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参数资料
| 型号: | LTC4060EDHC#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 13/20页 |
| 文件大小: | 0K |
| 描述: | IC BATT CHARGER NIMH/NICD 16DFN |
| 标准包装: | 2,500 |
| 功能: | 充电管理 |
| 电池化学: | 镍镉(NiCd)、镍金属氢化物(NiMH) |
| 电源电压: | 4.5 V ~ 10 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-WFDFN 裸露焊盘 |
| 供应商设备封装: | 16-DFN(5x3) |
| 包装: | 带卷 (TR) |
��
�
�LTC4060�
�APPLICATIO� S� I� FOR� ATIO�
�resistor� to� the� PROG� pin� can� also� be� used� to� program�
�current.� Note� that� this� will� alter� the� timer� periods� unless�
�alternate� TIMER� pin� capacitors� are� also� programmed�
�through� an� analog� switch.�
�The� PROG� pin� provides� a� reference� voltage� of� 1.5V� (V� PROG� )�
�that� may� be� tapped� for� system� use.� Current� loading� on�
�PROG� is� multiplied� by� 930� and� appears� as� increased� I� MAX.�
�This� may� be� compensated� by� adjustment� of� R� PROG� .� Total�
�PROG� pin� current� must� be� limited� to� 2.3mA� otherwise�
�absolute� maximum� ratings� will� be� exceeded.� When� the�
�LTC4060� is� in� the� shutdown� mode,� the� PROG� pin� is� forced�
�to� ground� potential� to� save� power.�
�Programming� the� Timer�
�All� LTC4060� internal� timing� is� derived� from� the� internal�
�oscillator� that� is� programmed� with� an� external� capacitor� at�
�the� TIMER� pin.� The� time� periods� shown� in� Table� 1� scale�
�directly� with� the� timer� period.� The� programmable� safety�
�timer� is� used� to� put� a� time� limit� on� the� entire� charge� cycle�
�for� the� case� when� charging� has� not� otherwise� terminated.�
�The� time� limit� is� programmed� by� an� external� capacitor� at�
�the� TIMER� pin� and� is� also� dependent� on� the� current� set� by�
�the� programming� resistor� connected� to� the� PROG� pin.� The�
�time� limit� is� determined� by� the� following� equation:�
�t� MAX� (Hours)� =� 1.567� ?� 10� 6� ?� R� PROG� (� ?� )� ?� C� TIMER� (F)�
�charge� rates,� are� generally� not� recommended.� Consult� the�
�battery� manufacturer� for� recommended� periods.�
�An� external� timing� source� can� also� be� used� to� drive� the�
�TIMER� pin� for� precise� or� programmed� control.� The� high�
�level� must� be� between� 2.5V� and� V� CC� and� the� low� level� must�
�be� between� 0V� and� 0.25V.� Also,� the� driving� source� must� be�
�able� to� overdrive� the� internal� current� source� and� sink�
�which� is� 5%� of� the� current� through� R� PROG� .�
�Battery� Temperature� Sensing�
�Temperature� sensing� is� optional� in� LTC4060� applications.�
�To� disable� temperature� qualification� of� all� charging� opera-�
�tions,� the� NTC� pin� must� be� wired� to� ground.� A� circuit� for�
�temperature� sensing� using� a� thermistor� with� a� negative�
�temperature� coefficient� (NTC)� is� shown� in� Figure� 2.� Inter-�
�nally� derived� V� CC� proportional� voltages� (V� CLD� ,� V� HTI� ,� V� HTC� )�
�are� compared� to� the� voltage� on� the� NTC� input� pin� to� test� the�
�temperature� thresholds.� The� battery� temperature� is� mea-�
�sured� by� placing� the� thermistor� close� to� the� battery� pack.�
�In� Figure� 2,� a� common� 10k� NTC� thermistor� such� as� a�
�Murata� NTH4G� series� NTH4G39A103F� can� be� used.� R� HOT�
�should� be� a� 1%� resistor� with� a� value� equal� to� the� value� of�
�the� chosen� NTC� thermistor� at� 45� °� C� (V� NTC� =� V� HTI� =� 0.5� ?� V� CC�
�typ).� Another� temperature� may� be� chosen� to� suit� the�
�battery� requirements.� The� LTC4060� will� not� initiate� a�
�charge� cycle� or� continue� with� a� precharge� if� the� value� of� the�
�C� TIMER� (� F� )� =�
�t� MAX� (� Hours� )�
�1� .� 567� ?� 10� 6� ?� R� PROG� (� ?� )�
�thermistor� falls� below� 4.42k� which� is� a� temperature� rising�
�to� approximately� 45� °� C.� However,� once� fast� charging� is� in�
�progress,� it� will� not� be� stopped� until� the� thermistor� drops�
�Some� typical� timing� values� are� detailed� in� Table� 1.� The�
�timer� begins� at� the� start� of� a� charge� cycle.� After� the� time-�
�out� occurs,� the� charge� current� stops� and� the� CHRG� output�
�assumes� a� high� impedance� state� to� indicate� that� the�
�charging� has� stopped.�
�Excessively� short� time-out� periods� may� not� allow� enough�
�time� for� the� battery� to� receive� full� charge� or� may� result� in�
�premature� –� ?� V� termination� due� to� too� short� a� battery�
�voltage� stabilization� hold-off� period.� Excessively� long� time-�
�out� periods� may� indicate� too� low� a� charge� current� which�
�may� not� allow� voltage-based� termination� (–� ?� V)� to� work�
�properly.� Time-out� limits� of� less� than� 0.75� hour� for� faster�
�2C� charge� rates,� or� more� than� 3.5� hours� for� slower� C/2�
�below� 3k� which� is� a� temperature� rising� to� approximately�
�55� °� C� (V� NTC� =� V� HTC� =� 0.4� ?� V� CC� typ).� Once� reaching� this�
�charge� cutoff� threshold,� charging� is� suspended� until� the�
�value� of� the� thermistor� rises� above� approximately� 4.8k�
�(falling� temperature)� or� approximately� 43� °� C� (45� °� C� –� 2� °� C�
�hysteresis� at� V� CC� =� 5V)� and� then� charging� is� resumed.�
�Hysteresis� avoids� possible� oscillation� about� the� trip� points.�
�Note� that� the� comparator� hysteresis� voltages� are� constant�
�and� when� V� CC� increases� the� signal� level� from� the� ther-�
�mistor� increases� thus� making� the� temperature� hysteresis�
�look� smaller.�
�During� suspension� the� charge� current� is� turned� off� and� the�
�safety� timer� is� frozen.� The� LTC4060� is� also� designed� to�
�suspend� when� the� thermistor� rises� above� 34k� (falling�
�4060f�
�13�
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