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参数资料
| 型号: | LT3844EFE#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 8/24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) |
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�
�LT3844�
�OPERATION�
�(Refer� to� Functional� Diagram)�
�The� LT3844� is� a� PWM� controller� with� a� constant� frequency,�
�current� mode� control� architecture.� It� is� designed� for� low�
�to� medium� power,� switching� regulator� applications.� Its�
�high� operating� voltage� capability� allows� it� to� step� up�
�or� down� input� voltages� up� to� 60V� without� the� need� for�
�a� transformer.� The� LT3844� is� used� in� nonsynchronous�
�applications,� meaning� that� a� freewheeling� recti?er� diode�
�(D1� of� Function� Diagram)� is� used� instead� of� a� bottom�
�side� MOSFET.� For� circuit� operation,� please� refer� to� the�
�Functional� Diagram� of� the� IC� and� Typical� Application� on�
�the� front� page� of� the� data� sheet.� The� LT3800� is� a� similar�
�part� that� uses� synchronous� recti?cation,� replacing� the�
�diode� with� a� MOSFET� in� a� step-down� application.�
�Main� Control� Loop�
�During� normal� operation,� the� external� N-channel� MOSFET�
�switch� is� turned� on� at� the� beginning� of� each� cycle.� The�
�switch� stays� on� until� the� current� in� the� inductor� exceeds�
�a� current� threshold� set� by� the� DC� control� voltage,� V� C� ,�
�which� is� the� output� of� the� voltage� control� loop.� The� voltage�
�control� loop� monitors� the� output� voltage,� via� the� V� FB� pin�
�voltage,� and� compares� it� to� an� internal� 1.231V� reference.�
�It� increases� the� current� threshold� when� the� V� FB� voltage�
�is� below� the� reference� voltage� and� decreases� the� current�
�threshold� when� the� V� FB� voltage� is� above� the� reference�
�voltage.� For� instance,� when� an� increase� in� the� load� current�
�occurs,� the� output� voltage� drops� causing� the� V� FB� voltage� to�
�drop� relative� to� the� 1.231V� reference.� The� voltage� control�
�loop� senses� the� drop� and� increases� the� current� threshold.�
�The� peak� inductor� current� is� increased� until� the� average�
�inductor� current� equals� the� new� load� current� and� the� output�
�voltage� returns� to� regulation.�
�V� CC� /Boosted� Supply�
�An� internal� V� CC� regulator� provides� V� IN� derived� gate-drive�
�power� for� start-up� under� all� operating� conditions� with�
�MOSFET� gate� charge� loads� up� to� 90nC.� The� regulator� can�
�operate� continuously� in� applications� with� V� IN� voltages� up� to�
�60V,� provided� the� power� dissipation� of� the� regulator� does�
�not� exceed� 250mW.� The� power� dissipation� is� calculated�
�as� follows:�
�P� d(REG)� =� (V� IN� –� 8V)� ?� f� SW� ?� Q� G�
�where� Q� G� is� the� MOSFET� gate� charge.�
�In� applications� where� these� conditions� are� exceeded,� V� CC�
�must� be� derived� from� an� external� source� after� start-up.�
�Maximum� continuous� regulator� power� dissipation� may� be�
�exceeded� for� short� duration� V� IN� transients.�
�For� higher� converter� ef?ciency� and� less� power� dissipa-�
�tion� in� the� IC,� V� CC� can� also� be� supplied� from� an� external�
�supply� such� as� the� converter� output.� When� an� external�
�supply� back� drives� the� internal� V� CC� regulator� through� an�
�external� diode� and� the� V� CC� voltage� is� pulled� to� a� diode�
�above� its� regulation� voltage,� the� internal� regulator� is� dis-�
�abled� and� goes� into� a� low� current� mode.� V� CC� is� the� bias�
�supply� for� most� of� the� internal� IC� functions� and� is� also�
�used� to� charge� the� bootstrapped� capacitor� (C� BOOST� )� via� an�
�external� diode.� The� external� MOSFET� switch� is� biased� from�
�the� bootstrapped� capacitor.� While� the� external� MOSFET�
�switch� is� off,� an� internal� BJT� switch,� whose� collector� is�
�connected� to� the� SW� pin� and� emitter� is� connected� to� the�
�PGND� pin,� is� turned� on� to� pull� the� SW� node� to� PGND� and�
�recharge� the� bootstrap� capacitor.� The� switch� stays� on� until�
�either� the� start� of� the� next� cycle� or� until� the� bootstrapped�
�capacitor� is� fully� charged.�
�Current� Limit/Short-Circuit�
�The� inductor� current� is� measured� with� a� series� sense�
�resistor� (see� the� Typical� Application� on� the� front� page).�
�When� the� voltage� across� the� sense� resistor� reaches� the�
�maximum� current� sense� threshold,� typically� 100mV,� the�
�TG� MOSFET� driver� is� disabled� for� the� remainder� of� that�
�cycle.� If� the� maximum� current� sense� threshold� is� still� ex-�
�ceeded� at� the� beginning� of� the� next� cycle,� the� entire� cycle�
�is� skipped.� Cycle� skipping� keeps� the� inductor� currents� to� a�
�reasonable� value� during� a� short-circuit,� particularly� when�
�MOSFET� Driver�
�The� LT3844� contains� a� high� speed� boosted� driver� to� turn�
�on� and� off� an� external� N-channel� MOSFET� switch.� The�
�MOSFET� driver� derives� its� power� from� the� boost� capaci-�
�tor� which� is� referenced� to� the� SW� pin� and� the� source� of�
�the� MOSFET.� The� driver� provides� a� large� pulse� of� current�
�to� turn� on� the� MOSFET� fast� to� minimize� transition� times.�
�Multiple� MOSFETs� can� be� paralleled� for� higher� current�
�operation.�
�V� IN� is� high.� Setting� the� sense� resistor� value� is� discussed�
�in� the� “Application� Information”� section.�
�3844fb�
�8�
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