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参数资料
| 型号: | MAX8677CETG+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 17/21页 |
| 文件大小: | 0K |
| 描述: | IC USB/AC ADP CHARGER 24-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子(Li-Ion)、锂聚合物(Li-Pol) |
| 电源电压: | 4.1 V ~ 6.6 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 24-WFQFN 裸露焊盘 |
| 供应商设备封装: | 24-TQFN-EP(4x4) |
| 包装: | 带卷 (TR) |
��
�
�1.5A� Dual-Input� USB/AC� Adapter� Charger�
�and� Smart� Power� Selector�
�Charge� Enable� (� CEN� )�
�When� CEN� is� low,� the� charger� is� on.� When� CEN� is� high,�
�the� charger� turns� off.� CEN� does� not� affect� the� SYS� out-�
�put.� In� many� systems,� there� is� no� need� for� the� system�
�controller� (typically� a� microprocessor)� to� disable� the�
�charger,� because� the� MAX8677C� Smart� Power� Selector�
�circuitry� independently� manages� charging� and�
�adapter/battery� power� hand-off.� In� these� situations,�
�CEN� can� be� connected� to� ground.�
�Setting� the� Charge� Current�
�ISET� adjusts� charge� current� to� match� the� capacity� of�
�the� battery.� A� resistor� from� ISET� to� ground� sets� the�
�maximum� fast-charge� current:�
�I� CHGMAX� =� 2000� x� 1.5V/R� ISET� =� 3000/R� ISET�
�Determine� the� I� CHGMAX� value� by� considering� the� char-�
�acteristics� of� the� battery.� It� is� not� necessary� to� limit� the�
�charge� current� based� on� the� capabilities� of� the� expected�
�AC� adapter/USB� charging� input,� the� system� load,� or�
�thermal� limitations� of� the� PCB.� The� MAX8677C� automat-�
�1.5�
�0�
�MONITORING� THE� BATTERY�
�CHARGE� CURRENT� WITH� V� ISET�
�R� ISET�
�V� ISET� =� x� I� CHG�
�2000�
�ically� adjusts� the� charging� algorithm� to� accommodate�
�these� factors.�
�DISCHARGING�
�0�
�2000� (1.5V� /� R� ISET� )�
�BATTERY� CHARGING� CURRENT� (A)�
�Monitoring� the� Charge� Current�
�In� addition� to� setting� the� charge� current,� ISET� can� also�
�be� used� to� monitor� the� actual� current� charging� the� bat-�
�tery.� The� ISET� output� voltage� is:�
�V� ISET� =� I� CHG� x� 1.5V/I� CHGMAX� =� I� CHG� x� R� ISET� /2000�
�where� I� CHGMAX� is� the� set� fast-charge� current� and� I� CHG�
�is� the� actual� battery� charge� current.� A� 1.5V� output� indi-�
�cates� the� battery� is� being� charged� at� the� maximum� set�
�fast-charge� current;� 0V� indicates� no� charging.� This� volt-�
�age� is� also� used� by� the� charger� control� circuitry� to� set�
�and� monitor� the� battery� current.� Avoid� adding� more�
�than� 10pF� capacitance� directly� to� the� ISET� pin.� If� filter-�
�ing� of� the� charge-current� monitor� is� necessary,� add� a�
�resistor� of� 100k� Ω� or� more� between� ISET� and� the� filter�
�capacitor� to� preserve� charger� stability.� See� Figure� 6.�
�Note� that� the� actual� charge� current� can� be� less� than�
�the� set� fast-charge� current� when� the� charger� enters�
�voltage� mode� or� when� charge� current� is� reduced� by�
�the� input� current� limiter� or� thermal� limiter.� This� prevents�
�the� charger� from� overloading� the� input� source� or� over-�
�heating� the� system.�
�Charge� Termination�
�When� the� charge� current� falls� to� the� termination� thresh-�
�old� AND� the� charger� is� in� voltage� mode,� charging� is�
�complete.� Charging� continues� for� a� brief� 15s� top-off�
�period� and� then� enters� the� DONE� state� in� which� charg-�
�ing� stops.� The� termination� current� threshold� (I� TERM� )� is�
�set� by� TSET� to� a� percentage� of� the� fast-charge� current:�
�Connect� TSET� to� GND� for� I� TERM� =� I� CHGMAX� x� 5%�
�Figure� 6.� Monitoring� the� Charge� Current� with� the� ISET� Voltage�
�Leave� TSET� open� for� I� TERM� =� I� CHGMAX� x� 10%�
�Connect� TSET� to� VL� for� I� TERM� =� I� CHGMAX� x� 15%�
�Note� that� if� charge� current� falls� to� I� TERM� as� a� result� of� the�
�input� or� thermal� limiter,� the� charger� does� not� enter�
�DONE.� For� the� charger� to� enter� DONE,� the� charge� cur-�
�rent� must� be� less� than� I� TERM� ,� the� charger� must� be� in�
�voltage� mode,� and� the� input� or� thermal� limiter� must� not�
�be� reducing� the� charge� current.� The� charger� exits� the�
�DONE� state,� and� fast� charge� resumes� if� the� battery� volt-�
�age� subsequently� drops� 100mV� or� if� CEN� is� cycled.�
�Charge� Status� Outputs�
�Charge� Output� (� C� H� G� )�
�CHG� is� an� open-drain,� active-low� output� that� is� low� dur-�
�ing� charging.� CHG� is� low� when� the� battery� charger� is� in�
�its� prequalification� and� fast-charge� states.� When� charge�
�current� falls� to� the� charge� termination� threshold� and� the�
�charger� is� in� voltage� mode,� CHG� goes� high� impedance.�
�CHG� goes� high� impedance� if� the� thermistor� causes� the�
�charger� to� enter� temperature� suspend� mode.�
�When� the� MAX8677C� is� used� with� a� microprocessor� (μP),�
�connect� a� pullup� resistor� between� CHG� and� the� logic� I/O�
�voltage� to� indicate� charge� status� to� the� μP.� Alternatively,�
�CHG� can� sink� up� to� 20mA� for� an� LED� indicator.�
�Prequal� Output� P� R� E� Q�
�PREQ� is� an� open-drain,� active-low� output� that� goes� low�
�when� the� charger� is� in� prequal� state.�
�______________________________________________________________________________________�
�17�
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