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| 型号: | MAX1757EAI+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 14/17页 |
| 文件大小: | 0K |
| 描述: | IC BATTERY CHRG LI+ 28-SSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,000 |
| 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: | 6 V ~ 14 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 28-SSOP |
| 包装: | 带卷 (TR) |
��
�
�MAX1757�
�Stand-Alone,� Switch-Mode�
�Li+� Battery� Charger� with� Internal� 14V� Switch�
�cient� voltage� to� fully� drive� the� MOSFET� gate� even� when�
�its� source� is� near� the� input� voltage.�
�Table� 2.� Cell-Count� Programming� Table�
�Timers�
�The� MAX1757� includes� safety� timers� to� terminate�
�charging� and� to� ensure� that� faulty� batteries� are� not�
�charged� indefinitely.� TIMER1� and� TIMER2� set� the� time-�
�out� periods.�
�CELL�
�GND�
�Float�
�REF�
�CELL� COUNT� (N)�
�1�
�2�
�3�
�TIMER1� controls� the� maximum� prequalification� time,�
�maximum� full-charge� time,� and� the� top-off� time.� TIMER2�
�controls� the� maximum� fast-charge� time.� The� timers� are�
�set� by� external� capacitors.� The� typical� times� of� 7.5� min-�
�utes� for� prequalification,� 90� minutes� for� full� charge,� 45�
�minutes� for� top-off,� and� 90� minutes� for� fast� charge� are�
�set� by� using� a� 1nF� capacitor� on� TIMER1� and� TIMER2�
�(Figure� 1).�
�Charge� Monitoring� Outputs�
�FASTCHG� ,� FULLCHG� ,� and� FAULT� are� open-drain� out-�
�puts� that� can� be� used� as� LED� drivers.� FASTCHG� indi-�
�cates� the� battery� is� being� fast� charged.� FULLCHG�
�indicates� the� charger� has� completed� the� fast-charge�
�cycle� (approximately� 85%� charge)� and� is� operating� in�
�voltage� mode.� The� FASTCHG� and� FULLCHG� outputs�
�can� be� tied� together� to� indicate� charging� or� done�
�(Figure� 2).� FAULT� indicates� the� charger� has� detected� a�
�charging� fault� and� that� charging� has� terminated.� The�
�charger� can� be� brought� out� of� the� FAULT� condition�
�only� by� removing� and� reapplying� the� input� power,� or� by�
�pulling� SHDN� low.�
�Thermistor�
�The� intent� of� THM� is� to� inhibit� charging� when� the� bat-�
�tery� is� too� cold� or� too� hot� (+2.5°C� ≤� T� OK� ≤� +47.5°C),�
�using� an� external� thermistor.� THM� time� multiplexes� two�
�sense� currents� to� test� for� both� hot� and� cold� qualifica-�
�tion.� The� thermistor� should� be� 10k� Ω� at� +25°C� and� have�
�a� negative� temperature� coefficient� (NTC);� the� THM� pin�
�expects� 3.97k� Ω� at� +47.5°C� and� 28.7k� Ω� at� +2.5°C.�
�Connect� the� thermistor� between� THM� and� GND.� If� no�
�temperature� qualification� is� desired,� replace� the� ther-�
�mistor� with� a� 10k� Ω� resistor.� Thermistors� by� Philips/�
�BCcomponents� (2322-640-63103),� Cornerstone�
�Sensors� (T101D103-CA),� and� Fenwall� Electronics� (140-�
�103LAG-RB1)� work� well.� The� battery� temperature� is�
�measured� at� a� 1.12Hz� rate� (C� TIMER1� =� C� TIMER2� =� 1nF).�
�Charging� is� briefly� halted� to� allow� accurate� measure-�
�ment.�
�If� the� temperature� goes� out� of� limits� while� charging� is� in�
�progress,� charging� will� be� suspended� until� the� temper-�
�ature� returns� to� within� the� limits.� While� charging� is� sus-�
�pended,� the� timers� will� also� be� suspended� but� will�
�14�
�continue� counting� from� where� they� left� off� when� charg-�
�ing� resumes.�
�Shutdown�
�When� SHDN� is� pulled� low,� the� MAX1757� enters� the�
�shutdown� mode� and� charging� is� stopped.� In� shutdown,�
�the� internal� resistive� voltage� divider� is� removed� from�
�BATT� to� reduce� the� current� drain� on� the� battery� to� less�
�than� 5μA.� The� high-side� power� MOSFET� switch� is� off.�
�However,� the� internal� linear� regulator� (VLO)� and� the� ref-�
�erence� (REF)� remain� on.� Status� outputs� FASTCHG� ,�
�FULLCHG� ,� and� FAULT� are� high� impedance.� When� exit-�
�ing� the� shutdown� mode,� the� MAX1757� goes� to� the�
�power-on� reset� state,� which� resets� the� timers� and�
�begins� a� new� charge� cycle.�
�Source� Undervoltage� Shutdown� (Dropout)�
�If� the� voltage� on� DCIN� drops� within� 100mV� of� the� volt-�
�age� on� BATT,� the� charger� turns� off.� This� prevents� bat-�
�tery� discharge� by� the� charger� during� low� input� voltage�
�conditions.�
�Design� Procedure�
�Setting� the� Battery� Regulation� Voltage�
�VADJ� sets� the� per-cell� voltage� limit.� To� set� the� VADJ�
�voltage,� use� a� voltage-divider� from� REF� to� VADJ.� A�
�GND-to-V� REF� change� at� VADJ� results� in� a� ±5%� change�
�in� the� battery� limit� voltage.� Since� the� full� VADJ� range�
�results� in� only� a� 10%� change� on� the� battery� regulation�
�voltage,� the� resistor-divider’s� accuracy� need� not� be� as�
�high� as� the� output-voltage� accuracy.� Using� 1%� resis-�
�tors� for� the� voltage� dividers� results� in� no� more� than�
�0.1%� degradation� in� output-voltage� accuracy.� VADJ� is�
�internally� buffered� so� that� high-value� resistors� can� be�
�used.� Set� V� VADJ� by� choosing� a� value� less� than� 100k� Ω�
�for� R5� (Figure� 1)� from� V� ADJ� to� GND.� The� per-cell� bat-�
�tery� termination� voltage� is� a� function� of� the� battery�
�chemistry� and� construction;� thus,� consult� the� battery�
�manufacturer� to� determine� this� voltage.� Once� the� per-�
�cell� voltage� limit� battery� regulation� voltage� is� deter-�
�mined,� the� VADJ� voltage� is� calculated� by� the� equation:�
�V� VADJ� =� (9.5� V� BATTR� /� N)� -� (9.0� ?� V� REF� )�
�Maxim� Integrated�
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