参数资料
| 型号: | SC810ULTRT |
| 厂商: | Semtech |
| 文件页数: | 14/20页 |
| 文件大小: | 0K |
| 描述: | IC BATTERY MANAGEMENT |
| 标准包装: | 1 |
| 系列: | * |
| 其它名称: | SC810ULDKR |
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�SC810�
�Applications� Information� (continued)�
�voltage.� ENB� should� be� held� low� for� at� least� 1ms� to� ensure�
�a� successful� forced� re-charge.�
�Forced� re-charge� can� be� requested� at� any� time� during� the�
�charge� cycle,� or� even� with� no� charging� source� present,�
�with� no� detrimental� effect� on� charger� operation.� This�
�allows� the� host� processor� to� schedule� a� forced� re-charge�
�at� any� desired� interval,� without� regard� to� whether� a� charge�
�cycle� is� already� in� progress,� or� even� whether� a� charging�
�source� is� present.� Forced� re-charge� will� neither� assert� nor�
�release� the� STATB� output.�
�Status� Output�
�The� STATB� pin� is� an� open-drain� output.� It� is� asserted�
�(driven� low)� as� charging� begins� after� a� valid� charging�
�input� is� applied� and� the� VIN� pin� is� greater� than� the� input�
�UVLO� level� and� less� than� the� OVP� level.� STATB� is� also�
�asserted� as� charging� begins� after� the� ENB� input� returns� to�
�either� of� the� enable� voltage� ranges� (mid� or� low� voltage)�
�from� the� disable� (high� voltage)� range.� STATB� is� subse-�
�quently� released� when� the� termination� current� is� reached�
�to� indicate� end-of-charge,� when� the� ENB� input� is� driven�
�high� to� disable� charging,� or� when� the� input� voltage� is�
�removed.� If� the� battery� is� already� fully� charged� when� a�
�charge� cycle� is� initiated,� STATB� is� asserted,� and� remains�
�asserted� for� approximately� 750μs� before� being� released.�
�The� STATB� pin� is� not� asserted� for� automatic� re-charge�
�battery� reaches� 4.2V� and� eventually� the� controller� is�
�entirely� in� CV� regulation.� The� soft� transition� effectively�
�reduces� the� charge� current� below� that� which� is� permitted�
�for� a� portion� of� the� charge� cycle,� which� increases� charge�
�time.�
�In� the� SC810,� a� logical� transition� is� implemented� from� CC�
�to� CV� to� recover� the� charge� current� lost� due� to� the� soft�
�transition.� The� controller� regulates� only� current� until� the�
�output� voltage� exceeds� the� transition� threshold� voltage.�
�It� then� switches� to� CV� regulation.� The� transition� voltage�
�from� CC� to� CV� regulation� is� typically� 5mV� higher� than� the�
�CV� regulation� voltage,� which� provides� a� sharp� and� clean�
�transition� free� of� chatter� between� regulation� modes.� The�
�difference� between� the� transition� voltage� and� the� regula-�
�tion� voltage� is� termed� the� CC/CV� overshoot.� While� in� CV�
�regulation,� the� output� current� sense� remains� active.� If� the�
�output� current� exceeds� the� programmed� fast-charge�
�current� by� 5%,� the� controller� reverts� to� current�
�regulation.�
�The� logical� transition� from� CC� to� CV� results� in� the� fastest�
�possible� charging� cycle� that� is� compliant� with� the� speci-�
�fied� current� and� voltage� limits� of� the� Li-ion� cell.� The� output�
�current� is� constant� at� the� CC� limit,� then� decreases� abruptly�
�when� the� output� voltage� steps� from� the� overshoot� voltage�
�to� the� regulation� voltage� at� the� transition� to� CV� control.�
�cycles.�
�Thermal� Limiting�
�The� STATB� pin� may� be� connected� to� an� interrupt� input� to�
�notify� a� host� controller� of� the� charging� status� or� it� can� be�
�used� as� an� LED� driver.�
�Logical� CC-to-CV� Transition�
�The� SC810� differs� from� monolithic� linear� single� cell� Li-ion�
�chargers� that� implement� a� linear� transition� from� CC� to� CV�
�regulation.� The� linear� transition� method� uses� two� simul-�
�taneous� feedback� signals� —� output� voltage� and� output�
�current� —� to� the� closed-loop� controller.� When� the� output�
�voltage� is� suffi� ciently� below� the� CV� regulation� voltage,� the�
�influence� of� the� voltage� feedback� is� negligible� and� the�
�output� current� is� regulated� to� the� desired� current.� As� the�
�battery� voltage� approaches� the� CV� regulation� voltage�
�(4.2V),� the� voltage� feedback� signal� begins� to� influence� the�
�control� loop,� which� causes� the� output� current� to� decrease�
�although� the� output� voltage� has� not� reached� 4.2V.� The�
�Device� thermal� limiting� is� the� third� output� constraint� of�
�the� CC/CV/TL� control.� This� feature� permits� a� higher� input�
�OVP� threshold,� and� thus� the� use� of� higher� voltage� or�
�poorly� regulated� adapters.� If� high� input� voltage� results� in�
�excessive� power� dissipation,� the� output� current� is� reduced�
�to� prevent� overheating� of� the� SC810.� The� thermal� limiting�
�controller� reduces� the� output� current� by� i� T� ≈� –50mA/oC� for�
�any� junction� temperature� T� J� >� T� TL� .�
�When� thermal� limiting� is� inactive,�
�T� J� =� T� A� +� V� Δ� I� FQ� θ� JA� ,�
�where� V� Δ� is� the� voltage� difference� between� the� VIN� pin�
�and� the� BAT� pin.� However,� if� T� J� computed� this� way� exceeds�
�T� TL� ,� then� thermal� limiting� will� become� active� and� the�
�thermal� limiting� regulation� junction� temperature� will� be�
�output� voltage� limit� dominates� the� controller� when� the�
�14�
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