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参数资料
| 型号: | MIC2299-15YML TR |
| 厂商: | Micrel Inc |
| 文件页数: | 11/14页 |
| 文件大小: | 0K |
| 描述: | IC LED DRIVR WHITE BCKLGT 12-MLF |
| 标准包装: | 1 |
| 恒定电流: | 是 |
| 拓扑: | PWM,升压(升压) |
| 输出数: | 1 |
| 内部驱动器: | 是 |
| 类型 - 主要: | 背光,闪灯/白光 |
| 类型 - 次要: | 白色 LED |
| 频率: | 1.75MHz ~ 2.3MHz |
| 电源电压: | 2.5 V ~ 10 V |
| 输出电压: | 30V |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 12-VFDFN 裸露焊盘,12-MLF? |
| 供应商设备封装: | 12-MLF?(4x4) |
| 包装: | 标准包装 |
| 工作温度: | -40°C ~ 125°C |
| 产品目录页面: | 1082 (CN2011-ZH PDF) |
| 其它名称: | 576-3052-6 |
��
�
�V� IN�
�?� L� ?� I� OUT� ?� 2� π�
�Micrel,� Inc.�
�Component� Selection�
�Inductor�
�Inductor� selection� is� a� balance� between� efficiency,�
�stability,� cost,� size,� and� rated� current.� For� most�
�applications� a� 2.2μH� 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� required� for� an�
�increase� in� inductance.� Since� the� majority� of� input�
�current� (minus� the� MIC2299� operating� current)� is� passed�
�through� the� inductor,� higher� DCR� inductors� will� reduce�
�efficiency.� To� maintain� stability,� increasing� inductor� size�
�will� have� to� be� met� with� an� increase� in� output�
�capacitance.� This� is� due� to� the� 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:�
�2�
�f� rhpz� =�
�V� OUT�
�MIC2299�
�Diode� Selection�
�The� MIC2299� 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.� Some� lower�
�voltage� Schottky� diodes� have� a� high� reverse� leakage�
�current� when� hot.� This� can� cause� high� operating�
�currents� during� OVP.� Using� a� 40V� rated� Schottky� will�
�minimize� such� undesirable� behavior.�
�Input� capacitor�
�A� minimum� 2.2μF� ceramic� capacitor� with� an� X5R� or� X7R�
�dielectric� is� recommended� for� designing� with� the�
�MIC2299.� Increasing� input� capacitance� will� improve�
�performance� and� provide� greater� noise� immunity� on� the�
�source.� The� input� capacitor� should� be� as� close� as�
�possible� to� the� inductor� and� the� MIC2299,� with� short�
�traces� for� good� noise� performance.�
�The� MIC2299� utilizes� a� feedback� pin� to� compare� the�
�LED� current� to� an� internal� reference.� The� LED� current� is�
�adjusted� by� selecting� the� appropriate� feedback� resistor�
�value.� The� desired� output� current� can� be� calculated� as�
�follows:�
�The� right� half� plane� zero� has� the� undesirable� effect� of�
�increasing� gain,� while� decreasing� phase.� This� requires�
�that� the� loop� gain� is� rolled� off� before� this� has� significant�
�I� LED� =�
�0 . 2� V�
�R�
�f� z� =�
�f� zero� =�
�f� pole� =�
�effect� on� the� total� loop� response.� This� can� be�
�accomplished� by� either� reducing� inductance� (increasing�
�RHPZ� frequency)� or� increasing� the� output� capacitor�
�value� (decreasing� loop� gain).�
�Output� Capacitor�
�Output� capacitor� selection� is� also� a� trade-off� between�
�performance,� size,� and� cost.� The� recommended� value�
�for� most� applications� should� be� 4.7μF.� 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� MIC2299.�
�The� output� capacitor� sets� the� frequency� of� the� dominant�
�pole� and� zero� in� the� power� stage.� The� zero� is� given� by:�
�1�
�C� ?� R� esr� ?� 2� π�
�For� ceramic� capacitors,� the� ESR� is� very� small.� This� puts�
�the� zero� at� a� very� high� frequency� where� it� can� be�
�ignored.�
�The� frequency� of� the� pole� caused� by� the� output�
�capacitor� is� given� by.�
�Compensation�
�The� comp� pin� is� connected� to� the� output� of� the� voltage�
�error� amplifier.� The� voltage� error� amplifier� is� a�
�transconductance� amplifier.� Adding� a� series� RC-to-�
�ground� adds� a� zero� at:�
�1�
�2� π� R� 2� C� 4�
�The� resistor� typically� ranges� from� 10k� ?� to� 50k� ?� .� The�
�capacitor� typically� ranges� from� 1nF� to� 100nF.� For� most�
�application,� the� value� 33nF� and� 620� ?� are� optimum.�
�Adding� an� optional� capacitor� from� comp� pin-to-ground�
�adds� a� pole� at:�
�1�
�2� π� R� 2� C� 3�
�This� capacitor� typically� ranges� from� 100pF� to� 10nF.�
�Generally,� an� RC� to� ground� is� all� that� is� needed.� The� RC�
�should� be� placed� as� close� as� possible� to� the�
�compensation� pin.� The� capacitor� should� be� a� ceramic�
�with� a� X5R,� X7R,� or� COG� dielectric.�
�f� p� =�
�I� OUT�
�C� ?� V� OUT� ?� 2� ?� π�
�October� 2007�
�11�
�M9999-101907-B�
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