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参数资料
| 型号: | MC44608P40G |
| 厂商: | ON Semiconductor |
| 文件页数: | 7/15页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR FLYBK ISO PWM 8-DIP |
| 产品变化通告: | Product Obsolescence 01/Jul/2009 |
| 标准包装: | 50 |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 44kHz |
| 占空比: | 86% |
| 电源电压: | 6.6 V ~ 13 V |
| 降压: | 无 |
| 升压: | 无 |
| 回扫: | 是 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 是 |
| 工作温度: | -25°C ~ 85°C |
| 封装/外壳: | 8-DIP(0.300",7.62mm) |
| 包装: | 管件 |
| 其它名称: | MC44608P40GOS |
��
�
�MC44608�
�OSC�
�4V�
�Vcont�
�2.4� V�
�Clock�
�V�
�CC�
�13� V�
�10� V�
�6.5� V�
�DMG�
�Iprim�
�Startup�
�Phase�
�Latched� off�
�Phase�
�Switching�
�Phase�
�Figure� 7.� Hiccup� Mode�
�Figure� 6.�
�The� OSC� and� Clock� signals� are� provided� according� to� the�
�Figure� 6.� The� Clock� signals� correspond� to� the� CT� capacitor�
�discharge.� The� bottom� curve� represents� the� current� flowing�
�in� the� sense� resistor� Rcs.� It� starts� from� zero� and� stops� when�
�the� sawtooth� value� is� equal� to� the� control� voltage� Vcont.� In�
�this� way� the� SMPS� is� regulated� with� a� voltage� mode� control.�
�Overvoltage� Protection�
�The� MC44608� offers� two� OVP� functions:�
�--� a� fixed� function� that� detects� when� V� CC� is� higher� than�
�15.4� V�
�--� a� programmable� function� that� uses� the� demag� pin.� The�
�current� flowing� into� the� demag� pin� is� mirrored� and�
�compared� to� the� reference� current� Iovp� (120� m� A).� Thus� this�
�OVP� is� quicker� as� it� is� not� impacted� by� the� V� CC� inertia� and�
�is� called� QOVP.�
�In� both� cases,� once� an� OVP� condition� is� detected,� the�
�output� is� latched� off� until� a� new� circuit� startup.�
�In� case� of� the� hiccup� mode,� the� duty� cycle� of� the� switching�
�phase� is� in� the� range� of� 10%.�
�Mode� Transition�
�The� LW� latch� Figure� 8� is� the� memory� of� the� working� status�
�at� the� end� of� every� switching� sequence.�
�Two� different� cases� must� be� considered� for� the� logic� at� the�
�termination� of� the� SWITCHING� PHASE:�
�1.� No� Over� Current� was� observed�
�2.� An� Over� Current� was� observed�
�These� 2� cases� are� corresponding� to� the� signal� labelled�
�NOC� in� case� of� “No� Over� Current”� and� “OC”� in� case� of� Over�
�Current.� So� the� effective� working� status� at� the� end� of� the� ON�
�time� memorized� in� LW� corresponds� to� Q=1� for� no� over�
�current� and� Q=0� for� over� current.�
�This� sequence� is� repeated� during� the� Switching� phase.�
�Several� events� can� occur:�
�1.� SMPS� switch� OFF�
�2.� SMPS� output� overload�
�3.� Transition� from� Normal� to� Pulsed� Mode�
�S�
�Q�
�Standby�
�&�
�OUT� &� S� Q�
�Mode�
�--�
�Startup� Management�
�The� V� i� pin� 8� is� directly� connected� to� the� HV� DC� rail� Vin.�
�This� high� voltage� current� source� is� internally� connected� to�
�the� V� CC� pin� and� thus� is� used� to� charge� the� V� CC� capacitor.� The�
�V� CC� capacitor� charge� period� corresponds� to� the� startup�
�phase.� When� the� V� CC� voltage� reaches� 13� V,� the� high� voltage�
�9.0� mA� current� source� is� disabled� and� the� device� starts�
�working.� The� device� enters� into� the� switching� phase.�
�It� is� to� be� noticed� that� the� maximum� rating� of� the� V� i� pin� 8�
�is� 500� V.� ESD� protection� circuitry� is� not� currently� added� to�
�this� pin� due� to� size� limitations� and� technology� constraints.�
�Protection� is� limited� by� the� drain--substrate� junction� in�
�4.� Transition� from� Pulsed� Mode� to� Normal� Mode�
�Latched� Off�
�Phase�
�VPWM� NOC�
�LW� &�
�OC�
�R� Q� &� R1�
�R2�
�LEB� out� +�
�CS�
�1V�
�Startup� I� demag� Switching� Startup�
�Phase� >� 24� m� A� Phase� Phase�
�S1�
�Switch�
�avalanche� breakdown.� To� help� increase� the� application�
�safety� against� high� voltage� spike� on� that� pin� it� is� possible� to�
�insert� a� small� wattage� 1.0� k� Ω� series� resistor� between� the� V� in�
�rail� and� pin� 8.�
�The� Figure� 7� shows� the� V� CC� voltage� evolution� in� case� of�
�no� external� current� source� providing� current� into� the� V� CC�
�pin� during� the� switching� phase.� This� case� can� be�
�encountered� in� SMPS� when� the� self� supply� through� an�
�auxiliary� winding� is� not� present� (strong� overload� on� the�
�SMPS� output� for� example).� The� Figure� 17� also� depicts� this�
�working� configuration.�
�Figure� 8.� Transition� Logic�
�?� 1.� SMPS� SWITCH� OFF�
�When� the� mains� is� switched� OFF,� so� long� as� the� bulk�
�electrolithic� bulk� capacitor� provides� energy� to� the� SMPS,�
�the� controller� remains� in� the� switching� phase.� Then� the� peak�
�current� reaches� its� maximum� peak� value,� the� switching�
�frequency� decreases� and� all� the� secondary� voltages� are�
�reduced.� The� V� CC� voltage� is� also� reduced.� When� V� CC� is�
�equal� to� 10� V,� the� SMPS� stops� working.�
�http://onsemi.com�
�7�
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