参数资料
| 型号: | LT3971IDD-5#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 12/28页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK 5V 1.2A 10DFN |
| 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: | 4.3 V ~ 38 V |
| PWM 型: | 电流模式,Burst Mode? |
| 频率 - 开关: | 200kHz ~ 2MHz |
| 电流 - 输出: | 1.2A |
| 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-WFDFN 裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 10-DFN(3x3) |
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�LT3971/LT3971-3.3/LT3971-5�
�APPLICATIONS� INFORMATION�
�Table 1. Switching Frequency vs� R� T� Value�
�SWITCHING� FREQUENCY� (MHz)�
�R� T� VALUE� (kΩ)�
�switch� off-time.� These� equations� show� that� duty� cycle�
�range� increases� when� switching� frequency� is� decreased.�
�f� SW(MAX)� =�
�V� IN(MIN)� =�
�?� V� D� +� V� SW�
�V� IN(OP-MAX)� =�
�–� V� D� +� V� SW�
�0.2 255�
�0.4� 118�
�0.6� 71.5�
�0.8� 49.9�
�1.0� 35.7�
�1.2� 28.0�
�1.4� 22.1�
�1.6� 17.4�
�1.8� 14.0�
�2.0� 11.0�
�Operating� Frequency� Tradeoffs�
�Selection� of� the� operating� frequency� is� a� tradeoff� between�
�efficiency,� component� size,� minimum� dropout� voltage,� and�
�maximum� input� voltage.� The� advantage� of� high� frequency�
�operation� is� that� smaller� inductor� and� capacitor� values� may�
�be� used.� The� disadvantages� are� lower� efficiency,� lower�
�maximum� input� voltage,� and� higher� dropout� voltage.� The�
�highest� acceptable� switching� frequency� (f� SW(MAX)� )� for� a�
�given� application� can� be� calculated� as� follows:�
�V� OUT� +� V� D�
�t� ON(MIN)� (V� IN� ?� V� SW� +� V� D� )�
�where� V� IN� is� the� typical� input� voltage,� V� OUT� is� the� output�
�voltage,� V� D� is� the� catch� diode� drop� (~0.5V),� and� V� SW� is�
�the� internal� switch� drop� (~0.5V� at� max� load).� This� equation�
�shows� that� slower� switching� frequency� is� necessary� to�
�safely� accommodate� high� V� IN� /V� OUT� ratio.� Also,� as� shown�
�in� the� Input� Voltage� Range� section,� lower� frequency� allows�
�a� lower� dropout� voltage.� The� input� voltage� range� depends�
�on� the� switching� frequency� because� the� LT3971� switch� has�
�finite� minimum� on� and� off� times.� The� minimum� switch� on�
�and� off� times� are� strong� functions� of� temperature.� Use�
�the� typical� minimum� on� and� off� curves� to� design� for� an�
�application’s� maximum� temperature,� while� adding� about�
�30%� for� part-to-part� variation.� The� minimum� and� maximum�
�duty� cycles� that� can� be� achieved� taking� minimum� on� and�
�off� times� into� account� are:�
�DC� MIN� =� f� SW� t� ON(MIN)�
�DC� MAX� =� 1� ?� f� SW� t� OFF(MIN)�
�where� f� SW� is� the� switching� frequency,� the� t� ON(MIN)� is� the�
�minimum� switch� on-time,� and� the� t� OFF(MIN)� is� the� minimum�
�A� good� choice� of� switching� frequency� should� allow�
�adequate� input� voltage� range� (see� Input� Voltage� Range�
�section)� and� keep� the� inductor� and� capacitor� values� small.�
�Input� Voltage� Range�
�The� minimum� input� voltage� is� determined� by� either� the�
�LT3971’s� minimum� operating� voltage� of� 4.3V� or� by� its�
�maximum� duty� cycle� (see� equation� in� Operating� Frequency�
�Tradeoffs� section).� The� minimum� input� voltage� due� to�
�duty� cycle� is:�
�V� OUT� +� V� D�
�1� ?� f� SW� t� OFF(MIN)�
�where� V� IN(MIN)� is� the� minimum� input� voltage,� V� OUT� is�
�the� output� voltage,� V� D� is� the� catch� diode� drop� (~0.5V),�
�V� SW� is� the� internal� switch� drop� (~0.5V� at� max� load),� f� SW�
�is� the� switching� frequency� (set� by� R� T� ),� and� t� OFF(MIN)� is�
�the� minimum� switch� off-time.� Note� that� higher� switch-�
�ing� frequency� will� increase� the� minimum� input� voltage.�
�If� a� lower� dropout� voltage� is� desired,� a� lower� switching�
�frequency� should� be� used.�
�The� maximum� input� voltage� for� LT3971� applications�
�depends� on� switching� frequency,� the� Absolute� Maximum�
�Ratings� of� the� V� IN� and� BOOST� pins,� and� the� operating�
�mode.� For� a� given� application� where� the� switching� fre-�
�quency� and� the� output� voltage� are� already� selected,� the�
�maximum� input� voltage� (V� IN(OP-MAX)� )� that� guarantees�
�optimum� output� voltage� ripple� for� that� application� can� be�
�found� by� applying� the� following� equation:�
�V� OUT� +� V� D�
�f� SW� ?� t� ON(MIN)�
�where� t� ON(MIN)� is� the� minimum� switch� on-time.� Note� that�
�a� higher� switching� frequency� will� decrease� the� maximum�
�operating� input� voltage.� Conversely,� a� lower� switching�
�frequency� will� be� necessary� to� achieve� normal� operation�
�at� higher� input� voltages.�
�The� circuit� will� tolerate� inputs� above� the� maximum� op-�
�erating� input� voltage� and� up� to� the� Absolute� Maximum�
�3971fd�
�12�
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