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参数资料
| 型号: | LTC4058XEDD-4.2#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 9/12页 |
| 文件大小: | 0K |
| 描述: | IC BATT CHARGER LI-ION REG 8DFN |
| 标准包装: | 2,500 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子(Li-Ion) |
| 电源电压: | 4.25 V ~ 6.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-WFDFN 裸露焊盘 |
| 供应商设备封装: | 8-DFN-EP(3x3) |
| 包装: | 带卷 (TR) |
��
�
�LTC4058-4.2/LTC4058X-4.2�
�APPLICATIO� S� I� FOR� ATIO�
�Kelvin� Sensing� the� Battery� (BSENSE� Pin)�
�The� internal� P-channel� MOSFET� drain� is� connected� to� the�
�BAT� pin,� while� the� BSENSE� pin� connects� through� an� inter-�
�nal� precision� resistor� divider� to� the� input� of� the� constant-�
�voltage� amplifier.� This� architecture� allows� the� BSENSE� pin�
�to� Kelvin� sense� the� positive� battery� terminal.� This� is� espe-�
�cially� useful� when� the� copper� trace� from� the� BAT� pin� to� the�
�out� of� the� BAT� pin� is� typically� of� more� interest� than� the�
�instantaneous� current� pulses.� In� such� a� case,� a� simple� RC�
�filter� can� be� used� on� the� PROG� pin� to� measure� the� average�
�battery� current,� as� shown� in� Figure� 2.� A� 10k� resistor� has�
�been� added� between� the� PROG� pin� and� the� filter� capacitor�
�to� ensure� stability.�
�Li-Ion� battery� is� long� and� has� a� high� resistance.� High�
�charge� currents� can� cause� a� significant� voltage� drop� be-�
�tween� the� positive� battery� terminal� and� the� BAT� pin.� In� this�
�situation,� a� separate� trace� from� the� BSENSE� pin� to� the�
�LTC4058-4.2�
�PROG�
�GND�
�10k�
�R� PROG�
�C� FILTER�
�CHARGE�
�CURRENT�
�MONITOR�
�CIRCUITRY�
�battery� terminals� will� eliminate� this� voltage� error� and� re-�
�sult� in� more� accurate� battery� voltage� sensing.� The� BSENSE�
�pin� MUST� be� electrically� connected� to� the� BAT� pin� .�
�Stability� Considerations�
�The� constant-voltage� mode� feedback� loop� is� stable� with-�
�out� an� output� capacitor,� provided� a� battery� is� connected� to�
�the� charger� output.� With� no� battery� present,� an� output�
�capacitor� on� the� BAT� pin� is� recommended� to� reduce� ripple�
�voltage.� When� using� high� value,� low� ESR� ceramic� capaci-�
�tors,� it� is� recommended� to� add� a� 1� ?� resistor� in� series� with�
�the� capacitor.� No� series� resistor� is� needed� if� tantalum�
�capacitors� are� used.�
�In� constant-current� mode,� the� PROG� pin� is� in� the� feedback�
�loop,� not� the� battery.� The� constant-current� mode� stability�
�is� affected� by� the� impedance� at� the� PROG� pin.� With� no�
�additional� capacitance� on� the� PROG� pin,� the� charger� is�
�stable� with� program� resistor� values� as� high� as� 20k;� how-�
�ever,� additional� capacitance� on� this� node� reduces� the�
�maximum� allowed� program� resistor.� The� pole� frequency�
�at� the� PROG� pin� should� be� kept� above� 100kHz.� Therefore,�
�if� the� PROG� pin� is� loaded� with� a� capacitance,� C� PROG� ,� the�
�following� equation� can� be� used� to� calculate� the� maximum�
�resistance� value� for� R� PROG� :�
�405842� F02�
�Figure� 2.� Isolating� Capacitive� Load� on� PROG� Pin� and� Filtering�
�Power� Dissipation�
�It� is� not� necessary� to� design� for� worst-case� power� dissi-�
�pation� scenarios� because� the� LTC4058� automatically� re-�
�duces� the� charge� current� during� high� power� conditions.�
�The� conditions� that� cause� the� LTC4058� to� reduce� charge�
�current� through� thermal� feedback� can� be� approximated� by�
�considering� the� power� dissipated� in� the� IC.� Nearly� all� of�
�this� power� dissipation� is� generated� by� the� internal�
�MOSFET—this� is� calculated� to� be� approximately:�
�P� D� =� (V� CC� –� V� BAT� )� ?� I� BAT�
�where� P� D� is� the� power� dissipated,� V� CC� is� the� input� supply�
�voltage,� V� BAT� is� the� battery� voltage� and� I� BAT� is� the� charge�
�current.� The� approximate� ambient� temperature� at� which�
�the� thermal� feedback� begins� to� protect� the� IC� is:�
�T� A� =� 120� °� C� –� P� D� θ� JA�
�T� A� =� 120� °� C� –� (V� CC� –� V� BAT� )� ?� I� BAT� ?� θ� JA�
�Example:� An� LTC4058� operating� from� a� 5V� supply� is�
�programmed� to� supply� 800mA� full-scale� current� to� a�
�R� PROG� ≤�
�1�
�2� π� ?� 10� 5� ?� C� PROG�
�discharged� Li-Ion� battery� with� a� voltage� of� 3.3V.� Assuming�
�θ� JA� is� 50� °� C/W� (see� Thermal� Considerations),� the� ambient�
�temperature� at� which� the� LTC4058� will� begin� to� reduce� the�
�Average,� rather� than� instantaneous� charge� current� may� be�
�of� interest� to� the� user.� For� example,� if� a� switching� power�
�supply� operating� in� low� current� mode� is� connected� in�
�parallel� with� the� battery,� the� average� current� being� pulled�
�charge� current� is� approximately:�
�T� A� =� 120� °� C� –� (5V� –� 3.3V)� ?� (800mA)� ?� 50� °� C/W�
�T� A� =� 120� °� C� –� 1.36W� ?� 50� °� C/W� =� 120� °� C� –� 68� °� C�
�T� A� =� 52� °� C�
�sn405842� 405842fs�
�9�
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