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参数资料
| 型号: | LTC4071IMS8E#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 12/18页 |
| 文件大小: | 0K |
| 描述: | IC LI-ION/POLY BATT CHRGR 8-MSOP |
| 标准包装: | 50 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子(Li-Ion)、锂聚合物(Li-Pol) |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-TSSOP,8-MSOP(0.118",3.00mm 宽)裸露焊盘 |
| 供应商设备封装: | 8-MSOP-EP |
| 包装: | 管件 |
��
�
�LTC4071�
�APPLICATIONS� INFORMATION�
�ADJ� V� CC�
�C� BYPASS�
�+�
�GND�
�C� BYPASS� =�
�=� 166.6μF�
�dissipation,PD(inW),andθ� JA� isthethermalimpedance�
�of� the� package� (in� °C/W):�
�T� J� =� T� A� +� (PD� ×� θ� JA� ).�
�The� application� shown� in� Figure� 4� illustrates� how� to� prevent�
�triggering� the� low-battery� disconnect� function� under� large�
�pulsed� loads� due� to� the� high� ESR� of� thin-film� batteries.�
�R� IN� SYSTEM� LOAD�
�V� IN�
�FLOAT� BAT�
�NTCBIAS� PULSED�
�LTC4071� 10k� I� LOAD�
�NTC�
�LBSEL�
�T� Li-Ion�
�age� recovers,� as� the� capacity� of� the� battery� should� provide�
�roughly� 50� hours� of� use� for� an� equivalent� 0.1%� ?20mA� =�
�20μA� load.� To� prevent� load� pulses� from� tripping� the� low�
�battery� disconnect,� add� a� decoupling� capacitor� from� V� CC� to�
�GND.� The� size� of� this� capacitor� can� be� calculated� based� on�
�how� much� margin� is� required� from� the� LBD� threshold� as�
�well� as� the� amplitude� and� pulse� width� of� the� load� transient.�
�For� a� 1.0mAh� battery� with� a� state-of-charge� of� 3.8V,� the�
�margin� from� LBD� is� 600mV� with� LBSEL� tied� to� GND.� For�
�a� square-wave� load� pulse� of� 20mA� with� a� pulse� width� of�
�5ms,� the� minimum� size� of� the� decoupling� cap� required� to�
�hold� V� CC� above� LBD� is� calculated� as� follows:�
�20mA ? 5ms�
�600mV�
�NTHS0402N02N1002F�
�4071� F04�
�Take� care� to� select� a� bypass� capacitor� with� low� leakage.�
�–�
�+�
�Figure� 4.� Adding� a� Decoupling� Capacitor�
�for� Large� Load� Transients�
�Table� 2� lists� some� thin-film� batteries,� their� capacities�
�and� their� equivalent� series� resistance.� The� ESR� causes�
�V� BAT� and� V� CC� to� droop� as� a� product� of� the� load� current�
�amplitude� multiplied� by� the� ESR.� This� droop� may� trigger�
�the� low-battery� disconnect� while� the� battery� itself� may�
�still� have� ample� capacity.� Adding� a� bypass� capacitor� to�
�V� CC� prevents� large� low� duty� cycle� load� transients� from�
�pulling� down� on� V� CC� .�
�Table� 2.� Low� Capacity� Li-Ion� and� Thin-Film� Batteries�
�VENDOR� P/N� CAPACITY� RESISTANCE� V� MIN�
�CYMBET� CBC012� 12μAh� 5k� to� 10k� 3.0V�
�The� LTC4071� can� be� used� to� charge� a� battery� to� a� 4.2V�
�float� voltage� from� an� AC� line� with� a� bridge� rectifier� as�
�shown� in� the� simple� schematic� in� Figure� 5.� In� this� example,�
�DANGER! HIGH VOLTAGE�
�R1� =� 249k� R2� =� 249k�
�AC� 110V� MB4S�
�R3� =� 249k� R4� =� 249k�
�SYSTEM�
�LOAD�
�NTC� ADJ� V� CC�
�LTC4071�
�CYMBET�
�GS� NanoTech�
�CBC050�
�N/A�
�50μAh�
�500μAh�
�1500Ω� to� 3k�
�40Ω�
�3.0V�
�3.0V�
�FLOAT�
�NTCBIAS�
�LBSEL�
�BAT�
�GND�
�+� Li-Ion�
�BATTERY�
�APS-Autec�
�APS-Autec�
�LIR2025�
�LIR1025�
�20mAh�
�6mAh�
�0.75Ω�
�30Ω�
�3.0V�
�2.75V�
�4071� F05�
�IPS� MEC225-1P� 0.13mAh� 210Ω� to� 260Ω� 2.1V�
�IPS� MEC220-4P� 0.4mAh� 100Ω� to� 120Ω� 2.1V�
�IPS� MEC201-10P� 1.0mAh� 34Ω� to� 45Ω� 2.1V�
�IPS� MEC202-25P� 2.5mAh� 15Ω� to� 20Ω� 2.1V�
�GM� Battery� GMB031009� 8mAh� 10Ω� to� 20Ω� 2.75V�
�For� example,� given� a� 0.1%� duty� cycle� 5ms� load� pulse� of�
�20mA� and� a� 1.0mAh� IPS� MEC201-10P� solid-state� thin-film�
�battery� with� an� equivalent� series� resistance� of� 35?,� the�
�voltage� drop� at� V� CC� can� be� as� high� as� 0.7V� while� the� load�
�is� on.� However� once� the� load� pulse� ends,� the� battery� volt-�
�12�
�DANGEROUS� AND� LETHAL� POTENTIALS� ARE� PRESENT� IN� AC�
�LINE-CONNECTED� CIRCUITS!� BEFORE� PROCEEDING� ANY�
�FURTHER,� THE� READER� IS� WARNED� THAT� CAUTION� MUST� BE�
�USED� IN� THE� CONSTRUCTION,� TESTING� AND� USE� OF� AC�
�LINE-CONNECTED� CIRCUITS.� EXTREME� CAUTION� MUST� BE�
�USED� IN� WORKING� WITH� AND� MAKING� CONNECTIONS� TO�
�THESE� CIRCUITS.� ALL� TESTING� PERFORMED� ON� AC�
�LINE-CONNECTED� CIRCUITS� MUST� BE� DONE� WITH� AN�
�ISOLATION� TRANSFORMER� CONNECTED� BETWEEN� THE� AC� LINE�
�AND� THE� CIRCUIT.� USERS� AND� CONSTRUCTORS� OF� AC�
�LINE-CONNECTED� CIRCUITS� MUST� OBSERVE� THIS� PRECAUTION�
�WHEN� CONNECTING� TEST� EQUIPMENT� TO� THE� CIRCUIT� TO�
�AVOID� ELECTRIC� SHOCK.�
�Figure� 5.� 4.2V� AC� Line� Charging,� UL� Leakage� Okay�
�4071fc�
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