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| 型号: | LT3973EMSE-5#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 13/24页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK 5V 0.75A 10MSOP |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 5V |
| 输入电压: | 4.2 V ~ 42 V |
| PWM 型: | 电流模式,Burst Mode? |
| 频率 - 开关: | 195kHz ~ 2.15MHz |
| 电流 - 输出: | 750mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽)裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 10-MSOP 裸露焊盘 |
��
�
�LT3973/LT3973-3.3/LT3973-5�
�APPLICATIONS� INFORMATION�
�V� OUT� +� V� D�
�V� IN(MIN1)� =� –� V� D� +� V� SW�
�V� OUT� +� V� D�
�f� SW�
�about 97.5%. This leads to a minimum input voltage of�
�approximately:�
�DC� MAX�
�where� V� OUT� is� the� output� voltage,� V� D� is� the� catch� diode�
�drop� (~0.7V),� V� SW� is� the� internal� switch� drop� (~0.5V� at�
�max� load),� and� DC� MAX� is� the� maximum� duty� cycle.�
�The� final� factor� affecting� the� minimum� input� voltage� is� the�
�minimum� dropout� voltage.� When� the� OUT� pin� is� tied� to�
�V� OUT� ,� the� LT3973� regulates� the� output� such� that� it� stays�
�more� than� 530mV� below� V� IN� .� This� enforced� minimum�
�dropout� voltage� is� due� to� reasons� that� are� covered� in� a�
�later� section.� This� places� a� limitation� on� the� minimum�
�input� voltage� as� follows:�
�V� IN(MIN2)� =� V� OUT� +� V� DROPOUT(MIN)�
�where� V� OUT� is� the� output� voltage� and� V� DROPOUT(MIN)� is�
�the� minimum� dropout� voltage� (530mV).�
�Combining� these� factors� leads� to� the� overall� minimum�
�input� voltage:�
�V� IN(MIN)� =� max(V� IN(MIN1)� ,� V� IN(MIN2)� ,� 4.2V)�
�Note� that� the� LT3973� will� begin� switching� at� a� lower� input�
�voltage� (typically� 3V)� but� will� regulate� to� a� lower� FB� voltage�
�in� this� region� of� operation� (see� the� Typical� Performance�
�Characteristics� section).�
�be� reduced� below� the� programmed� frequency� to� prevent�
�damage� to� the� part.� The� output� voltage� ripple� and� inductor�
�current� ripple� may� also� be� higher� than� in� typical� operation,�
�however� the� output� will� still� be� in� regulation.�
�Inductor� Selection�
�For� a� given� input� and� output� voltage,� the� inductor� value�
�and� switching� frequency� will� determine� the� ripple� current.�
�The� ripple� current� increases� with� higher� V� IN� or� V� OUT� and�
�decreases� with� higher� inductance� and� faster� switching�
�frequency.� A� good� starting� point� for� selecting� the� induc-�
�tor� value� is:�
�L� =� 1.5�
�where� V� D� is� the� voltage� drop� of� the� catch� diode� (~0.7V),�
�L� is� in� μH� and� f� SW� is� in� MHz.� The� inductor’s� RMS� current�
�rating� must� be� greater� than� the� maximum� load� current�
�and� its� saturation� current� should� be� about� 30%� higher.�
�For� robust� operation� in� fault� conditions� (start-up� or� short�
�circuit)� and� high� input� voltage� (>30V),� the� saturation� cur-�
�rent� should� be� above� 1.5A.� To� keep� the� efficiency� high,�
�the� series� resistance� (DCR)� should� be� less� than� 0.1Ω,� and�
�the� core� material� should� be� intended� for� high� frequency�
�applications.� Table� 2� lists� several� inductor� vendors.�
�Table� 2.� Inductor� Vendors�
�VENDOR� URL�
�Coilcraft� www.coilcraft.com�
�Maximum� Input� Voltage� Range�
�The� highest� allowed� V� IN� during� normal� operation� (V� IN(OP-�
�MAX)� )� is� limited� by� minimum� duty� cycle� and� can� be� calcu-�
�lated� by� the� following� equation:�
�Sumida�
�Toko�
�Würth� Elektronik�
�Coiltronics�
�Murata�
�www.sumida.com�
�www.tokoam.com�
�www.we-online.com�
�www.cooperet.com�
�www.murata.com�
�V� IN(OP-MAX)� =�
�–� V� D� +� V� SW�
�V� OUT� +� V� D�
�f� SW� ?� t� ON(MIN)�
�where� t� ON(MIN)� is� the� minimum� switch� on� time.�
�However,� the� circuit� will� tolerate� inputs� up� to� the� absolute�
�maximum� ratings� of� the� V� IN� and� BOOST� pins,� regardless� of�
�chosen� switching� frequency.� During� such� transients� where�
�V� IN� is� higher� than� V� IN(OP-MAX)� ,� the� switching� frequency� will�
�This� simple� design� guide� will� not� always� result� in� the�
�optimum� inductor� selection� for� a� given� application.� As� a�
�general� rule,� lower� output� voltages� and� higher� switching�
�frequency� will� require� smaller� inductor� values.� If� the� ap-�
�plication� requires� less� than� 750mA� load� current,� then� a�
�lesser� inductor� value� may� be� acceptable.� This� allows� use�
�of� a� physically� smaller� inductor,� or� one� with� a� lower� DCR�
�resulting� in� higher� efficiency.� There� are� several� graphs� in�
�the� Typical� Performance� Characteristics� section� of� this� data�
�3973fa�
�13�
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