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| 型号: | MIC2124YMM |
| 厂商: | Micrel Inc |
| 文件页数: | 13/24页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 10-MSOP |
| 产品培训模块: | MIC2124 Synchronous Current Mode DC-DC Buck Controller |
| 标准包装: | 100 |
| 系列: | Hyper Speed Control™ |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 360kHz |
| 占空比: | 93% |
| 电源电压: | 3 V ~ 5.5 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 包装: | 管件 |
| 其它名称: | 576-3639-5 MIC2124YMM-ND |
��
�
�Micrel,� Inc.�
�where:�
�t� T� =� Switching� transition� time�
�V� D� =� Body� diode� drop� (0.5V)�
�f� SW� =� Switching� Frequency� (300kHz)�
�The� low-side� MOSFET� switching� losses� are� negligible�
�and� can� be� ignored� for� these� calculations.�
�Inductor� Selection�
�Values� for� inductance,� peak,� and� RMS� currents� are�
�required� to� select� the� output� inductor.� The� input� and�
�output� voltages� and� the� inductance� value� determine� the�
�peak-to-peak� inductor� ripple� current.� Generally,� higher�
�inductance� values� are� used� with� higher� input� voltages.�
�MIC2124�
�Lower� cost� iron� powder� cores� may� be� used� but� the�
�increase� in� core� loss� will� reduce� the� efficiency� of� the�
�power� supply.� This� is� especially� noticeable� at� low� output�
�power.� The� winding� resistance� decreases� efficiency� at�
�the� higher� output� current� levels.� The� winding� resistance�
�must� be� minimized� although� this� usually� comes� at� the�
�expense� of� a� larger� inductor.� The� power� dissipated� in� the�
�inductor� is� equal� to� the� sum� of� the� core� and� copper�
�losses.� At� higher� output� loads,� the� core� losses� are�
�usually� insignificant� and� can� be� ignored.� At� lower� output�
�currents,� the� core� losses� can� be� a� significant� contributor.�
�Core� loss� information� is� usually� available� from� the�
�magnetics� vendor.� Copper� loss� in� the� inductor� is�
�calculated� by� the� equation� below:�
�P� INDUCTOR� Cu� =� I� L(RMS)� ?� R� WINDING�
�Larger� peak-to-peak� ripple� currents� will� increase� the�
�power� dissipation� in� the� inductor� and� MOSFETs.� Larger�
�2�
�(16)�
�V� OUT� ?� (� V� HSD(max)� ?� V� OUT� )�
�Δ� I� L(PP)� =�
�V� OUT� ?� (V� HSD(max)� ?� V� OUT� )�
�output� ripple� currents� will� also� require� more� output�
�capacitance� to� smooth� out� the� larger� ripple� current.�
�Smaller� peak-to-peak� ripple� currents� require� a� larger�
�inductance� value� and� therefore� a� larger� and� more�
�expensive� inductor.� A� good� compromise� between� size,�
�loss� and� cost� is� to� set� the� inductor� ripple� current� to� be�
�equal� to� 20%� of� the� maximum� output� current.� The�
�inductance� value� is� calculated� by� the� equation� below.�
�L� =� (12)�
�V� HSD� ?� f� SW� ?� 20%� ?� I� OUT(max)�
�where:�
�f� SW� =� switching� frequency,� 300� kHz�
�20%� =� ratio� of� AC� ripple� current� to� DC� output� current�
�V� HSD(max)� =� maximum� power� stage� input� voltage�
�The� peak-to-peak� inductor� current� ripple� is:�
�(13)�
�V� HSD(max)� ?� f� SW� ?� L�
�The� peak� inductor� current� is� equal� to� the� average� output�
�current� plus� one� half� of� the� peak-to-peak� inductor� current�
�ripple.�
�The� resistance� of� the� copper� wire,� R� WINDING� ,� increases�
�with� the� temperature.� The� value� of� the� winding�
�resistance� used� should� be� at� the� operating� temperature.�
�R� WINDING(Ht� )� =� R� WINDING(20� °� C)� ?� (� 1� +� 0.0042� ?� (T� H� ?� T� 20� °� C� )� )�
�(17)�
�where:�
�T� H� =� temperature� of� wire� under� full� load�
�T� 20°C� =� ambient� temperature�
�R� WINDING(20°C)� =� room� temperature� winding� resistance�
�(usually� specified� by� the� manufacturer)�
�Output� Capacitor� Selection�
�The� type� of� the� output� capacitor� is� usually� determined� by�
�its� ESR� (equivalent� series� resistance).� Voltage� and� RMS�
�current� capability� are� two� other� important� factors� for�
�selecting� the� output� capacitor.� Recommended� capacitors�
�are� tantalum,� low-ESR� aluminum� electrolytic,� OS-CON�
�and� POSCAPS.� The� output� capacitor’s� ESR� is� usually�
�the� main� cause� of� the� output� ripple.� The� output� capacitor�
�ESR� also� affects� the� control� loop� from� a� stability� point� of�
�view.� See� “Feedback� Loop� Compensation”� section� for�
�more� information.� The� maximum� value� of� ESR� is�
�I� L(pk)� =� I� OUT(max)� +� 0.5� ×� Δ� I� L(PP)�
�(14)�
�calculated:�
�The� RMS� inductor� current� is� used� to� calculate� the� I� R�
�losses� in� the� inductor.�
�2�
�ESR� C� OUT� ≤�
�Δ� V� OUT(PP)�
�Δ� I� L(PP)�
�(18)�
�Δ� I� L(PP)�
�I� L(RMS)� =� I� OUT(max)� +�
�(15)�
�2�
�2�
�12�
�Maximizing� efficiency� requires� the� proper� selection� of�
�core� material� and� minimizing� the� winding� resistance.� The�
�high� frequency� operation� of� the� MIC2124� requires� the�
�where:�
�Δ� V� OUT(PP)� =� peak-to-peak� output� voltage� ripple�
�Δ� I� L(PP)� =� peak-to-peak� inductor� current� ripple�
�The� total� output� ripple� is� a� combination� of� the� ESR� and�
�output� capacitance.� The� total� ripple� is� calculated� below:�
�=� ?� ?�
�?�
�Δ� I� L(PP)�
�(�
�C� OUT� ?� f� SW� ?� 8� ?� ?�
�)�
�use� of� ferrite� materials� for� all� but� the� most� cost� sensitive�
�applications.�
�Δ� V� OUT(PP)�
�?�
�?�
�2�
�?� +� Δ� I� L(PP)� ?� ESR� C�
�OUT�
�2�
�(19)�
�June� 2010�
�13�
�M9999-060810-D�
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