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参数资料
| 型号: | LT3430IFE-1#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 15/28页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 3A 16TSSOP |
| 标准包装: | 95 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 1.2 V ~ 54 V |
| 输入电压: | 5.5 V ~ 60 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 100kHz |
| 电流 - 输出: | 3A |
| 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: | 16-TSSOP(0.173",4.40mm)裸露焊盘 |
| 包装: | 管件 |
| 供应商设备封装: | 16-TSSOP-EP |
| 产品目录页面: | 1331 (CN2011-ZH PDF) |
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�LT3430/LT3430-1�
�APPLICATIONS� INFORMATION�
�I� OUT� (� V� IN� –� V� OUT� )�
�R� LO� (� V� IN� ?� 2� .� 38� V� )�
�2� .� 38� V� ?� R� LO� (� 5� .� 5� μ� A� )�
�poor RFI behavior and if the overshoot is severe enough,�
�damage� the� IC� itself.�
�The� suggested� catch� diode� (D1)� is� an� International� Recti-�
�?er� 30BQ060� Schottky.� It� is� rated� at� 3A� average� forward�
�current� and� 60V� reverse� voltage.� Typical� forward� voltage�
�is� 0.52V� at� 3A.� The� diode� conducts� current� only� during�
�switch� off� time.� Peak� reverse� voltage� is� equal� to� regulator�
�input� voltage.� Average� forward� current� in� normal� operation�
�can� be� calculated� from:�
�I� D� (� AVG� )� =�
�V� IN�
�This� formula� will� not� yield� values� higher� than� 3A� with�
�maximum� load� current� of� 3A.�
�BOOST� PIN�
�For� most� LT� 3430� applications,� the� boost� components� are�
�a� 0.68μF� capacitor� and� a� MMSD914TI� diode.� The� anode�
�is� typically� connected� to� the� regulated� output� voltage� to�
�generate� a� voltage� approximately� V� OUT� above� V� IN� to� drive�
�the� output� stage.� However,� the� output� stage� discharges�
�the� boost� capacitor� during� the� on� time� of� the� switch.� The�
�output� driver� requires� at� least� 3V� of� headroom� throughout�
�this� period� to� keep� the� switch� fully� saturated.� If� the� output�
�voltage� is� less� than� 3.3V,� it� is� recommended� that� an� alternate�
�boost� supply� is� used.� For� output� voltages� greater� than� 6V,�
�it� is� recommended� to� place� a� zener� diode� (D4;� page� 20)�
�in� series� with� the� Boost� diode� to� set� Boost-to-SW� voltage�
�between� 4V� to� 6V.� This� minimizes� power� loss� within� the�
�IC,� improving� maximum� ambient� temperature� operation.�
�In� addition,� D4� minimizes� Boost� current� overshoot� during�
�power� switch� turn� on� to� reduce� noise� within� the� regula-�
�tor� loop.� For� output� voltages� greater� than� the� standard�
�demoboard� 5V� output,� a� location� for� D4� is� provided.�
�A� 0.68μF� boost� capacitor� is� recommended� for� most� LT3430�
�applications.� Almost� any� type� of� ?lm� or� ceramic� capaci-�
�tor� is� suitable,� but� the� ESR� should� be� <1� Ω� to� ensure� it�
�can� be� fully� recharged� during� the� off� time� of� the� switch.�
�The� LT3430� capacitor� value� is� derived� from� conditions� of�
�4800ns� on� time,� 75mA� boost� current� and� 0.7V� discharge�
�less� demanding� conditions,� but� this� will� not� improve� cir-�
�cuit� operation� or� ef?ciency.� Under� low� input� voltage� and�
�low� load� conditions,� a� higher� value� capacitor� will� reduce�
�discharge� ripple� and� improve� start-up� operation.� For� the�
�LT3430-1� a� 1.5μF� boost� capacitor� is� recommended.�
�SHUTDOWN� FUNCTION� AND� UNDERVOLTAGE�
�LOCKOUT�
�Figure� 4� shows� how� to� add� undervoltage� lockout� (UVLO)�
�to� the� LT3430/LT3430-1.� Typically,� UVLO� is� used� in� situ-�
�ations� where� the� input� supply� is� current� limited� ,� or� has�
�a� relatively� high� source� resistance.� A� switching� regulator�
�draws� constant� power� from� the� source,� so� source� cur-�
�rent� increases� as� source� voltage� drops.� This� looks� like� a�
�negative� resistance� load� to� the� source� and� can� cause� the�
�source� to� current� limit� or� latch� low� under� low� source� voltage�
�conditions.� UVLO� prevents� the� regulator� from� operating� at�
�source� voltages� where� these� problems� might� occur.�
�Threshold� voltage� for� lockout� is� about� 2.38V.� A� 5.5μA�
�bias� current� ?ows� out� of� the� pin� at� this� threshold.� The�
�internally� generated� current� is� used� to� force� a� default� high�
�state� on� the� shutdown� pin� if� the� pin� is� left� open.� When�
�low� shutdown� current� is� not� an� issue,� the� error� due� to� this�
�current� can� be� minimized� by� making� R� LO� 10k� or� less.� If�
�shutdown� current� is� an� issue,� R� LO� can� be� raised� to� 100k,�
�but� the� error� due� to� initial� bias� current� and� changes� with�
�temperature� should� be� considered.�
�R� LO� =� 10� k� to� 100k� (� 25k� suggested� )�
�R� HI� =�
�V� IN� =� Minimum� input� voltage�
�Keep� the� connections� from� the� resistors� to� the� shutdown�
�pin� short� and� make� sure� that� interplane� or� surface� capaci-�
�tance� to� the� switching� nodes� are� minimized.� If� high� resistor�
�values� are� used,� the� shutdown� pin� should� be� bypassed� with�
�a� 1000pF� capacitor� to� prevent� coupling� problems� from� the�
�switch� node.� If� hysteresis� is� desired� in� the� undervoltage�
�lockout� point,� a� resistor� R� FB� can� be� added� to� the� output�
�node.� Resistor� values� can� be� calculated� from:�
�ripple.� The� boost� capacitor� value� could� be� reduced� under�
�34301fa�
�15�
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