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参数资料
| 型号: | LTC4006EGN-6#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 14/20页 |
| 文件大小: | 0K |
| 描述: | IC CHARGER BATTERY 4A 16-SSOP |
| 标准包装: | 100 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子(Li-Ion) |
| 电源电压: | 6 V ~ 28 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-SSOP |
| 包装: | 管件 |
��
�
�LTC4006�
�APPLICATIO� S� I� FOR� ATIO�
�Table� 4�
�highest� at� high� input� voltages.� For� V� IN� <� 20V� the� high�
�MAXIMUM�
�AVERAGE� CURRENT� (A)�
�1�
�1�
�2�
�2�
�3�
�3�
�4�
�4�
�INPUT�
�VOLTAGE� (V)�
�≤� 20�
�>� 20�
�≤� 20�
�>� 20�
�≤� 20�
�>� 20�
�≤� 20�
�>� 20�
�MINIMUM� INDUCTOR�
�VALUE� (� μ� H)�
�40� ±� 20%�
�56� ±� 20%�
�20� ±� 20%�
�30� ±� 20%�
�15� ±� 20%�
�20� ±� 20%�
�10� ±� 20%�
�15� ±� 20%�
�current� efficiency� generally� improves� with� larger� MOSFETs,�
�while� for� V� IN� >� 20V� the� transition� losses� rapidly� increase�
�to� the� point� that� the� use� of� a� higher� R� DS(ON)� device� with�
�lower� C� RSS� actually� provides� higher� efficiency.� The� syn-�
�chronous� MOSFET� losses� are� greatest� at� high� input� volt-�
�age� or� during� a� short� circuit� when� the� duty� cycle� in� this�
�switch� is� nearly� 100%.� The� term� (1� +� δ?� T)� is� generally�
�given� for� a� MOSFET� in� the� form� of� a� normalized� R� DS(ON)� vs�
�temperature� curve,� but� δ� =� 0.005/� °� C� can� be� used� as� an�
�approximation� for� low� voltage� MOSFETs.� C� RSS� is� usually�
�Charger� Switching� Power� MOSFET�
�and� Diode� Selection�
�Two� external� power� MOSFETs� must� be� selected� for� use�
�with� the� charger:� a� P-channel� MOSFET� for� the� top� (main)�
�switch� and� an� N-channel� MOSFET� for� the� bottom� (syn-�
�chronous)� switch.�
�The� peak-to-peak� gate� drive� levels� are� set� internally.� This�
�voltage� is� typically� 6V.� Consequently,� logic-level� threshold�
�MOSFETs� must� be� used.� Pay� close� attention� to� the� BV� DSS�
�specification� for� the� MOSFETs� as� well;� many� of� the� logic�
�level� MOSFETs� are� limited� to� 30V� or� less.�
�Selection� criteria� for� the� power� MOSFETs� include� the� “ON”�
�resistance� R� DS(ON)� ,� total� gate� capacitance� Q� G� ,� reverse�
�transfer� capacitance� C� RSS� ,� input� voltage� and� maximum�
�output� current.� The� charger� is� operating� in� continuous�
�mode� at� moderate� to� high� currents� so� the� duty� cycles� for�
�the� top� and� bottom� MOSFETs� are� given� by:�
�Main� Switch� Duty� Cycle� =� V� OUT� /V� IN�
�Synchronous� Switch� Duty� Cycle� =� (V� IN� –� V� OUT� )/V� IN� .�
�The� MOSFET� power� dissipations� at� maximum� output�
�current� are� given� by:�
�PMAIN� =� V� OUT� /V� IN� (I� 2MAX� )(1� +� δ?� T)R� DS(ON)�
�+� k(V� 2IN� )(I� MAX� )(C� RSS� )(f� OSC� )�
�PSYNC� =� (V� IN� –� V� OUT� )/V� IN� (I� 2MAX� )(1� +� δ?� T)R� DS(ON)�
�Where� δ� is� the� temperature� dependency� of� R� DS(ON)� and� k�
�is� a� constant� inversely� related� to� the� gate� drive� current.�
�Both� MOSFETs� have� I� 2� R� losses� while� the� PMAIN� equation�
�specified� in� the� MOSFET� characteristics;� if� not,� then� C� RSS�
�can� be� calculated� using� C� RSS� =� Q� GD� /� ?� V� DS� .� The� constant�
�k� =� 2� can� be� used� to� estimate� the� contributions� of� the� two�
�terms� in� the� main� switch� dissipation� equation.�
�If� the� charger� is� to� operate� in� low� dropout� mode� or� with� a�
�high� duty� cycle� greater� than� 85%,� then� the� topside�
�P-channel� efficiency� generally� improves� with� a� larger�
�MOSFET.� Using� asymmetrical� MOSFETs� may� achieve� cost�
�savings� or� efficiency� gains.�
�The� Schottky� diode� D1,� shown� in� the� Typical� Application�
�on� the� back� page,� conducts� during� the� dead-time� between�
�the� conduction� of� the� two� power� MOSFETs.� This� prevents�
�the� body� diode� of� the� bottom� MOSFET� from� turning� on� and�
�storing� charge� during� the� dead-time,� which� could� cost� as�
�much� as� 1%� in� efficiency.� A� 1A� Schottky� is� generally� a�
�good� size� for� 4A� regulators� due� to� the� relatively� small�
�average� current.� Larger� diodes� can� result� in� additional�
�transition� losses� due� to� their� larger� junction� capacitance.�
�The� diode� may� be� omitted� if� the� efficiency� loss� can� be�
�tolerated.�
�Calculating� IC� Power� Dissipation�
�The� power� dissipation� of� the� LTC4006� is� dependent� upon�
�the� gate� charge� of� the� top� and� bottom� MOSFETs� (Q� G1� and�
�Q� G2� respectively).� The� gate� charge� is� determined� from� the�
�manufacturer’s� data� sheet� and� is� dependent� upon� both� the�
�gate� voltage� swing� and� the� drain� voltage� swing� of� the�
�MOSFET.� Use� 6V� for� the� gate� voltage� swing� and� V� DCIN� for�
�the� drain� voltage� swing.�
�P� D� =� V� DCIN� ?� (f� OSC� (Q� G1� +� Q� G2� )� +� I� DCIN� )�
�includes� an� additional� term� for� transition� losses,� which� are�
�4006fa�
�14�
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