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参数资料
| 型号: | LTC4060EDHC#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 15/20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�
�I� BAT� PROG� ?�
�(� A� )� =� 930� ?� I�
�?� β� +� 1� ?�
�charging(theDRIVEpinisinternallyswitchedtotheBAT�
�pin).� Most� transistors� will� meet� this� requirement� as� well.�
�With� low� supply� voltages,� the� PNP� saturation� voltage�
�(V� CESAT� )� becomes� important.� The� V� CESAT� must� be� less�
�than� the� minimum� supply� voltage� minus� the� maximum�
�voltage� drop� across� the� internal� current� sense� resistor� and�
�bond� wires� (approximately� 0.08� ?� )� and� maximum� battery�
�voltage� presented� to� the� charger� accounting� for� wire� I� ?� R�
�drops.�
�V� CESAT� (V)� <� V� DD(MIN)� –� (I� BAT(MAX)� ?� 0.08� ?� +� V� BAT(MAX)� )�
�For� example,� if� it� were� desired� to� have� a� programmed�
�charge� current� of� 2A� with� a� minimum� supply� voltage� of�
�4.75V� and� a� maximum� battery� voltage� of� 3.6V� (2� series�
�cells� at� 1.8V� each),� then� the� minimum� operating� V� CESAT� is:�
�V� CESAT� (V)� =� 4.75� –� (2� ?� 0.08� +� 3.6)� =� 0.99V�
�If� the� PNP� transistor� cannot� achieve� the� saturation� voltage�
�required,� base� current� will� dramatically� increase.� This� is� to�
�be� avoided� for� a� number� of� reasons:� DRIVE� pin� current�
�may� reach� current� limit� resulting� in� the� LTC4060� charac-�
�teristics� going� out� of� specifications,� excessive� power�
�dissipation� may� force� the� IC� into� thermal� shutdown,� or� the�
�battery� could� discharge� because� some� of� the� current� from�
�the� DRIVE� pin� could� be� pulled� from� the� battery� through� the�
�forward� biased� PNP� collector� base� junction.�
�The� actual� battery� fast� charge� current� (I� BAT� )� is� slightly� less�
�than� the� regulated� charge� current� because� the� charger�
�senses� the� emitter� current� and� the� battery� charge� current�
�will� be� reduced� by� the� base� current.� In� terms� of� β� (I� C� /I� B� )�
�I� BAT� can� be� calculated� as� follows:�
�?� β� ?�
�?�
�If� β� =� 100� then� I� BAT� is� 1%� low.� The� 1%� loss� can� be� easily�
�compensated� for� by� increasing� I� PROG� by� 1%.�
�Another� important� factor� to� consider� when� choosing� the�
�PNP� pass� transistor� is� its� power� handling� capability.� The�
�transistor’s� data� sheet� will� usually� give� the� maximum� rated�
�power� dissipation� at� a� given� ambient� temperature� with� a�
�power� derating� for� elevated� temperature� operation.� The�
�maximum� power� dissipation� of� the� PNP� when� charging� is:�
�P� D(MAX)� (W)� =� I� MAX� (V� DD(MAX)� –� V� BAT(MIN)� )�
�V� DD(MAX)� is� the� maximum� supply� voltage� and� V� BAT(MIN)� is�
�the� minimum� battery� voltage� when� discharged,� but� not�
�less� than� 0.9V/cell� since� less� than� 0.9V/cell� invokes�
�precharge� current� levels.�
�Thermal� Considerations�
�Internal� overtemperature� protection� is� provided� to� prevent�
�excessive� LTC4060� die� temperature� during� a� fault� condi-�
�tion.� If� the� internal� die� temperature� exceeds� approximately�
�145°C, charging stops and the part enters the shutdown�
�state.� The� faults� can� be� generated� from� insuffient� heat�
�sinking,� a� shorted� DRIVE� pin� or� from� excessive� DRIVE� pin�
�current� to� the� base� of� an� external� PNP� transistor� if� it’s� in�
�deep� saturation� from� a� very� low� V� CE� .� Once� in� the� shutdown�
�state,� charge� qualification� can� be� reinitiated� only� by� re-�
�moving� and� replacing� the� battery� or� toggling� the� SHDN� pin�
�low� to� high� or� removing� and� reapplying� power� to� the�
�charger.� This� protection� is� not� designed� to� prevent� over-�
�heating� of� the� PNP� pass� transistor.� Indirectly� though,� self-�
�heating� of� the� PNP� thermally� conducting� to� the� LTC4060�
�can� result� in� the� IC’s� junction� temperature� rising� above�
�145� °� C,� thus� cutting� off� the� PNP’s� base� current.� This� action�
�will� limit� the� PNP’s� junction� temperature� to� some� tempera-�
�ture� well� above� 145� °� C.� The� user� should� insure� that� the�
�maximum� rated� junction� temperature� is� not� exceeded�
�under� any� normal� operating� condition.� See� Package/Order�
�Information� for� the� θ� JA� of� the� LTC4060� Exposed� Pad�
�packages.� The� actual� thermal� resistance� in� the� application�
�will� vary� depending� on� forced� air� cooling,� use� of� the�
�Exposed� Pad� and� other� heat� sinking� means,� especially� the�
�amount� of� copper� on� the� PCB� to� which� the� LTC4060� is�
�attached. The majority of the power dissipated within the�
�LTC4060� is� in� the� current� sense� resitor� and� DRIVE� pin�
�driver� as� given� below:�
�P� D� =� (I� BAT� )� 2� ?� 0.08� +� I� DRIVE� (V� CC� –� V� EB� )�
�T� J� =� T� A� +� θ� JA� ?� P� D�
�V� EB� is the emitter to base voltage of the external PNP.�
�4060f�
�15�
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