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| 型号: | LT3844IFE#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 12/24页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST INV PWM 16TSSOP |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 330kHz |
| 占空比: | 95% |
| 电源电压: | 4 V ~ 60 V |
| 降压: | 是 |
| 升压: | 是 |
| 回扫: | 无 |
| 反相: | 是 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm)裸露焊盘 |
| 包装: | 带卷 (TR) |
��
�
�LT3844�
�APPLICATIONS� INFORMATION�
�L� >� V� OUT� ?�
�2� DC� MAX� –� 1� R� SENSE� ?� 8� .� 33�
�P� COND� OUT� (� MAX� )� )� ?� OUT� ?� (� R� DS� (� ON� )� )�
�=� (� I�
�The typical range of values for ΔI� L� is (0.2 ? I� OUT(MAX)� ) to�
�(0.5� ?� I� OUT(MAX)� ),� where� I� OUT(MAX)� is� the� maximum� load�
�current� of� the� supply.� Using� Δ� I� L� =� 0.3� ?� I� OUT(MAX)� yields� a�
�good� design� compromise� between� inductor� performance�
�versus� inductor� size� and� cost.� A� value� of� Δ� I� L� =� 0.3� ?� I� OUT(MAX)�
�produces� a� ±15%� of� I� OUT(MAX)� ripple� current� around� the� DC�
�output� current� of� the� supply.� Lower� values� of� Δ� I� L� require�
�larger� and� more� costly� magnetics.� Higher� values� of� Δ� I� L�
�will� increase� the� peak� currents,� requiring� more� ?ltering�
�on� the� input� and� output� of� the� supply.� If� Δ� I� L� is� too� high,�
�the� slope� compensation� circuit� is� ineffective� and� current�
�mode� instability� may� occur� at� duty� cycles� greater� than�
�50%.� To� satisfy� slope� compensation� requirements� the�
�minimum� inductance� is� calculated� as� follows:�
�?�
�DC� MAX� f� SW�
�Some� magnetics� vendors� specify� a� volt-second� product�
�in� their� data� sheet.� If� they� do� not,� consult� the� magnetics�
�vendor� to� make� sure� the� speci?cation� is� not� being� exceeded�
�by� your� design.� The� volt-second� product� is� calculated� as�
�follows:�
�For� more� detailed� information� on� selecting� an� inductor,�
�please� see� the� “Inductor� Selection”� section� of� Linear�
�Technology� Application� Note� 44.�
�Step-Down� Converter:� MOSFET� Selection�
�The� selection� criteria� of� the� external� N-channel� standard�
�level� power� MOSFET� include� on� resistance(R� DS(ON)� ),� re-�
�verse� transfer� capacitance� (C� RSS� ),� maximum� drain� source�
�voltage� (V� DSS� ),� total� gate� charge� (Q� G� )� and� maximum�
�continuous� drain� current.�
�For� maximum� ef?ciency,� minimize� R� DS(ON)� and� C� RSS� .�
�Low� R� DS(ON)� minimizes� conduction� losses� while� low� C� RSS�
�minimizes� transition� losses.� The� problem� is� that� R� DS(ON)� is�
�inversely� related� to� C� RSS� .� Balancing� the� transition� losses�
�with� the� conduction� losses� is� a� good� idea� in� sizing� the�
�MOSFET.� Select� the� MOSFET� to� balance� the� two� losses.�
�Calculate� the� maximum� conduction� losses� of� the�
�MOSFET:�
�2� ?� V� ?�
�?� V� IN� ?�
�(� V� IN� (� MAX� )� –� V� OUT� OUT�
�Volt-second� (μsec)� =�
�)?� V�
�V� INN� (� MAX� )� ?� f� SW�
�Note� that� R� DS(ON)� has� a� large� positive� temperature� depen-�
�dence.� The� MOSFET� manufacturer’s� data� sheet� contains� a�
�curve,� R� DS(ON)� vs� Temperature.�
�The� magnetics� vendors� specify� either� the� saturation� cur-�
�rent,� the� RMS� current� or� both.� When� selecting� an� inductor�
�based� on� inductor� saturation� current,� use� the� peak� cur-�
�rent� through� the� inductor,� I� OUT(MAX)� +� Δ� I� L� /2.� The� inductor�
�saturation� current� speci?cation� is� the� current� at� which�
�the� inductance,� measured� at� zero� current,� decreases� by�
�a� speci?ed� amount,� typically� 30%.�
�When� selecting� an� inductor� based� on� RMS� current� rating,�
�use� the� average� current� through� the� inductor,� I� OUT(MAX)� .�
�The� RMS� current� speci?cation� is� the� RMS� current� at� which�
�the� part� has� a� speci?c� temperature� rise,� typically� 40°C,�
�above� 25°C� ambient.�
�After� calculating� the� minimum� inductance� value,� the�
�volt-second� product,� the� saturation� current� and� the� RMS�
�current� for� your� design,� select� an� off-the-shelf� inductor.�
�Contact� the� Application� group� at� Linear� Technology� for�
�further� support.�
�Calculate� the� maximum� transition� losses:�
�P� TRAN� =� (k)(V� IN� )� 2� (I� OUT(MAX)� )(C� RSS� )(f� SW� )�
�where� k� is� a� constant� inversely� related� to� the� gate� driver�
�current,� approximated� by� k� =� 2� for� LT3844� applications.�
�The� total� maximum� power� dissipation� of� the� MOSFET� is�
�the� sum� of� these� two� loss� terms:�
�P� FET(TOTAL)� =� P� COND� +� P� TRAN�
�To� achieve� high� supply� ef?ciency,� keep� the� P� FET(TOTAL)� to�
�less� than� 3%� of� the� total� output� power.� Also,� complete�
�a� thermal� analysis� to� ensure� that� the� MOSFET� junction�
�temperature� is� not� exceeded.�
�T� J� =� T� A� +� P� FET(TOTAL)� ?� θ� JA�
�where� θ� JA� is� the� package� thermal� resistance� and� T� A� is� the�
�ambient� temperature.� Keep� the� calculated� T� J� below� the� max-�
�imum� speci?ed� junction� temperature,� typically� 150°C.�
�3844fb�
�12�
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