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参数资料
| 型号: | MIC3232YMM |
| 厂商: | Micrel Inc |
| 文件页数: | 15/19页 |
| 文件大小: | 0K |
| 描述: | IC LED DRVR HP CONS CURR 10-MSOP |
| 标准包装: | 100 |
| 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: | 通用 |
| 频率: | 400kHz |
| 电源电压: | 6 V ~ 45 V |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 供应商设备封装: | 10-MSOP |
| 包装: | 管件 |
| 工作温度: | -40°C ~ 125°C |
| 产品目录页面: | 1082 (CN2011-ZH PDF) |
| 其它名称: | 576-3405-5 |
��
�
�Micrel,� Inc.�
�Maximum� Power� dissipated� in� R� CS� is;�
�Input� Capacitor�
�MIC3230/1/2�
�P� R� CS� =� I� R� CS� _� RMS� � R� CS�
�Eq.� (17)�
�2�
�The� input� current� is� shown� in� Figure� 5.� For� superior�
�performance,� ceramic� capacitors� should� be� used� because� of�
�Eq.� (18)�
�I� R� CS� _� RMS� _� max� =� I� FET� _� RMS� _� max� =� D� ?� ?� I� IN� _� AVE� _� max� 2� +�
�0� .� 26� 2� ?� ?�
�I� R� CS� _� RMS� =� 0� .� 78� ?� 1� .� 64� 2� +�
�?�
�12� ?� ?�
�?�
�?�
�?�
�?�
�?�
�=� 1� .� 44� A� _� rms�
�?�
�P� R� CS� =� 1� .� 25� 2� � .� 15� =� 0� .� 31� watt�
�I� L� _� PP� 2� ?� ?�
�12�
�their� low� equivalent� series� resistance� (ESR).� The� input� ripple�
�current� is� equal� to� the� ripple� in� the� inductor� plus� the� ripple�
�voltage� across� the� input� capacitor,� which� is� the� ESR� of� C� IN�
�times� the� inductor� ripple.� The� input� capacitor� will� also�
�bypass� the� EMI� generated� by� the� converter� as� well� as� any�
�voltage� spikes� generated� by� the� inductance� of� the� input� line.�
�For� a� required� V� IN_RIPPLE� :�
�Eq.� (21)�
�Use� a� 1/2� Watt� resistor� for� R� CS� .�
�Output� Capacitor�
�C� IN� =�
�I� IN� _� PP�
�8� � V� IN� _� RIPPLE� � F� SW�
�=�
�(� 0� .� 28� A� )�
�8� � 50� mV� � 500� kHz�
�=� 1� .� 4� μ� F�
�ILED� nom� *� D� nom� *� T�
�In� this� LED� driver� application,� the� ILED� ripple� current� is� a�
�more� important� factor� compared� to� that� of� the� output�
�ripple� voltage� (although� the� two� are� directly� related).� To�
�find� the� C� OUT� for� a� required� ILED� ripple� use� the� following�
�calculation:�
�For� an� output� ripple� ILED� ripple� =� 20%� of� ILED� nom�
�ILED� ripple� =� 0� .� 2� � 0� .� 35� =� 70� mA�
�Eq.� (19)� C� out� =�
�ILED� ripple� *� (� R� adj� +� R� LED� _� total� )�
�Find� the� equivalent� ac� resistance� R� LED� _� ac� from� the�
�datasheet� of� the� LED.� This� is� the� inverse� slope� of� the�
�ILED� vs.� V� F� curve� i.e.:�
�This� is� the� minimum� value� that� should� be� used.� The� input�
�capacitor� should� also� be� rated� for� the� maximum� RMS� input�
�current.� To� protect� the� IC� from� inductive� spikes� or� any�
�overshoot,� a� larger� value� of� input� capacitance� may� be�
�required� and� it� is� recommended� that� ceramic� capacitors� be�
�used.� In� this� design� example� a� value� of� 4.7μF� ceramic�
�capacitor� was� selected.�
�MOSFET� Selection�
�In� this� design� example,� the� FET� has� to� hold� off� an� output�
�voltage� maximum� of� 30V.� It� is� recommended� to� use� an� 80%�
�de-rating� value� on� switching� FETs,� so� a� minimum� of� a� 38V�
�FET� should� be� selected.� In� this� design� example,� a� 75V� FET�
�has� been� selected.�
�The� switching� FET� power� losses� are� the� sum� of� the�
�Eq.� (20)�
�R� LED� _� ac� =�
�Δ� V� F�
�Δ� ILED�
�conduction� loss� and� the� switching� loss:�
�Eq.� (22)� P� FET� =� P� FET� _� COND� +� P� FET� _� SWITCH�
�C� out� =�
�ILED� nom� *� D� nom� *� T�
�?� I� L� _� PP� ?�
�=� D� ?� I� IN� _� AVE� +�
�?�
�I� FET� _� RMS�
�12� ?� ?�
�?�
�T� =�
�Eq.� (24)�
�In� this� example,� use� R� LED� _� ac� =� 0� .� 1� ?� for� each� LED.�
�If� the� LEDs� are� connected� in� series,� multiply�
�R� LED� _� ac� =� 0� .� 1� ?� by� the� total� number� of� LEDs.� In� this�
�example� of� 6� LEDs,� we� obtain� the� following:�
�R� LED� _� total� =� 6� ×� 0� .� 1� Ω� =� 0� .� 6� Ω�
�=� 4� .� 1� uF�
�ILED� ripple� *� (� R� adj� +� R� LED� _� total� )�
�Use� the� next� highest� standard� value,� which� is� 4.7� μ� F.�
�There� is� a� trade� off� between� the� output� ripple� and� the�
�rising� edge� of� the� PWMD� pulse.� This� is� because�
�between� PWM� dimming� pulses,� the� converter� stops�
�pulsing� and� C� OUT� will� start� to� discharge.� The� amount� that�
�C� OUT� will� discharge� depends� on� the� time� between� PWM�
�Dimming� pluses.� At� the� next� PWMD� pulse� C� OUT� has� to�
�be� charged� up� to� the� full� output� voltage� V� OUT� before� the�
�desired� LED� current� flows.�
�The� conduction� loss� of� the� FET� is� when� the� FET� is� turned�
�on.� The� conduction� power� loss� of� the� FET� is� found� by� the�
�following� equation:�
�Eq.� (23)� P� FET� _� COND� =� I� FET� _� RMS� 2� � R� DSON� ,� where�
�2�
�2�
�?�
�The� switching� losses� occur� during� the� switching� transitions�
�of� the� FET.� The� transition� times,� t� transition� ,� are� the� times� when�
�the� FET� is� turning� off� and� on.� There� are� two� transition� times�
�per� period,� T.� It� is� important� not� to� confuse� T� (the� period)�
�with� the� transition� time,� t� transition� .�
�1�
�Fsw�
�Eq.� (25)�
�P� FET� _� SWITCH� _� max� =� I� FET� _� AVE� _� max� � V� OUT� _� max� � t� transition� _� max� � F� SW�
�To� find� t� transition� _� max� :�
�March� 2011�
�15�
�M9999-030311-D�
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| MIC3232YMM EV | 功能描述:LED 照明开发工具 400kHz Fixed Frequency Boost Driver Controller for High Power LEDs - Evaluation Board RoHS:否 制造商:Fairchild Semiconductor 产品:Evaluation Kits 用于:FL7732 核心: 电源电压:120V 系列: 封装: |
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