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参数资料
| 型号: | MAX17015ETP+ |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 20/24页 |
| 文件大小: | 0K |
| 描述: | IC MULTI-CHEM BATT CHRGR 20-TQFN |
| 标准包装: | 75 |
| 功能: | 充电管理 |
| 电池化学: | 多化学 |
| 电源电压: | 8 V ~ 26 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 20-WFQFN 裸露焊盘 |
| 供应商设备封装: | 20-TQFN-EP(4x4) |
| 包装: | 管件 |
��
�
�1.2MHz� Low-Cost,�
�High-Performance� Chargers�
�k� � V� IN2�
�For optimum size and inductor current ripple, choose�
�LIR� MAX� =� 0.4,� which� sets� the� ripple� current� to� 40%� the�
�charge� current� and� results� in� a� good� balance� between�
�inductor� size� and� efficiency.� Higher� inductor� values�
�decrease� the� ripple� current.� Smaller� inductor� values�
�save� cost� but� require� higher� saturation� current� capabili-�
�ties� and� degrade� efficiency.�
�Inductor� L1� must� have� a� saturation� current� rating� of� at�
�least� the� maximum� charge� current� plus� 1/2� the� ripple�
�current� (� Δ� IL):�
�I� SAT� =� I� CHG� +� (1/2)� Δ� IL�
�The� ripple� current� is� determined� by:�
�Δ� IL� =�
�4� L�
�Input� Capacitor� Selection�
�The� input� capacitor� must� meet� the� ripple� current�
�requirement� (I� RMS� )� imposed� by� the� switching� currents.�
�Nontantalum� chemistries� (ceramic,� aluminum,� or�
�OS-CON)� are� preferred� due� to� their� resilience� to� power-�
�up� and� surge� currents:�
�Choose� k� CAP-BIAS� is� a� derating� factor� of� 2� for� typical� 25V-�
�rated� ceramic� capacitors.�
�For� f� SW� =� 800kHz,� I� RIPPLE� =� 1A,� and� to� get� Δ� V� BATT� =�
�70mV,� choose� C� OUT� as� 4.7μF.�
�If� the� internal� resistance� of� battery� is� close� to� the� ESR� of�
�the� output� capacitor,� the� voltage� ripple� is� shared� with�
�the� battery� and� is� less� than� calculated.�
�Applications� Information�
�Setting� Input� Current� Limit�
�The� input� current� limit� should� be� set� based� on� the� cur-�
�rent� capability� of� the� AC� adapter� and� the� tolerance� of�
�the� input� current� limit.� The� upper� limit� of� the� input� cur-�
�rent� threshold� should� never� exceed� the� adapter’s� mini-�
�mum� available� output� current.� For� example,� if� the�
�adapter’s� output� current� rating� is� 5A� ±� 10%,� the� input�
�current� limit� should� be� selected� so� that� its� upper� limit� is�
�less� than� 5A� � 0.9� =� 4.5A.� Since� the� input� current-limit�
�accuracy� of� the� MAX17005/MAX17006/MAX17015� is�
�±� 3%,� the� typical� value� of� the� input� current� limit� should�
�be� set� at� 4.5A/1.03� ≈� 4.36A.� The� lower� limit� for� input�
�current� must� also� be� considered.� For� chargers� at� the�
�BATT� � (� V� DCIN� BATT� )�
�?� ?�
�?� V� ?� V�
�I� RMS� =� I� CHG� � ?�
�V� DCIN�
�?�
�?�
�?� ?�
�low� end� of� the� spec,� the� input� current� limit� for� this�
�example� could� be� 4.36A� � 0.95� or� approximately� 4.14A.�
�Layout� and� Bypassing�
�The� input� capacitors� should� be� sized� so� that� the� tem-�
�perature� rise� due� to� ripple� current� in� continuous� con-�
�duction� does� not� exceed� approximately� 10� °� C.� The�
�maximum� ripple� current� occurs� at� 50%� duty� factor� or�
�V� DCIN� =� 2� x� V� BATT� ,� which� equates� to� 0.5� x� I� CHG� .� If� the�
�application� of� interest� does� not� achieve� the� maximum�
�value,� size� the� input� capacitors� according� to� the� worst-�
�case� conditions.�
�Output� Capacitor� Selection�
�The� output� capacitor� absorbs� the� inductor� ripple� cur-�
�rent� and� must� tolerate� the� surge� current� delivered� from�
�the� battery� when� it� is� initially� plugged� into� the� charger.�
�As� such,� both� capacitance� and� ESR� are� important�
�parameters� in� specifying� the� output� capacitor� as� a� filter�
�and� to� ensure� the� stability� of� the� DC-to-DC� converter�
�(see� the� Compensation� section.)� Beyond� the� stability�
�requirements,� it� is� often� sufficient� to� make� sure� that� the�
�output� capacitor’s� ESR� is� much� lower� than� the� battery’s�
�ESR.� Either� tantalum� or� ceramic� capacitors� can� be�
�used� on� the� output.� Ceramic� devices� are� preferable�
�because� of� their� good� voltage� ratings� and� resilience� to�
�surge� currents.� Choose� the� output� capacitor� based� on:�
�Bypass� DCIN� with� a� 0.1μF� ceramic� to� ground� (Figure� 1).�
�N1� and� N2� protect� the� MAX17005/MAX17006/�
�MAX17015� when� the� DC� power� source� input� is� reversed.�
�Bypass� V� AA� ,� CSSP,� and� LDO� as� shown� in� Figure� 1.�
�Good� PCB� layout� is� required� to� achieve� specified� noise�
�immunity,� efficiency,� and� stable� performance.� The� PCB�
�layout� designer� must� be� given� explicit� instructions—�
�preferably,� a� sketch� showing� the� placement� of� the�
�power� switching� components� and� high� current� routing.�
�Refer� to� the� PCB� layout� in� the� MAX17005/MAX17006/�
�MAX17015� evaluation� kit� for� examples.� A� ground� plane�
�is� essential� for� optimum� performance.� In� most� applica-�
�tions,� the� circuit� is� located� on� a� multilayer� board,� and�
�full� use� of� the� four� or� more� copper� layers� is� recom-�
�mended.� Use� the� top� layer� for� high-current� connec-�
�tions,� the� bottom� layer� for� quiet� connections,� and� the�
�inner� layers� for� an� uninterrupted� ground� plane.�
�Use� the� following� step-by-step� guide:�
�1)� Place� the� high-power� connections� first,� with� their�
�grounds� adjacent:�
�a)� Minimize� the� current-sense� resistor� trace� lengths,�
�and� ensure� accurate� current� sensing� with� Kelvin�
�C� OUT� =�
�I� RIPPLE�
�f� SW� ×� 8� ×� Δ� V� BATT�
�� k� CAP� ?� BIAS�
�connections.�
�b)� Minimize� ground� trace� lengths� in� the� high-current�
�paths.�
�20�
�______________________________________________________________________________________�
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