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参数资料
| 型号: | LTM4613EV#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 15/28页 |
| 文件大小: | 0K |
| 描述: | IC DC/DC UMODULE 8A 133-LGA |
| 产品培训模块: | µModule® Family of EN55022 Class B Certified Regulators |
| 设计资源: | DC1743A Design Files |
| 标准包装: | 119 |
| 系列: | µModule® |
| 类型: | 非隔离(POL) |
| 输出数: | 1 |
| 电压 - 输入(最小): | 5V |
| 电压 - 输入(最大): | 36V |
| Voltage - Output 1: | 12V |
| 电流 - 输出(最大): | 8A |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 133-LGA |
| 尺寸/尺寸: | 0.59" L x 0.59" W x 0.17" H(15.0mm x 15.0mm x 4.3mm) |
| 包装: | 托盘 |
| 工作温度: | -40°C ~ 125°C |
| 效率: | 96% |
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�
�LTM4613�
�APPLICATIONS� INFORMATION�
�?� 100k� =� R2�
�R1� =�
�+� FB� –� TRACK�
�V� UVLO� =� A�
�R� +� R� B�
�for the tracking to work. Figure 6 shows the coincident�
�output� tracking.�
�Ratiometric� tracking� can� be� achieved� by� a� few� simple�
�calculations� and� the� slew� rate� value� applied� to� the� master’s�
�TRACK� pin.� The� TRACK� pin� has� a� control� range� from� 0� to�
�0.6V.� The� master’s� TRACK� pin� slew� rate� is� directly� equal� to�
�the� master’s� output� slew� rate� in� Volts/Time.� The� equation:�
�MR�
�SR�
�where� MR� is� the� master’s� output� slew� rate� and� SR� is� the�
�slave’s� output� slew� rate� in� Volts/Time.� When� coincident�
�tracking� is� desired,� then� MR� and� SR� are� equal,� thus� R2� is�
�equal� the� 100k.� R� TA� is� derived� from� equation:�
�0.6V�
�V� FB� V� V�
�100k� R� FB� R2�
�where� V� FB� is� the� feedback� voltage� reference� of� the� regula-�
�tor,� and� V� TRACK� is� 0.6V.� Since� R2� is� equal� to� the� 100k� top�
�feedback� resistor� of� the� slave� regulator� in� equal� slew� rate�
�or� coincident� tracking,� then� R1� is� equal� to� R� FB� with� V� FB� =�
�V� TRACK� .� Therefore� R2� =� 100k,� and� R1� =� 5.23k� in� Figure� 5.�
�In� ratiometric� tracking,� a� different� slew� rate� maybe� desired�
�for� the� slave� regulator.� R2� can� be� solved� for� when� SR� is�
�slower� than� MR.� Make� sure� that� the� slave� supply� slew�
�rate� is� chosen� to� be� fast� enough� so� that� the� slave� output�
�voltage� will� reach� it� final� value� before� the� master� output.�
�For� example,� MR� =� 1.5V/1ms,� and� SR� =� 1.2V/1ms.� Then�
�R2� =� 125k.� Solve� for� R1� to� equal� to� 5.18k.�
�Each� of� the� TRACK� pins� will� have� the� 1.5μA� current� source�
�on� when� a� resistive� divider� is� used� to� implement� tracking�
�on� that� specific� channel.� This� will� impose� an� offset� on� the�
�TRACK� pin� input.� Smaller� values� resistors� with� the� same�
�ratios� as� the� resistor� values� calculated� from� the� above�
�equation� can� be� used.� For� example,� where� the� 100k� is�
�used� then� a� 10k� can� be� used� to� reduce� the� TRACK� pin�
�offset� to� a� negligible� value.�
�RUN� Enable�
�The� RUN� pin� is� used� to� enable� the� power� module.� The�
�pin� has� an� internal� 5.1V� Zener� to� ground.� The� pin� can� be�
�driven� with� 5V� logic� levels.�
�The� RUN� pin� can� also� be� used� as� an� undervoltage� lockout�
�(UVLO)� function� by� connecting� a� resistor� divider� from�
�the� input� supply� to� the� RUN� pin.� The� equation� for� UVLO�
�threshold:�
�?� 1.5V�
�R� B�
�where� R� A� is� the� top� resistor,� and� R� B� is� the� bottom� resistor.�
�Power� Good�
�The� PGOOD� pin� is� an� open-drain� pin� that� can� be� used� to�
�monitor� valid� output� voltage� regulation.� This� pin� monitors�
�a� ±10%� window� around� the� regulation� point,� and� tracks�
�with� margining.�
�COMP� Pin�
�The� pin� is� the� external� compensation� pin.� The� module�
�has� already� been� internally� compensated� for� most� output�
�voltages.� Linear� Technology� provides� LTpowerCAD?� for�
�more� control� loop� optimization.�
�FCB� Pin�
�The� FCB� pin� determines� whether� the� bottom� MOSFET�
�remains� on� when� current� reverses� in� the� inductor.� Tying�
�this� pin� above� its� 0.6V� threshold� enables� discontinuous�
�operation� where� the� bottom� MOSFET� turns� off� when� in-�
�ductor� current� reverses.� FCB� pin� below� the� 0.6V� threshold�
�forces� continuous� synchronous� operation,� allowing� current�
�to� reverse� at� light� loads� and� maintaining� high� frequency�
�operation.�
�PLLIN� Pin�
�The� power� module� has� a� phase-locked� loop� comprised�
�of� an� internal� voltage� controlled� oscillator� and� a� phase�
�detector.� This� allows� the� internal� top� MOSFET� turn-on� to� be�
�locked� to� the� rising� edge� of� the� external� clock.� The� external�
�clock� frequency� range� must� be� within� ±30%� around� the�
�set� operating� frequency.� A� pulse� detection� circuit� is� used�
�to� detect� a� clock� on� the� PLLIN� pin� to� turn� on� the� phase-�
�locked� loop.� The� pulse� width� of� the� clock� has� to� be� at� least�
�400ns.� The� clock� high� level� must� be� above� 2V� and� clock�
�4613f�
�15�
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