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参数资料
| 型号: | LT1511CSW#TR |
| 厂商: | Linear Technology |
| 文件页数: | 9/16页 |
| 文件大小: | 0K |
| 描述: | IC CHARGER BATT CONST V/I 24SOIC |
| 标准包装: | 1,000 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子,镍镉,镍氢 |
| 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: | 24-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 24-SOIC |
| 包装: | 带卷 (TR) |
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�
�LT1511�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�(� )�
�0.29� (V� BAT� )� 1� –� BAT�
�Input and Output Capacitors�
�In� the� 3A� Lithium� Battery� Charger� (Figure� 1),� the� input�
�capacitor� (C� IN� )� is� assumed� to� absorb� all� input� switching�
�ripple� current� in� the� converter,� so� it� must� have� adequate�
�ripple� current� rating.� Worst-case� RMS� ripple� current� will�
�be� equal� to� one� half� of� output� charging� current.� Actual�
�capacitance� value� is� not� critical.� Solid� tantalum� capacitors�
�such� as� the� AVX� TPS� and� Sprague� 593D� series� have� high�
�ripple� current� rating� in� a� relatively� small� surface� mount�
�package,� but� caution� must� be� used� when� tantalum� capaci-�
�tors� are� used� for� input� bypass.� High� input� surge� currents�
�can� be� created� when� the� adapter� is� hot-plugged� to� the�
�charger� and� solid� tantalum� capacitors� have� a� known�
�failure� mechanism� when� subjected� to� very� high� turn-on�
�surge� currents.� Highest� possible� voltage� rating� on� the�
�capacitor� will� minimize� problems.� Consult� with� the� manu-�
�facturer� before� use.� Alternatives� include� new� high� capacity�
�ceramic� (5� μ� F� to� 20� μ� F)� from� Tokin� or� United� Chemi-Con/�
�Marcon,� et� al.,� and� the� old� standby,� aluminum� electrolytic,�
�which� will� require� more� microfarads� to� achieve� adequate�
�ripple� rating.� Sanyo� OS-CON� can� also� be� used.�
�The� output� capacitor� (C� OUT� )� is� also� assumed� to� absorb�
�output� switching� current� ripple.� The� general� formula� for�
�capacitor� current� is:�
�V�
�V� CC�
�I� RMS� =�
�(L1)(f)�
�For� example,� V� CC� =� 16V,� V� BAT� =� 8.4V,� L1� =� 20� μ� H,�
�and� f� =� 200kHz,� I� RMS� =� 0.3A.�
�EMI� considerations� usually� make� it� desirable� to� minimize�
�ripple� current� in� the� battery� leads,� and� beads� or� inductors�
�may� be� added� to� increase� battery� impedance� at� the� 200kHz�
�switching� frequency.� Switching� ripple� current� splits� be-�
�tween� the� battery� and� the� output� capacitor� depending� on�
�the� ESR� of� the� output� capacitor� and� the� battery� imped-�
�ance.� If� the� ESR� of� C� OUT� is� 0.2� ?� and� the� battery� impedance�
�is� rased� to� 4� ?� with� a� bead� or� inductor,� only� 5%� of� the�
�current� ripple� will� flow� in� the� battery.�
�Soft-Start�
�The� LT1511� is� soft� started� by� the� 0.33� μ� F� capacitor� on� the�
�V� C� pin.� On� start-up,� V� C� pin� voltage� will� rise� quickly� to� 0.5V,�
�then� ramp� at� a� rate� set� by� the� internal� 45� μ� A� pull-up� current�
�and� the� external� capacitor.� Battery� charging� current� starts�
�ramping� up� when� V� C� voltage� reaches� 0.7V� and� full� current�
�is� achieved� with� V� C� at� 1.1V.� With� a� 0.33� μ� F� capacitor,� time�
�to� reach� full� charge� current� is� about� 10ms� and� it� is�
�assumed� that� input� voltage� to� the� charger� will� reach� full�
�value� in� less� than� 10ms.� The� capacitor� can� be� increased� up�
�to� 1� μ� F� if� longer� input� start-up� times� are� needed.�
�In� any� switching� regulator,� conventional� timer-based� soft�
�starting� can� be� defeated� if� the� input� voltage� rises� much�
�slower� than� the� time� out� period.� This� happens� because� the�
�switching� regulators� in� the� battery� charger� and� the� com-�
�puter� power� supply� are� typically� supplying� a� fixed� amount�
�of� power� to� the� load.� If� input� voltage� comes� up� slowly�
�compared� to� the� soft� start� time,� the� regulators� will� try� to�
�deliver� full� power� to� the� load� when� the� input� voltage� is� still�
�well� below� its� final� value.� If� the� adapter� is� current� limited,�
�it� cannot� deliver� full� power� at� reduced� output� voltages� and�
�the� possibility� exists� for� a� quasi� “latch”� state� where� the�
�adapter� output� stays� in� a� current� limited� state� at� reduced�
�output� voltage.� For� instance,� if� maximum� charger� plus�
�computer� load� power� is� 30W,� a� 15V� adapter� might� be�
�current� limited� at� 2.5A.� If� adapter� voltage� is� less� than�
�(30W/2.5A� =� 12V)� when� full� power� is� drawn,� the� adapter�
�voltage� will� be� sucked� down� by� the� constant� 30W� load� until�
�it� reaches� a� lower� stable� state� where� the� switching� regu-�
�lators� can� no� longer� supply� full� load.� This� situation� can� be�
�prevented� by� utilizing� undervoltage� lockout,� set� higher�
�than� the� minimum� adapter� voltage� where� full� power� can� be�
�achieved.�
�A� fixed� undervoltage� lockout� of� 7V� is� built� into� the� V� CC� pin,�
�but� an� additional� adjustable� lockout� is� also� available� on� the�
�UV� pin.� Internal� lockout� is� performed� by� clamping� the� V� C�
�pin� low.� The� V� C� pin� is� released� from� its� clamped� state� when�
�the� UV� pin� rises� above� 6.7V� and� is� pulled� low� when� the� UV�
�pin� drops� below� 6.2V� (0.5V� hysteresis).� At� the� same� time�
�UV� OUT� goes� high� with� an� external� pull-up� resistor.� This�
�signal� can� be� used� to� alert� the� system� that� charging� is�
�about� to� start.� The� charger� will� start� delivering� current�
�about� 4ms� after� V� C� is� released,� as� set� by� the� 0.33� μ� F�
�9�
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