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参数资料
| 型号: | MIC2811-4GMSYML TR |
| 厂商: | Micrel Inc |
| 文件页数: | 12/17页 |
| 文件大小: | 0K |
| 描述: | IC PWR MGMT DGTL TRPL LDO 16-MLF |
| 标准包装: | 1 |
| 应用: | 手持/移动设备 |
| 电源电压: | 2.7 V ~ 5.5 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-VFQFN 裸露焊盘,16-MLF? |
| 供应商设备封装: | 16-MLF?(4x4) |
| 包装: | 标准包装 |
| 产品目录页面: | 1086 (CN2011-ZH PDF) |
| 其它名称: | 576-3082-6 |
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�
�V� OUT� (� 1� ?�
�)�
�I� PK� =� I� OUT� +�
�Efficiency� _� %� =� ?�
�?� � 100�
�Micrel,� Inc.�
�Applications� Information�
�The� MIC2811� and� MIC2821� are� power� management� ICs�
�with� a� single� integrated� step-down� regulator� and� three�
�low� dropout� regulators.� LDO1,� LDO2,� and� LDO3� are�
�300mA� low� dropout� regulators� supplied� by� their� own�
�independent� input� voltage� pins.� The� supply� to� LDO3�
�(V� IN� )� also� powers� the� bias� circuitry� and� must� be� available�
�for� any� output� to� be� operational.� This� supply� requires� an�
�external� connection� to� DVIN.� The� step-down� regulator� is�
�a� 2MHz� 600mA� PWM� power� supply,� using� small� values�
�of� L� and� C� operating� at� over� 90%� efficiency.�
�DVIN/VIN/VIN1/VIN2�
�All� four� regulators,� the� switch� mode� regulator,� LDO1,�
�LDO2,� and� LDO3� have� their� own� unique� input� voltage�
�supply� pin.� VIN� provides� power� to� LDO3� and� internal�
�circuitry� shared� by� all� the� regulators� and� therefore� must�
�be� available� for� any� of� the� regulators� to� operate� properly.�
�DVIN� and� VIN� must� be� tied� together� and� have� a�
�minimum� input� voltage� of� 2.7V.� Inputs� to� LDO1� (VIN1)�
�and� LDO2� (VIN2)� can� go� as� low� as� 1.65V,� but� should�
�never� exceed� the� VIN� and� DVIN� input� voltage.� Due� to�
�the� high� switching� speeds,� a� 1� μ� F� input� capacitor� is�
�recommended� close� to� the� DVIN,� decoupled� to� the�
�PGND� pin.�
�LDO1�
�Regulated� output� voltage� of� LDO1.� Power� is� provided� by�
�VIN1� and� enabled� through� EN1.� Recommended� output�
�capacitance� is� 2.2� μ� F,� decoupled� to� the� SGND� pin.�
�LDO2�
�Regulated� output� voltage� of� LDO2.� Power� is� provided� by�
�VIN2� and� enabled� through� EN2.� Recommended� output�
�capacitance� is� 2.2� μ� F,� decoupled� to� the� SGND� pin.�
�LDO3�
�Regulated� output� voltage� of� LDO3.� Power� is� provided� by�
�VIN� and� enabled� through� EN� (MIC2811)� or� EN3�
�(MIC2821).� Recommended� output� capacitance� is� 2.2� μ� F,�
�decoupled� to� the� SGND� pin.�
�SW�
�The� switch� (SW)� pin� connects� directly� to� the� inductor�
�and� provides� the� switching� current� necessary� to� operate�
�in� PWM� mode.� Due� to� the� high� speed� switching� on� this�
�pin,� the� switch� node� should� be� routed� away� from�
�sensitive� nodes.�
�DC/DC� Output� Capacitor�
�The� DC/DC� regulator� requires� an� output� capacitor� for�
�proper� operation.� Values� of� greater� than� 2.2� μ� F� improve�
�transient� response� and� noise� reduction� at� high�
�frequency.� X7R/X5R� dielectric-type� ceramic� capacitors�
�are� recommended� because� of� their� superior� temperature�
�MIC2811/2821�
�performance.� X7R-type� capacitors� change� capacitance�
�by� 15%� over� their� operating� temperature� range� and� are�
�the� most� stable� type� of� ceramic� capacitors.� Z5U� and�
�Y5V� dielectric� capacitors� change� value� by� as� much� as�
�50%� to� 60%� respectively� over� their� operating�
�temperature� ranges� and� for� that� reason� are� not�
�recommended.� Larger� output� capacitances� can� be�
�achieved� by� placing� tantalum� or� aluminum� electrolytics�
�in� parallel� with� the� ceramic� capacitor.� For� example,� a�
�100� μ� F� electrolytic� in� parallel� with� a� 10� μ� F� ceramic� can�
�provide� the� transient� and� high� frequency� noise�
�performance� of� a� 100� μ� F� ceramic� at� a� significantly� lower�
�cost.� Specific� undershoot/overshoot� performance� will�
�depend� on� both� the� values� and� ESR/ESL� of� the�
�capacitors.�
�Inductor� Selection�
�Inductor� selection� will� be� determined� by� the� following�
�(not� necessarily� in� the� order� of� importance);�
�?� Inductance�
�?� Rated� current� value�
�?� Size� requirements�
�?� DC� resistance� (DCR)�
�The� MIC2811� and� MIC2821� are� designed� for� use� with� a�
�2.2� μ� H� inductor.� Maximum� current� ratings� of� the� inductor�
�are� generally� given� in� two� methods;� permissible� DC�
�current� and� saturation� current.� Permissible� DC� current�
�can� be� rated� either� for� a� 40°C� temperature� rise� or� a� 10%�
�to� 20%� loss� in� inductance.� Ensure� the� inductor� selected�
�can� handle� the� maximum� operating� current.� When�
�saturation� current� is� specified,� make� sure� that� there� is�
�enough� margin� that� the� peak� current� will� not� saturate� the�
�inductor.� Peak� inductor� current� can� be� calculated� as�
�follows:�
�V� OUT�
�V� IN�
�2� � f� � L�
�The� size� requirements� refer� to� the� area� and� height�
�requirements� that� are� necessary� to� fit� a� particular�
�design.� Please� refer� to� the� inductor� dimensions� on� their�
�datasheet.�
�DC� resistance� is� also� important.� While� DCR� is� inversely�
�proportional� to� size,� DCR� can� represent� a� significant�
�efficiency� loss.�
�Efficiency� Considerations�
�Efficiency� is� defined� as� the� amount� of� useful� output�
�power,� divided� by� the� amount� of� power� supplied.�
�?� Vout� � Iout� ?�
�?� Vin� � Iin� ?�
�Maintaining� high� efficiency� serves� two� purposes.� It�
�reduces� power� dissipation� in� the� power� supply,� reducing�
�the� need� for� heat� sinks� and� thermal� design�
�April� 2008�
�12�
�M9999-042208-A�
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