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参数资料
| 型号: | LTC1960CUHF#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 20/28页 |
| 文件大小: | 0K |
| 描述: | IC BATT CHRGR/SELECTR DL 38-QFN |
| 标准包装: | 52 |
| 功能: | 充电管理 |
| 电源电压: | 6 V ~ 28 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 38-WFQFN 裸露焊盘 |
| 供应商设备封装: | 38-QFN(5x7) |
| 包装: | 管件 |
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�LTC1960�
�APPLICATIONS� INFORMATION�
�V� OUT� ?� 1� ?� OUT� ?�
�?� I� L� =�
�WatchdogTimer�
�Charging� will� begin� when� either� CHARGE_BAT1� or�
�CHARGE_BAT2� bits� are� set� in� the� charger� register� (ad-�
�dress:� 111).� Charging� will� stop� if� the� charger� register� is�
�not� updated� prior� to� the� expiration� of� the� watchdog� timer.�
�Simply� repeating� the� same� data� transmission� to� the� charger�
�register� at� a� rate� higher� than� once� per� second� will� ensure�
�that� charging� will� continue� uninterrupted.�
�Extending� System� to� More� Than� Two� Batteries�
�The� LTC1960� can� be� extended� to� manage� systems� with� more�
�than� three� sources� of� power.� Contact� Linear� Technology�
�Applications� Engineering� for� more� information.�
�Charging� Depleted� Batteries�
�Some� batteries� contain� internal� protection� switches� that�
�disconnect� a� load� if� the� battery� voltage� falls� below� what�
�is� considered� a� reasonable� minimum.� In� this� case,� the�
�charger� may� not� start� because� the� voltage� at� the� battery�
�terminal� is� less� than� 5V.� The� low� current� mode� of� the� IDAC�
�must� be� used� in� this� case� to� condition� the� battery.� In� low�
�current� mode,� there� is� no� minimum� voltage� requirement�
�(but� dual� charging� is� not� allowed).� Usually,� the� battery� will�
�detect� that� it� is� being� charged� and� then� close� its� protec-�
�tion� switch,� which� will� allow� the� IDAC� to� switch� to� normal�
�mode.� Smart� batteries� require� that� charging� current� not�
�exceed� 100mA� until� valid� charging� voltage� and� charging�
�current� parameters� are� transmitted� via� the� SMBus.� The�
�low� current� IDAC� mode� is� ideal� for� this� purpose.�
�Starting� Charge� with� Dissimilar� Batteries� in� Dual�
�Charge� Mode�
�When� charging� batteries� of� different� charger� termination�
�voltages,� the� charger� should� be� started� using� the� follow-�
�ing� procedure:�
�Step� 1.� Select� only� the� lowest� termination� voltage� bat-�
�tery� for� charging,� and� set� the� charger� to� its� charging�
�parameters.�
�Step� 2.� When� the� battery� current� is� flowing� into� that� bat-�
�tery,� change� to� dual� charging� mode� (without� stopping� the�
�charger)� and� set� the� appropriate� charging� parameters� for�
�this� dual� charger� condition.�
�If� this� procedure� is� not� followed,� and� BAT2� is� significantly�
�higher� voltage� than� BAT1,� the� charger� could� refuse� to�
�charge� either� battery.�
�Charge� Termination� Issues�
�Batteries� with� constant-current� charging� and� voltage-based�
�charger� termination� might� experience� problems� with� re-�
�ductions� of� charger� current� caused� by� adapter� limiting.� It�
�is� recommended� that� input� limiting� feature� be� defeated� in�
�such� cases.� Consult� the� battery� manufacturer� for� informa-�
�tion� on� how� your� battery� terminates� charging.�
�Setting� Output� Current� Limit�
�The� full-scale� output� current� setting� of� the� IDAC� will� produce�
�V� MAX� =� 102.3mV� between� CSP� and� CSN.� To� set� the� full-�
�scale� current� of� the� DAC� simply� divide� V� MAX� by� R� SNS� .�
�This� is� expressed� by� the� following� equation:�
�R� SNS� =� 0.1023/I� MAX�
�Table� 1.� Recommended� R� SNS� Resistor� Values�
�I� MAX� (A)� R� SNS� (Ω)� 1%� R� SNS� (W)�
�1.023� 0.100� 0.25�
�2.046� 0.050� 0.25�
�4.092� 0.025� 0.5�
�8.184� 0.012� 1�
�Use� resistors� with� low� ESL.�
�Inductor� Selection�
�Higher� operating� frequencies� allow� the� use� of� smaller�
�inductor� and� capacitor� values.� A� higher� frequency� gener-�
�ally� results� in� lower� efficiency� because� of� MOSFET� gate�
�charge� losses.� In� addition,� the� effect� of� inductor� value�
�on� ripple� current� and� low� current� operation� must� also� be�
�considered.� The� inductor� ripple� current� ?I� L� decreases� with�
�higher� frequency� and� increases� with� higher� V� IN� .�
�1� ?� V� ?�
�(� f� )� (� L� )� ?� V� IN� ?�
�Accepting� larger� values� of� ?I� L� allows� the� use� of� low�
�inductances,� but� results� in� higher� output� voltage� ripple�
�and� greater� core� losses.� A� reasonable� starting� point� for�
�setting� ripple� current� is� ?I� L� =� 0.4(I� MAX� ).� In� no� case� should�
�1960fb�
�20�
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