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参数资料
| 型号: | LTC3876EFE#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 35/48页 |
| 文件大小: | 0K |
| 描述: | IC CTLR DC/DC DDR DUAL 38-TSSOP |
| 产品培训模块: | LTC3876 Dual DC/DC Controller |
| 标准包装: | 50 |
| 应用: | 控制器,DDR,DDR2,DDR3 |
| 输入电压: | 4.5 V ~ 38 V |
| 输出数: | 2 |
| 输出电压: | 可调 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 38-TFSOP (0.173",4.40mm 宽)裸露焊盘 |
| 供应商设备封装: | 38-TSSOP 裸露焊盘 |
| 包装: | 管件 |
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�LTC3876�
�APPLICATIONS� INFORMATION�
�The� DTR� comparator� output� is� overridden� by� reverse�
�inductor� current� detection� (I� REV� )� and� overvoltage� (OV)�
�condition.� This� means� BG� will� be� turned� off� when� SENSE� +�
�is� higher� than� SENSE� –� (i.e.,� inductor� current� is� positive),�
�as� long� as� the� OV� condition� is� not� present.� When� inductor�
�current� drops� to� zero� and� starts� to� reverse,� BG� will� turn�
�back� on� in� forced� continuous� mode� (e.g.,� the� MODE/�
�PLLIN� pin� tied� to� INTV� CC� ,� or� an� input� clock� is� present),�
�even� if� DTR� is� still� below� half� INTV� CC� .� This� is� to� allow� the�
�inductor� current� to� go� negative� to� quickly� pull� down� the�
�V� OUT� overshoot.� Of� course,� if� the� MODE/PLLIN� pin� is� set�
�to� discontinuous� mode� (i.e.,� tied� to� SGND),� BG� will� stay�
�off� as� inductor� current� reverse,� as� it� would� with� the� DTR�
�feature� disabled.�
�Note� that� it� is� expected� that� this� DTR� feature� will� cause�
�additional� loss� on� the� bottom� MOSFET,� due� to� its� body�
�diode� conduction.� The� bottom� FET� temperature� may� be�
�higher� with� a� load� of� frequent� and� large� load� steps.� This�
�is� an� important� design� consideration.� Experiments� on� the�
�demo� board� shows� a� 20°C� increase� when� a� continuous�
�100%� to� 50%� load� step� pulse� train� with� 50%� duty� cycle�
�and� 100kHz� frequency� is� applied� to� the� output.�
�If� not� needed,� this� DTR� feature� can� be� disabled� by� tying�
�the� DTR� pin� to� INTV� CC� ,� or� simply� leave� the� DTR� pin� open�
�so� that� an� internal� 2.5A� current� source� will� pull� itself� up�
�to� INTV� CC� .�
�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.� Percentage� efficiency�
�can� be� expressed� as:�
�%Efficiency� =� 100%� –� (L1%� +� L2%� +� L3%� +� ...)�
�where� L1%,� L2%,� etc.� are� the� individual� losses� as� a� per-�
�centage� of� input� power.� Although� all� dissipative� elements�
�in� the� circuit� produce� power� losses,� several� main� sources�
�usually� account� for� most� of� the� losses� in� LTC3876� circuits:�
�1.� I� 2� R� loss.� These� arise� from� the� DC� resistances� of� the�
�MOSFETs,� inductor,� current� sense� resistor� and� is� the� ma-�
�jority� of� power� loss� at� high� output� currents.� In� continu-�
�ous� mode� the� average� output� current� flows� though� the�
�inductor� L,� but� is� chopped� between� the� top� and� bottom�
�MOSFETs.� If� the� two� MOSFETs� have� approximately� the�
�same� R� DS(ON)� ,� then� the� resistance� of� one� MOSFET� can�
�simply� be� summed� with� the� inductor’s� DC� resistances�
�(DCR)� and� the� board� traces� to� obtain� the� I� 2� R� loss.� For�
�example,� if� each� R� DS(ON)� =� 8mΩ,� R� L� =� 5mΩ,� and� R� SENSE�
�=� 2m� the� loss� will� range� from� 15mW� to� 1.5W� as� the�
�output� current� varies� from� 1A� to� 10A.� This� results� in� loss�
�from� 0.3%� to� 3%� a� 5V� output,� or� 1%� to� 10%� for� a� 1.5V�
�output.� Efficiency� varies� as� the� inverse� square� of� V� OUT�
�for� the� same� external� components� and� output� power�
�level.� The� combined� effects� of� lower� output� voltages�
�and� higher� currents� load� demands� greater� importance�
�of� this� loss� term� in� the� switching� regulator� system.�
�2.� Transition� loss.� This� loss� mostly� arises� from� the� brief�
�amount� of� time� the� top� MOSFET� spends� in� the� satura-�
�tion� (Miller)� region� during� switch� node� transitions.� It�
�depends� upon� the� input� voltage,� load� current,� driver�
�strength� and� MOSFET� capacitance,� among� other� fac-�
�tors,� and� can� be� significant� at� higher� input� voltages� or�
�higher� switching� frequencies.�
�3.� DRV� CC� current.� This� is� the� sum� of� the� MOSFET� driver�
�and� INTV� CC� control� currents.� The� MOSFET� driver� cur-�
�rents� result� from� switching� the� gate� capacitance� of� the�
�power� MOSFETs.� Each� time� a� MOSFET� gate� is� switched�
�from� low� to� high� to� low� again,� a� packet� of� charge� dQ�
�moves� from� DRV� CC� to� ground.� The� resulting� dQ/dt� is� a�
�current� out� of� DRV� CC� that� is� typically� much� larger� than�
�the� controller� I� Q� current.� In� continuous� mode,�
�I� GATECHG� =� f� ?� (Qg� (TOP)� +� Qg� (BOT)� ),�
�where� Qg� (TOP)� and� Qg� (BOT)� are� the� gate� charges� of� the�
�top� and� bottom� MOSFETs,� respectively.�
�Supplying� DRV� CC� power� through� EXTV� CC� could� save�
�several� percents� of� efficiency,� especially� for� high� V� IN�
�applications.� Connecting� EXTV� CC� to� an� output-derived�
�3876f�
�35�
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