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| 型号: | MIC4129YML TR |
| 厂商: | Micrel Inc |
| 文件页数: | 8/10页 |
| 文件大小: | 0K |
| 描述: | IC DRIVER MOSFET 6A INVERT 8-MLF |
| 标准包装: | 1 |
| 配置: | 低端 |
| 输入类型: | 反相 |
| 延迟时间: | 45ns |
| 电流 - 峰: | 6A |
| 配置数: | 1 |
| 输出数: | 1 |
| 电源电压: | 4.5 V ~ 20 V |
| 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? |
| 供应商设备封装: | 8-MLF?(2x2) |
| 包装: | 标准包装 |
| 产品目录页面: | 1109 (CN2011-ZH PDF) |
| 其它名称: | 576-1791-6 |
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�
�MIC4120/4129�
�Capacitive� Load� Power� Dissipation�
�Dissipation� caused� by� a� capacitive� load� is� simply� the� energy�
�placed� in,� or� removed� from,� the� load� capacitance� by� the�
�driver.� The� energy� stored� in� a� capacitor� is� described� by� the�
�equation:�
�E� =� 1/2� C� V� 2�
�As� this� energy� is� lost� in� the� driver� each� time� the� load� is� charged�
�or� discharged,� for� power� dissipation� calculations� the� 1/2� is�
�removed.� This� equation� also� shows� that� it� is� good� practice�
�not� to� place� more� voltage� on� the� capacitor� than� is� necessary,�
�as� dissipation� increases� as� the� square� of� the� voltage� applied�
�to� the� capacitor.� For� a� driver� with� a� capacitive� load:�
�Micrel,� Inc.�
�Transition� Power� Dissipation�
�Transition� power� is� dissipated� in� the� driver� each� time� its� out� -�
�put� changes� state,� because� during� the� transition,� for� a� very�
�brief� interval,� both� the� N-� and� P-channel� MOSFETs� in� the�
�output� totem-pole� are� ON� simultaneously,� and� a� current� is�
�conducted� through� them� from� V� +S� to� ground.� The� transition�
�power� dissipation� is� approximately:�
�P� T� =� 2� f� V� S� (A?s)�
�where� (A?s)� is� a� time-current� factor� derived� from� the� typical�
�characteristic� curves.�
�Total� power� (P� D� )� then,� as� previously� described� is:�
�where:�
�P� L� =� f� C� (V� S� )� 2�
�P� D� =� P� L� +� P� Q� +P� T�
�Definitions�
�f� =� Operating� Frequency�
�C� =� Load� Capacitance�
�V� S� =� Driver� Supply� Voltage�
�Inductive� Load� Power� Dissipation�
�For� inductive� loads� the� situation� is� more� complicated.� For�
�the� part� of� the� cycle� in� which� the� driver� is� actively� forcing�
�current� into� the� inductor,� the� situation� is� the� same� as� it� is� in�
�the� resistive� case:�
�P� L1� =� I� 2� R� O� D�
�However,� in� this� instance� the� R� O� required� may� be� either�
�the� on� resistance� of� the� driver� when� its� output� is� in� the� high�
�state,� or� its� on� resistance� when� the� driver� is� in� the� low� state,�
�depending� on� how� the� inductor� is� connected,� and� this� is� still�
�only� half� the� story.� For� the� part� of� the� cycle� when� the� induc� -�
�tor� is� forcing� current� through� the� driver,� dissipation� is� best�
�described� as�
�P� L2� =� I� V� D� (1-D)�
�where� V� D� is� the� forward� drop� of� the� clamp� diode� in� the� driver�
�(generally� around� 0.7V).� The� two� parts� of� the� load� dissipation�
�must� be� summed� in� to� produce� P� L�
�P� L� =� P� L1� +� P� L2�
�Quiescent� Power� Dissipation�
�Quiescent� power� dissipation� (P� Q� ,� as� described� in� the� input�
�section)� depends� on� whether� the� input� is� high� or� low.� A� low�
�input� will� result� in� a� maximum� current� drain� (per� driver)� of�
�≤0.2mA;� a� logic� high� will� result� in� a� current� drain� of� ≤2.0mA.�
�Quiescent� power� can� therefore� be� found� from:�
�P� Q� =� V� S� [D� I� H� +� (1-D)� I� L� ]�
�where:�
�C� L� =� Load� Capacitance� in� Farads.�
�D� =� Duty� Cycle� expressed� as� the� fraction� of� time� the�
�input� to� the� driver� is� high.�
�f� =� Operating� Frequency� of� the� driver� in� Hertz.�
�I� H� =� Power� supply� current� drawn� by� a� driver� when� both�
�inputs� are� high� and� neither� output� is� loaded.�
�I� L� =� Power� supply� current� drawn� by� a� driver� when� both�
�inputs� are� low� and� neither� output� is� loaded.�
�I� D� =� Output� current� from� a� driver� in� Amps.�
�P� D� =� Total� power� dissipated� in� a� driver� in� Watts.�
�P� L� =� Power� dissipated� in� the� driver� due� to� the� driver� ’s�
�load� in� Watts.�
�P� Q� =� Power� dissipated� in� a� quiescent� driver� in� Watts.�
�P� T� =� Power� dissipated� in� a� driver� when� the� output�
�changes� states� (“shoot-through� current”)� in� Watts.�
�NOTE:� The� “shoot-through”� current� from� a� dual�
�transition� (once� up,� once� down)� for� both� drivers�
�is� shown� by� the� "Typical� Characteristic� Curve":�
�Crossover� Area� vs.� Supply� Voltage� and� is� in� am� -�
�pere-seconds.� This� figure� must� be� multiplied� by�
�the� number� of� repetitions� per� second� (frequency)�
�to� find� Watts.�
�R� O� =� Output� resistance� of� a� driver� in� Ohms.�
�V� S� =� Power� supply� voltage� to� the� IC� in� Volts.�
�I� H� =�
�I� L� =�
�D� =�
�V� S� =�
�quiescent� current� with� input� high�
�quiescent� current� with� input� low�
�fraction� of� time� input� is� high� (duty� cycle)�
�power� supply� voltage�
�M9999-072010�
�8�
�July� 2010�
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