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参数资料
| 型号: | LTC3891EFE#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 23/32页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 20TSSOP |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 835kHz |
| 占空比: | 99% |
| 电源电压: | 4 V ~ 60 V |
| 降压: | 是 |
| 升压: | 无 |
| 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: | 20-TSSOP(0.173",4.40mm 宽)裸露焊盘 |
| 包装: | 带卷 (TR) |
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�
�LTC3891�
�APPLICATIONS� INFORMATION�
�t� ON(MIN)� <�
�charge required to turn on the top MOSFET. Low duty�
�cycle� applications� may� approach� this� minimum� on-time�
�limit� and� care� should� be� taken� to� ensure� that:�
�V� OUT�
�V� IN� (� f� )�
�If� the� duty� cycle� falls� below� what� can� be� accommodated�
�by� the� minimum� on-time,� the� controller� will� begin� to� skip�
�cycles.� The� output� voltage� will� continue� to� be� regulated,�
�but� the� ripple� voltage� and� current� will� increase.�
�The� minimum� on-time� for� the� LTC3891� is� approximately�
�95ns.� However,� as� the� peak� sense� voltage� decreases� the�
�minimum� on-time� gradually� increases� up� to� about� 130ns.�
�This� is� of� particular� concern� in� forced� continuous� applica-�
�tions� 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� cor-�
�respondingly� larger� current� and� voltage� ripple.�
�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� percent-�
�age� of� input� power.�
�Although� all� dissipative� elements� in� the� circuit� produce�
�losses,� four� main� sources� usually� account� for� most� of� the�
�losses� in� LTC3891� circuits:� 1)� IC� V� IN� current,� 2)� INTV� CC�
�regulator� current,� 3)� I� 2� R� losses,� 4)� topside� MOSFET�
�transition� losses.�
�1.� The� V� IN� current� is� the� DC� supply� current� given� in� the�
�Electrical� Characteristics� table,� which� excludes� MOSFET�
�driver� and� control� currents.� V� IN� current� typically� results�
�in� a� small� (<0.1%)� loss.�
�2.� INTV� CC� current� is� the� sum� of� the� MOSFET� driver� and�
�control� currents.� The� MOSFET� driver� current� results�
�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� INTV� CC� to� ground.� The� resulting� dQ/dt� is� a� current�
�out� of� INTV� CC� that� is� typically� much� larger� than� the�
�control� circuit� current.� In� continuous� mode,� I� GATECHG�
�=� f(Q� T� +� Q� B� ),� where� Q� T� and� Q� B� are� the� gate� charges� of�
�the� topside� and� bottom� side� MOSFETs.�
�Supplying� INTV� CC� from� an� output-derived� source� power�
�through� EXTV� CC� will� scale� the� V� IN� current� required�
�for� the� driver� and� control� circuits� by� a� factor� of� (Duty�
�Cycle)/(Efficiency).� For� example,� in� a� 20V� to� 5V� applica-�
�tion,� 10mA� of� INTV� CC� current� results� in� approximately�
�2.5mA� of� V� IN� current.� This� reduces� the� midcurrent� loss�
�from� 10%� or� more� (if� the� driver� was� powered� directly�
�from� V� IN� )� to� only� a� few� percent.�
�3.� I� 2� R� losses� are� predicted� from� the� DC� resistances� of� the�
�fuse� (if� used),� MOSFET,� inductor,� current� sense� resis-�
�tor� and� input� and� output� capacitor� ESR.� In� continuous�
�mode� the� average� output� current� flows� through� L� and�
�R� SENSE� ,� but� is� chopped� between� the� topside� MOSFET�
�and� the� synchronous� MOSFET.� If� the� two� MOSFETs� have�
�approximately� the� same� R� DS(ON)� ,� then� the� resistance�
�of� one� MOSFET� can� simply� be� summed� with� the� resis-�
�tances� of� L,� R� SENSE� and� ESR� to� obtain� I� 2� R� losses.� For�
�example,� if� each� R� DS(ON)� =� 30mΩ,� R� L� =� 50mΩ,� R� SENSE�
�=� 10m� and� R� ESR� =� 40m� (sum� of� both� input� and�
�output� capacitance� losses),� then� the� total� resistance�
�is� 130mΩ.� This� results� in� losses� ranging� from� 3%� to�
�13%� as� the� output� current� increases� from� 1A� to� 5A� for�
�a� 5V� output,� or� a� 4%� to� 20%� loss� for� a� 3.3V� output.�
�Efficiency� varies� as� the� inverse� square� of� V� OUT� for� the�
�same� external� components� and� output� power� level.� The�
�combined� effects� of� increasingly� lower� output� voltages�
�and� higher� currents� required� by� high� performance� digital�
�systems� is� not� doubling� but� quadrupling� the� importance�
�of� loss� terms� in� the� switching� regulator� system!�
�4.� Transition� losses� apply� only� to� the� topside� MOSFET(s),�
�and� become� significant� only� when� operating� at� high�
�input� voltages� (typically� 15V� or� greater).� Transition�
�losses� can� be� estimated� from:�
�Transition� Loss� =� (1.7)� ?� V� IN� ?� 2� ?� I� O(MAX)� ?� C� RSS� ?� f�
�3891fa�
�23�
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