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| 型号: | LT1510-5IGN#TR |
| 厂商: | Linear Technology |
| 文件页数: | 14/16页 |
| 文件大小: | 0K |
| 描述: | IC CHARGER BATT CONST V/I 16SSOP |
| 标准包装: | 2,500 |
| 功能: | 充电管理 |
| 电池化学: | 锂离子,镍镉,镍氢 |
| 电源电压: | 6.2 V ~ 28 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-SSOP |
| 包装: | 带卷 (TR) |
��
�
�LT1510/LT1510-5�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�90�
�80�
�70�
�NOTE:� PEAK� DIE� TEMPERATURE� WILL� BE�
�ABOUT� 10� °� C� HIGHER� THAN� LEAD� TEMPER-�
�ATURE� AT� 1.3A� CHARGING� CURRENT�
�2-LAYER BOARD�
�event� of� an� input� short.� The� body� diode� of� Q2� creates� the�
�necessary� pumping� action� to� keep� the� gate� of� Q1� low�
�during� normal� operation� (see� Figure� 11).�
�60�
�50�
�4-LAYER BOARD�
�V� IN�
�Q1�
�+�
�40�
�30�
�20�
�I� CHRG� =� 1.3A�
�V� IN� =� 16V�
�V� BAT� =� 8.4V�
�V� BOOST� =� V� BAT�
�T� A� =� 25� °� C�
�R� X�
�50k�
�Q2�
�D1�
�L1�
�C3�
�D2�
�V� CC�
�SW�
�LT1510�
�BOOST�
�0�
�5�
�10�
�15�
�20�
�25�
�30�
�35�
�SENSE�
�BOARD� AREA� (IN� 2� )� 1510� F09�
�Figure� 10.� LT1510� Lead� temperature�
�V� X�
�3V� TO� 6V�
�C� X�
�10� μ� F�
�BAT�
�V� BAT�
�low� thermal� resistance� system� and� to� act� as� a� ground�
�plane� for� reduced� EMI.�
�Q1:� Si4435DY�
�Q2:� TP0610L�
�HIGH� DUTY� CYCLE�
�CONNECTION�
�+�
�1510� F10�
�Higher� Duty� Cycle� for� the� LT1510� Battery� Charger�
�Maximum� duty� cycle� for� the� LT1510� is� typically� 90%� but�
�this� may� be� too� low� for� some� applications.� For� example,� if�
�an� 18V� ±� 3%� adapter� is� used� to� charge� ten� NiMH� cells,� the�
�charger� must� put� out� 15V� maximum.� A� total� of� 1.6V� is� lost�
�in� the� input� diode,� switch� resistance,� inductor� resistance�
�and� parasitics� so� the� required� duty� cycle� is� 15/16.4� =�
�91.4%.� As� it� turns� out,� duty� cycle� can� be� extended� to� 93%�
�by� restricting� boost� voltage� to� 5V� instead� of� using� V� BAT� as�
�is� normally� done.� This� lower� boost� voltage� V� X� (see� Figure�
�8)� also� reduces� power� dissipation� in� the� LT1510,� so� it� is� a�
�win-win� decision.�
�Even� Lower� Dropout�
�For� even� lower� dropout� and/or� reducing� heat� on� the� board,�
�the� input� diode� D3� (Figures� 2� and� 6)� should� be� replaced�
�with� a� FET.� It� is� pretty� straightforward� to� connect� a�
�P-channel� FET� across� the� input� diode� and� connect� its� gate�
�to� the� battery� so� that� the� FET� commutates� off� when� the�
�Figure� 11.� Replacing� the� Input� Diode�
�Layout� Considerations�
�Switch� rise� and� fall� times� are� under� 10ns� for� maximum�
�efficiency.� To� prevent� radiation,� the� catch� diode,� SW� pin�
�and� input� bypass� capacitor� leads� should� be� kept� as� short�
�as� possible.� A� ground� plane� should� be� used� under� the�
�switching� circuitry� to� prevent� interplane� coupling� and� to�
�act� as� a� thermal� spreading� path.� All� ground� pins� should� be�
�connected� to� expand� traces� for� low� thermal� resistance.�
�The� fast-switching� high� current� ground� path� including� the�
�switch,� catch� diode� and� input� capacitor� should� be� kept�
�very� short.� Catch� diode� and� input� capacitor� should� be�
�close� to� the� chip� and� terminated� to� the� same� point.� This�
�path� contains� nanosecond� rise� and� fall� times� with� several�
�amps� of� current.� The� other� paths� contain� only� DC� and� /or�
�200kHz� triwave� and� are� less� critical.� Figure� 13� shows�
�critical� path� layout.� Figure� 12� indicates� the� high� speed,�
�high� current� switching� path.�
�SWITCH� NODE�
�input� goes� low.� The� problem� is� that� the� gate� must� be�
�pumped� low� so� that� the� FET� is� fully� turned� on� even� when�
�the� input� is� only� a� volt� or� two� above� the� battery� voltage.�
�HIGH�
�L1�
�V� BAT�
�Also� there� is� a� turn� off� speed� issue.� The� FET� should� turn� off�
�V� IN�
�C� IN�
�FREQUENCY�
�CIRCULATING�
�C� OUT�
�BAT�
�instantly� when� the� input� is� dead� shorted� to� avoid� large�
�current� surges� form� the� battery� back� through� the� charger�
�into� the� FET.� Gate� capacitance� slows� turn� off,� so� a� small�
�PATH�
�P-FET� (Q2)� discharges� the� gate� capacitance� quickly� in� the�
�14�
�Figure� 12.� High� Speed� Switching� Path�
�1510� F12�
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