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| 型号: | MIC2288YML TR |
| 厂商: | Micrel Inc |
| 文件页数: | 7/11页 |
| 文件大小: | 0K |
| 描述: | IC REG BOOST ADJ 1A 8MLF |
| 标准包装: | 1 |
| 类型: | 升压(升压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.24 V ~ 34 V |
| 输入电压: | 2.5 V ~ 10 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 1.2MHz |
| 电流 - 输出: | 1A |
| 同步整流器: | 无 |
| 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: | 1082 (CN2011-ZH PDF) |
| 其它名称: | 576-1075-6 |
��
�
�MIC2288�
�Applications� Information�
�DC-to-DC� PWM� Boost� Conversion�
�The� MIC2288� is� a� constant-frequency� boost� converter.� It�
�operates� by� taking� a� DC� input� voltage� and� regulating� a� higher�
�DC� output� voltage.� Figure� 2� shows� a� typical� circuit.� Boost�
�regulation� is� achieved� by� turning� on� an� internal� switch,� which�
�draws� current� through� the� inductor� (L1).� When� the� switch�
�turns� off,� the� inductor’s� magnetic� field� collapses,� causing� the�
�current� to� be� discharged� into� the� output� capacitor� through� an�
�external� Schottky� diode� (D1).� Voltage� regulation� is� achieved�
�by� modulating� the� pulse� width� or� pulse-width� modulation�
�(PWM).�
�Micrel,� Inc.�
�Component� Selection�
�Inductor�
�Inductor� selection� is� a� balance� between� efficiency,� stability,�
�cost,� size,� and� rated� current.� For� most� applications� a� 10� μ� H� is�
�the� recommended� inductor� value.� It� is� usually� a� good� balance�
�between� these� considerations.�
�Larger� inductance� values� reduce� the� peak-to-peak� ripple�
�current,� affecting� efficiency.� This� has� the� effect� of� reducing�
�both� the� DC� losses� and� the� transition� losses.� There� is� also� a�
�secondary� effect� of� an� inductor’s� DC� resistance� (DCR).� The�
�DCR� of� an� inductor� will� be� higher� for� more� inductance� in� the�
�same� package� size.� This� is� due� to� the� longer� windings�
�V� IN�
�L1�
�10� μ� H�
�D1�
�V� OUT�
�required� for� an� increase� in� inductance.� Since� the� majority� of�
�input� current� (minus� the� MIC2288� operating� current)� is� passed�
�through� the� inductor,� higher� DCR� inductors� will� reduce� effi-�
�MIC2288BML�
�ciency.�
�C1�
�2.2� μ� F�
�VIN�
�SW�
�OVP�
�R1�
�C2�
�10� μ� F�
�To� maintain� stability,� increasing� inductor� size� will� have� to� be�
�met� with� an� increase� in� output� capacitance.� This� is� due� to� the�
�GND�
�EN�
�GND�
�FB�
�R2�
�GND�
�unavoidable� “right� half� plane� zero”� effect� for� the� continuous�
�current� boost� converter� topology.� The� frequency� at� which� the�
�right� half� plane� zero� occurs� can� be� calculated� as� follows:�
�Figure� 2.� Typical� Application� Circuit�
�Duty� Cycle� Considerations�
�F� rhpz� =�
�2�
�V� IN�
�V� OUT� ×� L� ×� I� OUT� ×� 2� π�
�Duty� cycle� refers� to� the� switch� on-to-off� time� ratio� and� can� be�
�calculated� as� follows� for� a� boost� regulator:�
�The� right� half� plane� zero� has� the� undesirable� effect� of�
�increasing� gain,� while� decreasing� phase.� This� requires� that�
�D� =� 1� ?�
�V� IN�
�V� OUT�
�the� loop� gain� is� rolled� off� before� this� has� significant� effect� on�
�the� total� loop� response.� This� can� be� accomplished� by� either�
�reducing� inductance� (increasing� RHPZ� frequency)� or� in-�
�The� duty� cycle� required� for� voltage� conversion� should� be� less�
�than� the� maximum� duty� cycle� of� 85%.� Also,� in� light� load�
�conditions� where� the� input� voltage� is� close� to� the� output�
�voltage,� the� minimum� duty� cycle� can� cause� pulse� skipping.�
�This� is� due� to� the� energy� stored� in� the� inductor� causing� the�
�output� to� overshoot� slightly� over� the� regulated� output� voltage.�
�During� the� next� cycle,� the� error� amplifier� detects� the� output� as�
�being� high� and� skips� the� following� pulse.� This� effect� can� be�
�reduced� by� increasing� the� minimum� load� or� by� increasing� the�
�inductor� value.� Increasing� the� inductor� value� reduces� peak�
�current,� which� in� turn� reduces� energy� transfer� in� each� cycle.�
�Overvoltage� Protection�
�For� the� MLF?� package� option,� there� is� an� overvoltage�
�protection� function.� If� the� feedback� resistors� are� discon-�
�nected� from� the� circuit� or� the� feedback� pin� is� shorted� to�
�ground,� the� feedback� pin� will� fall� to� ground� potential.� This� will�
�cause� the� MIC2288� to� switch� at� full� duty� cycle� in� an� attempt�
�to� maintain� the� feedback� voltage.� As� a� result,� the� output�
�voltage� will� climb� out� of� control.� This� may� cause� the� switch�
�node� voltage� to� exceed� its� maximum� voltage� rating,� possibly�
�damaging� the� IC� and� the� external� components.� To� ensure� the�
�highest� level� of� protection,� the� MIC2288� OVP� pin� will� shut� the�
�switch� off� when� an� overvoltage� condition� is� detected,� saving�
�itself� and� other� sensitive� circuitry� downstream.�
�creasing� the� output� capacitor� value� (decreasing� loop� gain).�
�Output� Capacitor�
�Output� capacitor� selection� is� also� a� trade-off� between� perfor-�
�mance,� size,� and� cost.� Increasing� output� capacitance� will�
�lead� to� an� improved� transient� response,� but� also� an� increase�
�in� size� and� cost.� X5R� or� X7R� dielectric� ceramic� capacitors� are�
�recommended� for� designs� with� the� MIC2288.� Y5V� values�
�may� be� used� but� to� offset� their� tolerance� over� temperature,�
�more� capacitance� is� required.� The� following� table� shows� the�
�recommended� ceramic� (X5R)� output� capacitor� value� vs.�
�output� voltage.�
�Output� Voltage� Recomended� Output� Capacitance�
�<6V� 22� μ� F�
�<16V� 10� μ� F�
�<34V� 4.7� μ� F�
�Table� 1.� Output� Capacitor� Selection�
�Diode� Selection�
�The� MIC2288� requires� an� external� diode� for� operation.� A�
�Schottky� diode� is� recommended� for� most� applications� due� to�
�their� lower� forward� voltage� drop� and� reverse� recovery� time.�
�Ensure� the� diode� selected� can� deliver� the� peak� inductor�
�current� and� the� maximum� reverse� voltage� is� rated� greater�
�than� the� output� voltage.�
�April� 2005�
�7�
�M9999-042205�
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