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参数资料
| 型号: | LTC1730ES8-4.2 |
| 厂商: | Linear Technology |
| 文件页数: | 8/12页 |
| 文件大小: | 0K |
| 描述: | IC BATT PULSE CHRGR LI-ION 8SOIC |
| 标准包装: | 100 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子(Li-Ion) |
| 电源电压: | 4.5 V ~ 12 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 8-SOIC |
| 包装: | 管件 |
��
�
�LTC1730-4/LTC1730-4.2�
�APPLICATIO� S� I� FOR� ATIO�
�Stop� Charging�
�The� charger� is� off� when� any� of� the� following� conditions�
�exist.� The� voltage� at� the� V� CC� pin� is� less� than� 40mV� above�
�V� BAT� (sleep� mode),� or� the� potential� at� the� NTC/SHDN� pin�
�is� less� than� 50mV� (shutdown� mode).� The� trickle� charge�
�current� source� and� the� internal� pass� transistor� are� turned�
�off.� The� internal� resistor� divider� is� disconnected� to� reduce�
�the� current� drain� on� the� battery� when� in� sleep� mode.�
�Input� Voltage� (Wall� Adapter)�
�The� input� voltage� to� the� LTC1730� must� have� some�
�method� of� current� limit� capability.� The� current� limit� level�
�of� the� input� power� source� must� be� lower� than� the�
�overcurrent� limit� (I� MAX� )� set� by� the� sense� resistor� (I� MAX� =�
�100mV/R� SENSE� ).� If� a� wall� adapter� without� current� limit� is�
�used,� or� the� current� limit� level� is� above� I� MAX� ,� the� charger�
�will� turn� on� briefly� and� then� immediately� turn� off� after� the�
�overcurrent� condition� is� detected.� This� cycle� will� be� re-�
�sumed� every� 400ms� (C� TIMER� =� 0.1� μ� F)� until� the� total� charge�
�time� has� run� out.� If� overcurrent� protection� is� not� needed,�
�short� the� SENSE� pin� to� V� CC� .�
�an� external� capacitor� from� the� TIMER� pin� to� ground.� The�
�total� charge� time� is:�
�Time� (Hours)=� (3� Hour)(C� TIMER� /0.1� μ� F)�
�The� timer� starts� when� the� input� voltage� (at� least� 40mV�
�greater� than� V� BAT� )� is� applied� and� the� potential� at� the� NTC/�
�SHDN� pin� is� between� 0.5� ?� V� CC� and� 0.875� ?� V� CC� .� After� a�
�time-out� has� occurred,� the� charging� stops� and� the� CHRG�
�pin� becomes� high� impedance.�
�CHRG� Status� Output� Pin�
�This� open-drain� output� requires� a� pull-up� resistor� and� can�
�be� used� to� indicate� three� charging� conditions.� When� fast�
�charging� begins,� an� N-FET� (capable� of� driving� an� LED)�
�turns� on,� pulling� this� pin� to� ground.� Once� the� duty� cycle� at�
�the� GATE� pin� drops� below� 10%,� the� N-FET� turns� off� and� a�
�40� μ� A� current� source� to� ground� turns� on.� When� a� time-out�
�occurs� or� the� input� supply� is� removed,� the� CHRG� pin� goes�
�high� impedance� indicating� that� the� charge� cycle� has� ended.�
�By� using� two� different� value� resistors,� a� microprocessor�
�can� detect� three� states� from� this� pin:� charging,� C� /10� and�
�stop� charging� (see� Figure� 1).�
�Trickle� Charge� and� Defective� Battery� Detection�
�V� +�
�V� DD�
�At� the� begining� of� the� charge� cycle,� if� the� cell� voltage� is� low�
�(less� than� 2.45V)� the� charger� goes� into� a� 35mA� trickle�
�charge� mode.� If� the� low� cell� voltage� persists� for� one�
�quarter� of� the� total� charge� time,� the� battery� is� considered�
�2�
�V� CC�
�LTC1730�
�CHRG�
�3�
�620k�
�2k�
�MICROPROCESSOR�
�OUT�
�defective� and� the� charge� cycle� is� terminated.� The� CHRG�
�pin� output� is� then� forced� to� a� high� impedance� state.�
�IN�
�1730� F01�
�Figure� 1.� Interfacing� with� Microprocessor�
�Battery� Charge� Current�
�The� battery� charge� current� is� determined� by� the� current�
�limit� of� the� input� supply� (wall� adapter).� However,� this�
�current� must� not� exceed� the� maximum� charge� overcurrent,�
�I� MAX� .� If� an� overcurrent� condition� is� detected,� the� charging�
�is� immediately� terminated,� the� GATE� pin� is� pulled� to�
�ground� and� the� charge� pump� turns� off.� The� charging� will�
�resume� after� a� 400ms� time� off� (C� TIMER� =� 0.1� μ� F).�
�Programming� the� Timer�
�The� programmable� timer� is� used� to� terminate� the� charge�
�and� sets� the� minimum� ON/OFF� time� and� the� overcurrent�
�time-off� period.� The� length� of� the� timer� is� programmed� by�
�When� the� LTC1730� is� in� charge� mode,� the� CHRG� pin� is�
�pulled� to� ground� by� an� internal� N-MOSFET.� To� detect� this�
�mode,� force� the� digital� output� pin,� OUT,� high� and� measure�
�the� voltage� at� the� CHRG� pin.� The� N-MOSFET� will� pull� the�
�pin� low� even� with� a� 2k� pull-up� resistor.� Once� the� charge�
�current� drops� below� 10%� of� the� full� scale� current� (� C� /10),�
�the� N-MOSFET� is� turned� off� and� a� 40� μ� A� current� source� is�
�connected� to� the� CHRG� pin.� By� forcing� the� OUT� pin� to� a�
�high� impedance� state,� the� current� source� will� pull� the� pin�
�low� through� the� 620k� resistor.� When� the� internal� timer� has�
�expired,� the� CHRG� pin� becomes� high� impedance� and� the�
�620k� resistor� will� pull� the� pin� high� to� indicate� that� charging�
�has� stopped.�
�sn1730� 1730fs�
�8�
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