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参数资料
| 型号: | LTC1733EMSE |
| 厂商: | Linear Technology |
| 文件页数: | 12/16页 |
| 文件大小: | 0K |
| 描述: | IC CHRGR BATT MONO THERML 10MSOP |
| 标准包装: | 50 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子(Li-Ion) |
| 电源电压: | 4.5 V ~ 6.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽)裸露焊盘 |
| 供应商设备封装: | 10-MSOP 裸露焊盘 |
| 包装: | 管件 |
| 其它名称: | Q1460135 |
��
�
�LTC1733�
�APPLICATIO� S� I� FOR� ATIO�
�If� a� thermistor� with� a� tolerance� less� than� ±� 10%� is� used,� the�
�trip� point� errors� begin� to� depend� on� errors� other� than�
�thermistor� tolerance� including� the� input� offset� voltage� of�
�the� internal� comparators� of� the� LTC1733� and� the� effects� of�
�internal� voltage� drops� due� to� high� charging� currents.�
�Constant-Current/Constant-Voltage/�
�Constant-Temperature�
�The� LTC1733� uses� a� unique� architecture� to� charge� a�
�battery� in� a� constant-current,� constant-voltage,� constant-�
�temperature� fashion.� Figure� 1� shows� a� simplified� block�
�diagram� of� the� LTC1733.� Three� of� the� amplifier� feedback�
�loops� shown� control� the� constant-current,� CA,� constant-�
�voltage,� VA,� and� constant-temperature,� TA� modes.� A�
�fourth� amplifier� feedback� loop,� MA,� is� used� to� increase� the�
�output� impedance� of� the� current� source� pair,� M1� and� M2�
�(note� that� M1� is� the� internal� P-channel� power� MOSFET).� It�
�ensures� that� the� drain� current� of� M1� is� exactly� 1000� times�
�greater� than� the� drain� current� of� M2.�
�Amplifiers� CA,� TA,� and� VA� are� used� in� three� separate�
�feedback� loops� to� force� the� charger� into� constant-current,�
�temperature,� or� voltage� mode,� respectively.� Diodes,� D1,�
�D2,� and� D3� provide� priority� to� whichever� loop� is� trying� to�
�reduce� the� charging� current� the� most.� The� outputs� of� the�
�other� two� amplifiers� saturate� low� which� effectively� re-�
�moves� their� loops� from� the� system.� When� in� constant-�
�current� mode,� CA� servos� the� voltage� at� the� PROG� pin� to� be�
�precisely� 1.50V� (or� 0.15V� when� in� trickle-charge� mode).�
�TA� limits� the� die� temperature� to� approximately� 105� °� C�
�when� in� constant-temperature� mode� and� the� PROG� pin�
�voltage� gives� an� indication� of� the� charge� current� as� dis-�
�cussed� in� “Programming� Charge� Current”� .� VA� servos� its�
�inverting� input� to� precisely� 2.485V� when� in� constant-�
�voltage� mode� and� the� internal� resistor� divider� made� up� of�
�R1� and� R2� ensures� that� the� battery� voltage� is� maintained�
�at� either� 4.1V� or� 4.2V.� Again,� the� PROG� pin� voltage� gives�
�105� °� C.� As� the� battery� voltage� rises,� the� LTC1733� either�
�returns� to� constant-current� mode� or� it� enters� constant-�
�voltage� mode� straight� from� constant-temperature� mode.�
�Regardless� of� mode,� the� voltage� at� the� PROG� pin� is�
�proportional� to� the� current� being� delivered� to� the� battery.�
�Power� Dissipation�
�The� conditions� that� cause� the� LTC1733� to� reduce� charge�
�current� due� to� the� thermal� protection� feedback� can� be�
�approximated� by� considering� the� power� dissipated� in� the�
�IC.� For� high� charge� currents,� the� LTC1733� power� dissipa-�
�tion� is� approximately:�
�P� D� =� (V� CC� –� V� BAT� )� ?� I� BAT�
�where� P� D� is� the� power� dissipated,� V� CC� is� the� input� supply�
�voltage,� V� BAT� is� the� battery� voltage,� and� I� BAT� is� the� battery�
�charge� current.� It� is� not� necessary� to� perform� any� worst-�
�case� power� dissipation� scenarios� because� the� LTC1733�
�will� automatically� reduce� the� charge� current� to� maintain�
�the� die� temperature� at� approximately� 105� °� C.� However,� the�
�approximate� ambient� temperature� at� which� the� thermal�
�feedback� begins� to� protect� the� IC� is:�
�T� A� =� 105� °� C� –� P� D� θ� JA�
�T� A� =� 105� °� C� –� (V� CC� –� V� BAT� )� ?� I� BAT� ?� θ� JA�
�Example:� Consider� an� LTC1733� operating� from� a� 5V� wall�
�adapter� providing� 1.2A� to� a� 3.75V� Li-Ion� battery.� The�
�ambient� temperature� above� which� the� LTC1733� will� begin�
�to� reduce� the� 1.2A� charge� current� is� approximately:�
�T� A� =� 105� °� C� –� (5V� –� 3.75V)� ?� 1.2A� ?� 40� °� C/W�
�T� A� =� 105� °� C� –� 1.5W� ?� 40� °� C/W� =� 105� °� C� –� 60� °� C� =� 45� °� C�
�The� LTC1733� can� be� used� above� 45� °� C,� but� the� charge�
�current� will� be� reduced� below� 1.2A.� The� approximate�
�charge� current� at� a� given� ambient� temperature� can� be�
�approximated� by:�
�an� indication� of� the� charge� current.�
�In� typical� operation,� the� charge� cycle� begins� in� constant-�
�current� mode� with� the� current� delivered� to� the� battery�
�I� BAT� =�
�105� °� C� –� T� A�
�(� V� CC� –� V� BAT� )?� θ� JA�
�equal� to� 1500V/R� PROG� .� If� the� power� dissipation� of� the�
�LTC1733� results� in� the� junction� temperature� approaching�
�105� °� C,� the� amplifier� (TA)� will� begin� decreasing� the� charge�
�current� to� limit� the� die� temperature� to� approximately�
�Consider� the� above� example� with� an� ambient� temperature�
�of� 55� °� C.� The� charge� current� will� be� reduced� to� approxi-�
�mately:�
�sn1733� 1733fs�
�12�
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| LTC1733EMSE#PBF | 功能描述:IC CHRGR BATT MONO THERML 10MSOP RoHS:是 类别:集成电路 (IC) >> PMIC - 电池管理 系列:- 其它有关文件:STC3100 View All Specifications 特色产品:STC3100 - Battery Monitor IC 标准包装:4,000 系列:- 功能:燃料,电量检测计/监控器 电池化学:锂离子(Li-Ion) 电源电压:2.7 V ~ 5.5 V 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:8-TSSOP,8-MSOP(0.118",3.00mm 宽) 供应商设备封装:8-MiniSO 包装:带卷 (TR) 其它名称:497-10526-2 |
| LTC1733EMSE#PBF | 制造商:Linear Technology 功能描述:Battery Management IC |
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