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参数资料
| 型号: | LT3799IMSE#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 9/20页 |
| 文件大小: | 0K |
| 描述: | IC LED DRIVER TRIAC DIM 16-MSOP |
| 产品培训模块: | LT3799 Offline Isolated Flyback LED Controller |
| 标准包装: | 37 |
| 拓扑: | 交直流离线开关,反激式,PFC |
| 输出数: | 1 |
| 内部驱动器: | 无 |
| 类型 - 主要: | 通用 |
| 频率: | 25kHz ~ 300kHz |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-TFSOP(0.118",3.00mm 宽)裸露焊盘 |
| 供应商设备封装: | 16-MSOP,裸露焊盘 |
| 包装: | 管件 |
| 工作温度: | -40°C ~ 125°C |
| 配用: | 732-2898-ND - IND TOROID LT3799 NCL30000 750UH |
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�
�LT3799�
�OPERATION�
�gate,� a� current� comparator,� a� low� output� current� oscillator�
�and� a� master� latch,� which� will� be� explained� in� the� follow-�
�ing� sections.� The� part� also� features� a� sample-and-hold�
�to� detect� open� LED� conditions,� along� with� a� FAULT� pin.� A�
�comparator� is� used� to� detect� discontinuous� conduction�
�mode� (DCM)� with� a� cap� connected� to� the� third� winding.�
�The� part� features� a� 1.9A� gate� driver.�
�The� LT3799� employs� a� micropower� hysteretic� start-up�
�feature� to� allow� the� part� to� work� at� any� combination� of�
�input� and� output� voltages.� In� the� Block� Diagram,� R3� is� used�
�to� stand� off� the� high� voltage� supply� voltage.� The� internal�
�LDO� starts� to� supply� current� to� the� INTV� CC� when� V� IN� is�
�above� 23V.� The� V� IN� and� INTV� CC� capacitors� are� charged� by�
�the� current� from� R3.� When� V� IN� exceeds� 23V� and� INTV� CC� is�
�in� regulation� at� 10V,� the� part� will� began� to� charge� the� CT�
�pin� with� 10μA.� Once� the� CT� pin� reaches� 340mV,� switching�
�begins.� The� V� IN� pin� has� 10.7V� of� hysteresis� to� allow� for�
�plenty� of� flexibility� with� the� input� and� output� capacitor�
�values.� The� third� winding� provides� power� to� V� IN� when� its�
�voltage� is� higher� than� the� V� IN� voltage.� A� voltage� shunt� is�
�provided� for� fault� protection� and� can� sink� up� to� 15mA� of�
�current� when� V� IN� is� over� 25V.�
�During� a� typical� cycle,� the� gate� driver� turns� the� external�
�MOSFET� on� and� a� current� flows� through� the� primary�
�winding.� This� current� increases� at� a� rate� proportional�
�to� the� input� voltage� and� inversely� proportional� to� the�
�magnetizing� inductance� of� the� transformer.� The� control�
�loop� determines� the� maximum� current� and� the� current�
�comparator� turns� the� switch� off� when� the� current� level�
�is� reached.� When� the� switch� turns� off,� the� energy� in� the�
�core� of� the� transformer� flows� out� the� secondary� winding�
�through� the� output� diode,� D1.� This� current� decreases� at� a�
�rate� proportional� to� the� output� voltage.� When� the� current�
�decreases� to� zero,� the� output� diode� turns� off� and� voltage�
�across� the� secondary� winding� starts� to� oscillate� from� the�
�parasitic� capacitance� and� the� magnetizing� inductance� of�
�the� transformer.� Since� all� windings� have� the� same� voltage�
�across� them,� the� third� winding� rings� too.� The� capacitor�
�connected� to� the� DCM� pin,� C1,� trips� the� comparator,� A2,�
�which� serves� as� a� dv/dt� detector,� when� the� ringing� occurs.�
�This� timing� information� is� used� to� calculate� the� output�
�current� (description� to� follow).� The� dv/dt� detector� waits�
�for� the� ringing� waveform� to� reach� its� minimum� value� and�
�then� the� switch� turns� back� on.� This� switching� behavior� is�
�similar� to� zero� volt� switching� and� minimizes� the� amount� of�
�energy� lost� when� the� switch� is� turned� back� on,� improving�
�efficiency� as� much� as� 5%.� Since� this� part� operates� on� the�
�edge� of� continuous� conduction� mode� and� discontinuous�
�conduction� mode,� this� operating� mode� is� called� critical�
�conduction� mode� (or� boundary� conduction� mode).�
�Primary-Side� Current� Control� Loop�
�The� CTRL1/CTRL2/CTRL3� pins� control� the� output� current�
�of� the� flyback� controller.� To� simplify� the� loop,� assume�
�the� V� IN_SENSE� pin� is� held� at� a� constant� voltage� above�
�1V,� eliminating� the� multiplier� from� the� control� loop.� The�
�error� amplifier,� A5,� is� configured� as� an� integrator� with�
�the� external� capacitor,� C6.� The� COMP� +� node� voltage� is�
�converted� to� a� current� into� the� multiplier� with� the� V/I�
�converter,� A6.� Since� A7’s� output� is� constant,� the� output�
�of� the� multiplier� is� proportional� to� A6� and� can� be� ignored.�
�The� output� of� the� multiplier� controls� the� peak� current� with�
�its� connection� to� the� current� comparator,� A1.� The� output�
�of� the� multiplier� is� also� connected� to� the� transmission�
�gate,� SW1.� The� transmission� gate,� SW1,� turns� on� when�
�the� secondary� current� flows� to� the� output� capacitor.� This�
�is� called� the� flyback� period� (when� the� output� diode� D1� is�
�on).� The� current� through� the� 1M� resistor� gets� integrated�
�by� A5.� The� lowest� CTRL� input� is� equal� to� the� negative� input�
�of� A5� in� steady� state.�
�A� current� output� regulator� normally� uses� a� sense� resistor�
�in� series� with� the� output� current� and� uses� a� feedback� loop�
�to� control� the� peak� current� of� the� switching� converter.� In�
�this� isolated� case� the� output� current� information� is� not�
�available,� so� instead� the� LT3799� calculates� it� using� the�
�information� available� on� the� primary� side� of� the� trans-�
�former.� The� output� current� may� be� calculated� by� taking� the�
�average� of� the� output� diode� current.� As� shown� in� Figure�
�1,� the� diode� current� is� a� triangle� waveform� with� a� base� of�
�the� flyback� time� and� a� height� of� the� peak� secondary� wind-�
�ing� current.� In� a� flyback� topology,� the� secondary� winding�
�current� is� N� times� the� primary� winding� current,� where�
�N� is� the� primary� to� secondary� winding� ratio.� Instead� of�
�taking� the� area� of� the� triangle,� think� of� it� as� a� pulse� width�
�modulation� (PWM)� waveform.� During� the� flyback� time,�
�the� average� current� is� half� the� peak� secondary� winding�
�3799fa�
�9�
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