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| 型号: | LTC3604IUD#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 16/24页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC 2.5A 16QFN |
| 标准包装: | 121 |
| 类型: | 降压(降压) |
| 输出数: | 1 |
| 输入电压: | 3.6 V ~ 15 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 800kHz ~ 4MHz |
| 电流 - 输出: | 2.5A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-WFQFN 裸露焊盘 |
| 包装: | 管件 |
| 供应商设备封装: | 16-QFN-EP(3x3) |
��
�
�LTC3604�
�APPLICATIONS� INFORMATION�
�Each� time� a� power� MOSFET� gate� is� switched� from� low�
�to� high� to� low� again,� a� packet� of� charge� dQ� moves�
�from� V� IN� to� ground.� The� resulting� dQ/dt� is� a� current�
�out� of� INTV� CC� that� is� typically� much� larger� than� the� DC�
�control� bias� current.� In� continuous� mode,� I� GATECHG�
�=� f(Q� T� +� Q� B� ),� where� Q� T� and� Q� B� are� the� gate� charges�
�of� the� internal� top� and� bottom� power� MOSFETs� and� f�
�is� the� switching� frequency.� For� estimation� purposes,�
�(Q� T� +� Q� B� )� on� the� LTC3604� is� approximately� 1nC.�
�To� calculate� the� total� power� loss� from� the� LDO� load,�
�simply� add� the� gate� charge� current� and� quiescent� cur-�
�rent� and� multiply� by� V� IN� :�
�P� LDO� =� (I� GATECHG� +� I� Q� )� ?� V� IN�
�3.� Other� “hidden”� losses� such� as� transition� loss,� cop-�
�per� trace� resistances,� and� internal� load� currents� can�
�account� for� additional� ef?ciency� degradations� in� the�
�overall� power� system.� Transition� loss� arises� from� the�
�brief� amount� of� time� the� top� power� MOSFET� spends� in�
�the� saturated� region� during� switch� node� transitions.� The�
�LTC3604� internal� power� devices� switch� quickly� enough�
�that� these� losses� are� not� signi?cant� compared� to� other�
�sources.�
�Other� losses,� including� diode� conduction� losses� during�
�dead� time� and� inductor� core� losses,� generally� account�
�for� less� than� 2%� total� additional� loss.�
�Thermal� Considerations�
�The� LTC3604� requires� the� exposed� package� backplane�
�metal� (PGND� pin� on� the� QFN,� SGND� pin� on� the� MSOP�
�package)� to� be� well� soldered� to� the� PC� board� to� provide�
�good� thermal� contact.� This� gives� the� QFN� and� MSOP�
�packages� exceptional� thermal� properties,� compared� to�
�other� packages� of� similar� size,� making� it� dif?cult� in� normal�
�operation� to� exceed� the� maximum� junction� temperature�
�of� the� part.� In� many� applications,� the� LTC3604� does� not�
�dissipate� much� heat� due� to� its� high� ef?ciency� and� low�
�thermal� resistance� package� backplane.� However,� in� applica-�
�tions� in� which� the� LTC3604� is� running� at� a� high� ambient�
�temperature,� high� input� voltage,� high� switching� frequency,�
�and� maximum� output� current,� the� heat� dissipated� may�
�exceed� the� maximum� junction� temperature� of� the� part.� If�
�both� power� switches� will� be� turned� off� until� temperature�
�decreases� approximately� 10°C.�
�Thermal� analysis� should� always� be� performed� by� the� user�
�to� ensure� the� LTC3604� does� not� exceed� the� maximum�
�junction� temperature.�
�The� temperature� rise� is� given� by:�
�T� RISE� =� P� D� θ� JA�
�where� P� D� is� the� power� dissipated� by� the� regulator� and� θ� JA�
�is� the� thermal� resistance� from� the� junction� of� the� die� to�
�the� ambient� temperature.�
�Consider� the� example� in� which� an� LTC3604EUD� is� operat-�
�ing� with� I� OUT� =� 2.5A,� V� IN� =� 12V,� f� =� 1MHz,� V� OUT� =� 1.8V,�
�and� an� ambient� temperature� of� 25°C.� From� the� Typical�
�Performance� Characteristics� section� the� R� DS(ON)� of� the� top�
�switch� is� found� to� be� nominally� 130m� while� that� of� the�
�bottom� switch� is� nominally� 100m� yielding� an� equivalent�
�power� MOSFET� resistance� R� SW� of:�
�R� DS(ON)� TOP� ?� 1.8/12� +� R� DS(ON)� BOT� ?� 10.2/12� =� 105mΩ.�
�From� the� previous� section,� I� GATECHG� is� ~1mA� when� f� =�
�1MHz,� and� the� spec� table� lists� the� maximum� I� Q� to� be� 1mA.�
�Therefore,� the� total� power� dissipation� due� to� resistive�
�losses� and� LDO� losses� is:�
�P� D� =� I� OUT2� ?� R� SW� +� V� IN� ?� (I� GATECHG� +� I� Q� )�
�P� D� =� (2.5A)� 2� ?� (0.105Ω)� +� 12V� ?� 2mA� =� 680mW�
�The� QFN� 3mm� � 3mm� package� junction-to-ambient� thermal�
�resistance,� θ� JA� ,� is� around� 45°C/W.� Therefore,� the� junction�
�temperature� of� the� regulator� operating� in� a� 25°C� ambient�
�temperature� is� approximately:�
�T� J� =� 0.680W� ?� 45°C/W� +� 25°C� =� 56°C�
�Remembering� that� the� above� junction� temperature� is�
�obtained� from� an� R� DS(ON)� at� 25°C,� we� might� recalculate� the�
�junction� temperature� based� on� a� higher� R� DS(ON)� since� it�
�increases� with� temperature.� Redoing� the� calculation� assum-�
�ing� that� R� SW� increased� 15%� at� 56°C� yields� a� new� junction�
�temperature� of� 66°C.� If� the� application� calls� for� a� signi?-�
�cantly� higher� ambient� temperature� and/or� higher� switching�
�frequency,� care� should� be� taken� to� reduce� the� temperature�
�rise� of� the� part� by� using� a� heat� sink� or� air� ?ow.�
�the� junction� temperature� reaches� approximately� 150°C,�
�3604f�
�16�
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