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参数资料
| 型号: | LTC1473LCGN#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 10/16页 |
| 文件大小: | 0K |
| 描述: | IC SWITCH DVR PWRPATH DUAL16SSOP |
| 标准包装: | 2,500 |
| 系列: | PowerPath™ |
| 应用: | 手持/移动设备 |
| FET 型: | N 沟道 |
| 输出数: | 2 |
| 内部开关: | 无 |
| 延迟时间 - 开启: | 22µs |
| 延迟时间 - 关闭: | 1µs |
| 电源电压: | 2.8 V ~ 9 V |
| 电流 - 电源: | 100µA |
| 工作温度: | 0°C ~ 70°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) |
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�
�LTC1473L�
�APPLICATIO� S� I� FOR� ATIO�
�t� SW� (� MAX� )� =� (� 10� )� (� 100� μ� F� )� =� 250� μ� s�
�C� ITMER� =� 0� .� 75� ms� ?�
�?� =� 3879� pF�
�powerdissipatedintheswitchesisneverallowedtorise�
�above� the� manufacturers’� recommended� level.�
�Inrush� Current� Sense� Resistor,� R� SENSE�
�A� small� valued� sense� resistor� (current� shunt)� is� used� by�
�the� two� switch� pair� drivers� to� measure� and� limit� the� inrush�
�or� short-circuit� current� flowing� through� the� conducting�
�switch� pair.�
�The� inrush� current� limit� should� be� set� at� approximately� 2� �
�or� 3� � the� maximum� required� output� current.� For� example,�
�if� the� maximum� current� required� by� the� DC/DC� converter�
�is� 2A,� an� inrush� current� limit� of� 6A� is� set� by� selecting� a�
�0.033� ?� sense� resistor,� R� SENSE� ,� using� the� following�
�formula:�
�R� SENSE� =� (200mV)/I� INRUSH�
�Note� that� the� voltage� drop� across� the� resistor� in� this�
�example� is� only� 66mV� under� normal� operating� conditions.�
�Therefore,� the� power� dissipated� in� the� resistor� is� ex-�
�tremely� small� (132mW),� and� a� small� 1/4W� surface� mount�
�resistor� can� be� used� in� this� application� (the� resistor� will�
�tolerate� the� higher� power� dissipation� during� current� limit�
�for� the� duration� of� the� fault� time-out).� A� number� of� small�
�valued� surface� mount� resistors� are� available� that� have�
�been� specifically� designed� for� high� efficiency� current�
�sensing� applications.�
�Programmable� Fault� Timer� Capacitor,� C� TIMER�
�A� fault� timer� capacitor,� C� TIMER� ,� is� used� to� program� the� time�
�duration� the� MOSFET� switches� are� allowed� to� be� in� current�
�limit� continuously.� This� feature� can� be� disabled� by� either�
�grounding� the� TIMER� pin� or� asserting� DIODE� low� and�
�asserting� either� IN1� or� IN2� high.�
�In� the� event� of� a� fault� condition,� the� MOSFET� switch� is�
�driven� into� current� limit� by� the� inrush� current� limit� loop.�
�The� MOSFET� switch� operating� in� current� limit� is� in� a� high�
�dissipation� mode� and� can� fail� catastrophically� if� not�
�promptly� terminated.�
�The� fault� time� delay� is� programmed� with� an� external�
�capacitor� connected� between� the� TIMER� pin� and� GND.� At�
�10�
�the� instant� the� MOSFET� switch� enters� current� limit,� a� 6� μ� A�
�current� source� starts� charging� C� TIMER� through� the� TIMER�
�pin.� When� the� voltage� across� C� TIMER� reaches� 1.16V� an�
�internal� latch� is� set� and� the� MOSFET� switch� is� turned� off.�
�To� reset� the� latch,� the� logic� input� of� the� MOSFET� gate�
�driver� must� be� deselected.�
�The� fault� time� delay� should� be� programmed� as� large� as�
�possible,� at� least� 3� � to� 5� � the� maximum� switching� transi-�
�tion� period,� to� avoid� prematurely� tripping� the� protection�
�circuit.� Conversely,� for� the� protection� circuit� to� be� effec-�
�tive,� the� fault� time� delay� must� be� within� the� safe� operating�
�area� of� the� MOSFET� switches� as� stated� in� the� manufacturer’s�
�data� sheet.�
�The� maximum� switching� transition� period� happens� during�
�a� cold� start,� when� a� fully� charged� battery� is� connected� to�
�an� unpowered� system.� The� inrush� current� charging� up� the�
�system� supply� capacitor� to� the� battery� voltage� determines�
�the� switching� transition� period.�
�The� following� example� illustrates� the� calculation� of� C� TIMER.�
�Assume� the� maximum� battery� voltage� is� 10V,� the� system�
�supply� capacitor� is� 100� μ� F,� the� inrush� current� limit� is� 6A�
�and� the� maximum� current� required� by� the� following� sys-�
�tem� is� 2A.� Then,� the� maximum� switching� transition� period�
�is� calculated� using� the� following� formula:�
�t� SW� (� MAX� )� =� (� V� BAT� (� MAX� )� )� (� C� IN� (� SYSTEM� )� )�
�I� INRUSH� ?� I� LOAD�
�6� A� ?� 2� A�
�Multiplying� 3� by� 250� μ� s� gives� 0.75ms,� the� minimum� fault�
�delay� time.� Make� sure� this� delay� time� does� not� fall� outside�
�of� the� safe� operating� area� of� the� MOSFET� switch� dissipat-�
�ing� 30W� (6A� ?� 10V/2).� Using� this� delay� time� the� C� TIMER� can�
�be� calculated� using� the� following� formula:�
�?� 6� μ� A� ?�
�?� 1� .� 16� V� ?�
�Therefore,� C� TIMER� can� be� 3900pF.�
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