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| 型号: | LTC3568EDD#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 13/18页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC ADJ 1.8A 10DFN |
| 标准包装: | 121 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 0.8 V ~ 5 V |
| 输入电压: | 2.5 V ~ 5.5 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 最高 4MHz |
| 电流 - 输出: | 1.8A |
| 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: | 10-WFDFN 裸露焊盘 |
| 包装: | 管件 |
| 供应商设备封装: | 10-DFN(3x3) |
| 产品目录页面: | 1335 (CN2011-ZH PDF) |
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�
�LTC3568�
�APPLICATIONS� INFORMATION�
�the� losses� in� LTC3568� circuits:� 1)� LTC3568� V� IN� current,�
�2)� switching� losses,� 3)� I� 2� R� losses,� 4)� other� losses.�
�1.� The� V� IN� current� is� the� DC� supply� current� given� in� the�
�electrical� characteristics� which� excludes� MOSFET� driver�
�and� control� currents.� V� IN� current� results� in� a� small� loss�
�that� increases� with� V� IN� ,� even� at� no� load.�
�2.� The� switching� current� is� the� sum� of� the� MOSFET� driver�
�and� control� currents.� The� MOSFET� driver� current� re-�
�sults� from� switching� the� gate� capacitance� of� the� power�
�MOSFETs.� Each� time� a� 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� V� IN� that� is� typically� much� larger� than� the� DC� bias�
�current.� In� continuous� mode,� I� GATECHG� =� f� O� (QT� +� QB),�
�where� QT� and� QB� are� the� gate� charges� of� the� internal�
�top� and� bottom� MOSFET� switches.� The� gate� charge�
�losses� are� proportional� to� V� IN� and� thus� their� effects�
�will� be� more� pronounced� at� higher� supply� voltages.�
�3.� I� 2� R� Losses� are� calculated� from� the� DC� resistances� of�
�the� internal� switches,� R� SW� ,� and� external� inductor,� RL.� In�
�continuous� mode,� the� average� output� current� flowing�
�through� inductor� L� is� “chopped”� between� the� internal�
�top� and� bottom� switches.� Thus,� the� series� resistance�
�looking� into� the� SW� pin� is� a� function� of� both� top� and�
�bottom� MOSFET� R� DS(ON)� and� the� duty� cycle� (DC)� as�
�follows:�
�R� SW� =� (R� DS(ON)� TOP)(DC)� +� (R� DS(ON)� BOT)(1� –� DC)�
�The� R� DS(ON)� for� both� the� top� and� bottom� MOSFETs� can� be�
�obtained� from� the� Typical� Performance� Characteristics�
�curves.� Thus,� to� obtain� I� 2� R� losses:�
�I� 2� R� losses� =� I� OUT� 2(R� SW� +� RL)�
�4.� Other� “hidden”� losses� such� as� copper� trace� and� internal�
�battery� resistances� can� account� for� additional� efficiency�
�degradations� in� portable� systems.� It� is� very� important�
�to� include� these� “system”� level� losses� in� the� design� of� a�
�system.� The� internal� battery� and� fuse� resistance� losses�
�can� be� minimized� by� making� sure� that� C� IN� has� adequate�
�charge� storage� and� very� low� ESR� at� the� switching� fre-�
�quency.� Other� losses� including� diode� conduction� losses�
�during� dead-time� and� inductor� core� losses� generally�
�account� for� less� than� 2%� total� additional� loss.�
�Thermal Considerations�
�In� a� majority� of� applications,� the� LTC3568� does� not� dis-�
�sipate� much� heat� due� to� its� high� efficiency.� However,� in�
�applications� where� the� LTC3568� is� running� at� high� ambient�
�temperature� with� low� supply� voltage� and� high� duty� cycles,�
�such� as� in� dropout,� the� heat� dissipated� may� exceed� the�
�maximum� junction� temperature� of� the� part.� If� the� junction�
�temperature� reaches� approximately� 150°C,� both� power�
�switches� will� be� turned� off� and� the� SW� node� will� become�
�high� impedance.�
�To� avoid� the� LTC3568� from� exceeding� the� maximum� junc-�
�tion� temperature,� the� user� will� need� to� do� some� thermal�
�analysis.� The� goal� of� the� thermal� analysis� is� to� determine�
�whether� the� power� dissipated� exceeds� the� maximum�
�junction� temperature� of� the� part.� 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.�
�The� junction� temperature,� T� J� ,� is� given� by:�
�T� J� =� T� RISE� +� T� AMBIENT�
�As� an� example,� consider� the� case� when� the� LTC3568� is� in�
�dropout� at� an� input� voltage� of� 3.3V� with� a� load� current� of�
�1.8A� with� a� 70°C� ambient� temperature.� From� the� Typical�
�Performance� Characteristics� graph� of� Switch� Resistance,�
�the� R� DS(ON)� resistance� of� the� P-channel� switch� is� 0.125� Ω� .�
�Therefore,� power� dissipated� by� the� part� is:�
�P� D� =� I� 2� ?� R� DS(ON)� =� 405mW�
�The� DFN� package� junction-to-ambient� thermal� resistance,�
�θ� JA� is� 43°C/W.� Therefore,� the� junction� temperature� of� the�
�regulator� operating� in� a� 70°C� ambient� temperature� is�
�approximately:�
�T� J� =� 0.405� ?� 43� +� 70� =� 87.4°C�
�Remembering� that� the� above� junction� temperature� is�
�obtained� from� an� R� DS(ON)� at� 70°C,� we� might� recalculate�
�the� junction� temperature� based� on� a� higher� R� DS(ON)� since�
�it� increases� with� temperature.� However,� we� can� safely� as-�
�sume� that� the� actual� junction� temperature� will� not� exceed�
�the� absolute� maximum� junction� temperature� of� 125°C.�
�3568fa�
� �
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