAX)� ?� (� V� OUT� ?� V� IN(MIN)� )�
�??� (� V� OUT� )� (� V� IN� ?� V� OUT� )� ??�
�I� MAX�
�C� IN� Required� I� RMS� ≈�
�a good compromise for both regions of operation due to�
�the� relatively� small� average� current.� Larger� diodes� result�
�in� additional� transition� losses� due� to� their� larger� junction�
�capacitance.�
�Boost� C� IN� ,� C� OUT� Selection�
�The� input� ripple� current� in� a� boost� converter� is� relatively�
�low� (compared� with� the� output� ripple� current),� because�
�this� current� is� continuous.� The� boost� input� capacitor� C� IN�
�voltage� rating� should� comfortably� exceed� the� maximum�
�input� voltage.� Although� ceramic� capacitors� can� be� relatively�
�tolerant� of� overvoltage� conditions,� aluminum� electrolytic�
�capacitors� are� not.� Be� sure� to� characterize� the� input� voltage�
�for� any� possible� overvoltage� transients� that� could� apply�
�excess� stress� to� the� input� capacitors.�
�The� value� of� C� IN� is� a� function� of� the� source� impedance,� and�
�in� general,� the� higher� the� source� impedance,� the� higher� the�
�required� input� capacitance.� The� required� amount� of� input�
�capacitance� is� also� greatly� affected� by� the� duty� cycle.� High�
�output� current� applications� that� also� experience� high� duty�
�cycles� can� place� great� demands� on� the� input� supply,� both�
�in� terms� of� DC� current� and� ripple� current.�
�In� a� boost� converter,� the� output� has� a� discontinuous� current,�
�so� C� OUT� must� be� capable� of� reducing� the� output� voltage�
�ripple.� The� effects� of� ESR� (equivalent� series� resistance)� and�
�the� bulk� capacitance� must� be� considered� when� choosing�
�the� right� capacitor� for� a� given� output� ripple� voltage.� The�
�steady� ripple� due� to� charging� and� discharging� the� bulk�
�capacitance� is� given� by:�
�Ripple� =� V�
�C� OUT� ?� V� OUT� ?� f�
�where� C� OUT� is� the� output� ?lter� capacitor.�
�The� steady� ripple� due� to� the� voltage� drop� across� the� ESR�
�is� given� by:�
�D� V� ESR� =� I� L(MAX)� ?� ESR�
�Multiple� capacitors� placed� in� parallel� may� be� needed� to�
�meet� the� ESR� and� RMS� current� handling� requirements.�
�Dry� tantalum,� special� polymer,� aluminum� electrolytic� and�
�ceramic� capacitors� are� all� available� in� surface� mount�
�packages.� Ceramic� capacitors� have� excellent� low� ESR�
�Capacitors� are� now� available� with� low� ESR� and� high� ripple�
�current� ratings� such� as� OS-CON� and� POSCAP.�
�Buck� C� IN� ,� C� OUT� Selection�
�The� selection� of� C� IN� for� the� two� buck� controllers� is� simpli?ed�
�by� the� 2-phase� architecture� and� its� impact� on� the� worst-�
�case� RMS� current� drawn� through� the� input� network� (bat-�
�tery/fuse/capacitor).� It� can� be� shown� that� the� worst-case�
�capacitor� RMS� current� occurs� when� only� one� controller�
�is� operating.� The� controller� with� the� highest� (V� OUT� )(I� OUT� )�
�product� needs� to� be� used� in� the� formula� shown� in� Equa-�
�tion� (1)� to� determine� the� maximum� RMS� capacitor� current�
�requirement.� Increasing� the� output� current� drawn� from�
�the� other� controller� will� actually� decrease� the� input� RMS�
�ripple� current� from� its� maximum� value.� The� out-of-phase�
�technique� typically� reduces� the� input� capacitor� ’s� RMS�
�ripple� current� by� a� factor� of� 30%� to� 70%� when� compared�
�to� a� single� phase� power� supply� solution.�
�In� continuous� mode,� the� source� current� of� the� top� MOSFET�
�is� a� square� wave� of� duty� cycle� (V� OUT� )/(V� IN� ).� To� prevent�
�large� voltage� transients,� a� low� ESR� capacitor� sized� for� the�
�maximum� RMS� current� of� one� channel� must� be� used.� The�
�maximum� RMS� capacitor� current� is� given� by:�
�1/� 2�
�V� IN� (1)�
�This� formula� has� a� maximum� at� V� IN� =� 2V� OUT� ,� where� I� RMS�
�=� I� OUT� /2.� This� simple� worst-case� condition� is� commonly�
�used� for� design� because� even� signi?cant� deviations� do� not�
�offer� much� relief.� Note� that� capacitor� manufacturers’� ripple�
�current� ratings� are� often� based� on� only� 2000� hours� of� life.�
�This� makes� it� advisable� to� further� derate� the� capacitor,� or�
�to� choose� a� capacitor� rated� at� a� higher� temperature� than�
�required.� Several� capacitors� may� be� paralleled� to� meet�
�size� or� height� requirements� in� the� design.� Due� to� the� high�
�operating� frequency� of� the� LTC3859,� ceramic� capacitors�
�can� also� be� used� for� C� IN� .� Always� consult� the� manufacturer�
�if� there� is� any� question.�
�The� bene?t� of� the� LTC3859� 2-phase� operation� can� be� calcu-�
�lated� by� using� Equation� (1)� for� the� higher� power� controller�
�and� then� calculating� the� loss� that� would� have� resulted� if�
�both� controller� channels� switched� on� at� the� same� time.�
�characteristics� but� can� have� a� high� voltage� coef?cient.�
�3859fa�
�24�
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