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参数资料
| 型号: | LTC4060EDHC#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 14/20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) |
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�
�LTC4060�
�APPLICATIO� S� I� FOR� ATIO�
�temperature)� at� approximately� 0� °� C� (5� °� C� –� 5� °� C� hysteresis�
�at� V� CC� =� 5V)� and� then� resume� when� the� thermistor� falls�
�below� 27k� (rising� temperature)� which� will� be� approxi-�
�mately� 5� °� C� (V� NTC� =� V� CLD� =� 0.86� ?� V� CC� typ).�
�Many� thermistors� with� an� R� COLD� to� R� HOT� ratio� of� approxi-�
�mately� 7� will� work.� For� lower� power� dissipation� higher�
�values� of� thermistor� resistance� can� be� used.� The� Murata�
�NTH4G� series� offers� resistances� of� up� to� 100k� at� 25� °� C.�
�It� is� important� that� the� thermistor� be� placed� in� close�
�contact� with� the� battery� and� away� from� the� external� PNP�
�pass� transistor� to� avoid� excessive� temperature� errors� on�
�the� sensed� battery� temperature.� Furthermore,� since� V� CC� is�
�a� high� current� path� into� the� LTC4060,� it� is� essential� to�
�minimize� voltage� drops� between� the� V� CC� supply� pin� and�
�the� top� of� R� HOT� by� Kelvin� connecting� R� HOT� directly� to� the�
�V� CC� pin.�
�Power� Requirements�
�The� DC� power� input� to� the� V� CC� pin� must� always� be� within�
�proper� limits� while� charging� a� battery.� Voltages� beyond�
�the� absolute� maximum� ratings� may� damage� the� charger�
�and� voltages� falling� below� the� UVLO� entry� thresholds,� as�
�programmed� by� the� SEL0� and� SEL1� pins,� will� likely� cause�
�the� charger� to� enter� the� shutdown� state� (when� the� UVLO�
�exit� threshold� is� exceeded� charging� will� begin� anew).� While�
�the� LTC4060� is� designed� to� reject� 60Hz� or� 120Hz� supply�
�ripple,� certain� precautions� are� required.� The� instantaneous�
�ripple� voltage� must� always� be� within� the� above� mentioned�
�limits.� Ripple� voltage� seen� across� the� collector-base� junc-�
�tion� of� the� external� PNP� pass� transistor� will� slightly� modu-�
�late� its� beta� and� hence� its� base� current.� Since� the� emitter�
�current� is� precisely� regulated� by� the� LTC4060,� any� modu-�
�lation� of� base� current� will� appear� at� the� collector.� This�
�slightly� modulated� battery� charge� current� into� a� battery�
�willusuallyproduceaninsignificantmodulationvoltageat�
�the� battery.� However,� if� excessive� wire� impedance� to� the�
�battery� from� the� PNP� exists,� then� it� may� be� helpful� to� Kelvin�
�connect� the� BAT� pin� to� a� convenient� point� closest� to� the�
�battery� to� reduce� ripple� magnitude� entering� the� LTC4060’s�
�battery� monitoring� circuits.� The� battery� ground� imped-�
�ance� should� also� be� managed� to� limit� ripple� voltage� at� the�
�BAT� pin.� Excessive� ripple� into� the� BAT� pin� may� cause� the�
�charger� to� deviate� from� specified� performance.�
�V� CC� Bypass� Capacitor�
�A� 1� μ� F� capacitor� located� close� to� the� LTC4060� will� usually�
�provide� adequate� input� bypassing.� However,� caution� must�
�be� exercised� when� using� multilayer� ceramic� capacitors.�
�Because� of� the� self-resonance� and� high� Q� characteristics�
�of� some� types� of� ceramic� capacitors,� along� with� wiring�
�inductance,� high� voltage� transients� can� be� generated�
�under� some� conditions� such� as� connecting� or� disconnect-�
�ing� a� supply� input� to� a� hot� power� source.� To� reduce� the� Q�
�and� prevent� these� transients� from� exceeding� the� absolute�
�maximum� voltage� rating,� consider� adding� about� 1� ?� of�
�resistance� in� series� with� the� ceramic� input� capacitor.�
�BAT� Bypass� Capacitor�
�This� optional� capacitor,� connected� between� BAT� and� GND,�
�can� be� used� to� help� filter� excessive� contact� bounce� during�
�the� battery� monitoring� or� charging� process.� The� value� will�
�depend� upon� the� contact� bounce� open� duration,� but� is� typi-�
�cally� 10� μ� F.� Another� purpose� of� this� capacitor� is� to� bypass�
�transient� battery� load� events� that� might� otherwise� disrupt�
�monitoring� or� charging.� Should� the� battery� connections� not�
�be� subject� to� excessive� contact� bounce� or� excessive� bat-�
�tery� voltage� transients,� then� no� BAT� pin� capacitor� is� re-�
�quired.� The� same� caution� mentioned� above� for� the� V� CC� by-�
�pass� capacitor� applies.�
�External� PNP� Transistor�
�The� external� PNP� pass� transistor� must� have� adequate� beta�
�and� breakdown� voltages,� low� saturation� voltage� and� suf-�
�ficient� power� dissipation� capability� that� may� include� heat�
�sinking.�
�To� provide� 2A� of� charge� current� with� the� minimum� avail-�
�able� base� current� drive� of� 40mA� (I� DRV� min)� requires� a�
�minimum� PNP� beta� of� 50.�
�The� transistor’s� collector� to� emitter� breakdown� voltage�
�must� be� high� enough� to� withstand� the� difference� between�
�the� maximum� supply� voltage� and� minimum� battery� volt-�
�age.� Almost� any� transistor� will� meet� this� requirement.�
�Additionally,� when� no� power� is� supplied� to� the� charger�
�(V� IN� =� 0V� and� V� SENSE� =� 0V),� the� transistor’s� emitter� to� base�
�breakdown� voltage� must� be� high� enough� to� prevent� a�
�leakage� path� at� the� maximum� battery� voltage� while� not�
�4060f�
�14�
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