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| 型号: | MIC23150-4YMT TR |
| 厂商: | Micrel Inc |
| 文件页数: | 12/15页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC 1.2V 2A 8MLF |
| 产品培训模块: | MIC23xxx HyperLight Load™ Regulators |
| 标准包装: | 1 |
| 系列: | HyperLight Load® |
| 类型: | 降压(降压) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 1.2V |
| 输入电压: | 2.7 V ~ 5.5 V |
| PWM 型: | 混合物 |
| 频率 - 开关: | 4MHz |
| 电流 - 输出: | 2A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-VFDFN 裸露焊盘,8-MLF? |
| 包装: | 标准包装 |
| 供应商设备封装: | 8-MLF?(2x2) |
| 产品目录页面: | 1094 (CN2011-ZH PDF) |
| 其它名称: | 576-3352-6 |
��
�
�100�
�V� IN� =� 2.7V�
�V� IN� =� 5.5V�
�0.1�
�1� 10� 100� 1000� 10000�
�I� LOAD� >� ?� ?�
�?� ?�
�Micrel� Inc.�
�Efficiency�
�V� =� 1.8V�
�OUT�
�V� IN� =� 3.0V� V� IN� =� 3.6V�
�90�
�80�
�70�
�V� IN� =� 4.2V�
�60�
�V� IN� =� 5.0V�
�50� L� =� 1.0μH�
�C� OUT� =� 4.7μF�
�40�
�OUTPUT� CURRENT� (mA)�
�Figure� 2.� Efficiency� Under� Load�
�The� figure� above� shows� an� efficiency� curve.� From� no�
�load� to� 100mA,� efficiency� losses� are� dominated� by�
�quiescent� current� losses,� gate� drive� and� transition�
�losses.� By� using� the� HyperLight� Load?� mode,� the�
�MIC23150� is� able� to� maintain� high� efficiency� at� low�
�output� currents.�
�Over� 100mA,� efficiency� loss� is� dominated� by� MOSFET�
�R� DSON� and� inductor� losses.� Higher� input� supply� voltages�
�will� increase� the� Gate-to-Source� threshold� on� the�
�internal� MOSFETs,� thereby� reducing� the� internal� R� DSON� .�
�This� improves� efficiency� by� reducing� DC� losses� in� the�
�device.� All� but� the� inductor� losses� are� inherent� to� the�
�device.� In� which� case,� inductor� selection� becomes�
�increasingly� critical� in� efficiency� calculations.� As� the�
�inductors� are� reduced� in� size,� the� DC� resistance� (DCR)�
�can� become� quite� significant.� The� DCR� losses� can� be�
�calculated� as� follows:�
�P� DCR� =� I� OUT2� x� DCR�
�MIC23150�
�the� error� comparator� turns� the� PMOS� off� for� a� minimum-�
�off-time� until� the� output� drops� below� the� threshold.� The�
�NMOS� acts� as� an� ideal� rectifier� that� conducts� when� the�
�PMOS� is� off.� Using� a� NMOS� switch� instead� of� a� diode�
�allows� for� lower� voltage� drop� across� the� switching� device�
�when� it� is� on.� The� asynchronous� switching� combination�
�between� the� PMOS� and� the� NMOS� allows� the� control�
�loop� to� work� in� discontinuous� mode� for� light� load�
�operations.� In� discontinuous� mode,� the� MIC23150� works�
�in� pulse� frequency� modulation� (PFM)� to� regulate� the�
�output.� As� the� output� current� increases,� the� off-time�
�decreases,� thus� provides� more� energy� to� the� output.�
�This� switching� scheme� improves� the� efficiency� of�
�MIC23150� during� light� load� currents� by� only� switching�
�when� it� is� needed.� As� the� load� current� increases,� the�
�MIC23150� goes� into� continuous� conduction� mode� (CCM)�
�and� switches� at� a� frequency� centered� at� 4MHz.� The�
�equation� to� calculate� the� load� when� the� MIC23150� goes�
�into� continuous� conduction� mode� may� be� approximated�
�by� the� following� formula:�
�?� (� V� IN� ?� V� OUT� )� � D� ?�
�?� 2� L� � f� ?�
�As� shown� in� the� previous� equation,� the� load� at� which�
�MIC23150� transitions� from� HyperLight� Load?� mode� to�
�PWM� mode� is� a� function� of� the� input� voltage� (V� IN� ),� output�
�voltage� (V� OUT� ),� duty� cycle� (D),� inductance� (L)� and�
�frequency� (f).� As� shown� in� Figure� 3,� as� the� Output�
�Current� increases,� the� switching� frequency� also�
�increases� until� the� MIC23150� goes� from� HyperLight�
�Load� TM� mode� to� PWM� mode� at� approximately� 120mA.�
�The� MIC23150� will� switch� at� a� relatively� constant�
�frequency� around� 4MHz� once� the� output� current� is� over�
�120mA.�
�From� that,� the� loss� in� efficiency� due� to� inductor�
�resistance� can� be� calculated� as� follows:�
�10�
�SW� Frequency�
�vs� Output� Current�
�Efficiency� Loss� =� ?� 1� ?� ?� ?�
�?� ?� � 100�
�?� ?� ?�
�V�
�V�
�?�
�?� ?�
�?� ?�
�V� OUT� � I� OUT�
�V� OUT� � I� OUT� +� P� DCR�
�?� ?�
�?�
�1�
�IN�
�=� 3.0V�
�IN�
�=� 3.6V�
�Efficiency� loss� due� to� DCR� is� minimal� at� light� loads� and�
�gains� significance� as� the� load� is� increased.� Inductor�
�selection� becomes� a� trade-off� between� efficiency� and�
�size� in� this� case.�
�0.1�
�0.01�
�V�
�IN�
�=� 4.2V�
�L� =� 4.7μH�
�V� OUT� =� 1.8V�
�C� =� 4.7μF�
�1�
�10� 100� 1000� 10000�
�HyperLight� Load?� Mode�
�MIC23150� uses� a� minimum� on� and� off� time� proprietary�
�control� loop� (patented� by� Micrel).� When� the� output�
�voltage� falls� below� the� regulation� threshold,� the� error�
�comparator� begins� a� switching� cycle� that� turns� the�
�PMOS� on� and� keeps� it� on� for� the� duration� of� the�
�minimum-on-time.� This� increases� the� output� voltage.� If�
�the� output� voltage� is� over� the� regulation� threshold,� then�
�OUT�
�0.001�
�OUTPUT� CURRENT� (mA)�
�Figure� 3.� SW� Frequency� vs.� Output� Current�
�October� 2009�
�12�
�M9999-102309-B�
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