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参数资料
| 型号: | NCP1001P |
| 厂商: | ON Semiconductor |
| 文件页数: | 8/14页 |
| 文件大小: | 0K |
| 描述: | IC OFFLINE SWIT PWM UVLO HV 8DIP |
| 标准包装: | 1,000 |
| 输出隔离: | 隔离 |
| 频率范围: | 90kHz ~ 115kHz |
| 输入电压: | 7.5 V ~ 10 V |
| 输出电压: | 700V |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 8-DIP(0.300",7.62mm) |
| 供应商设备封装: | 8-PDIP |
| 包装: | 管件 |
| 其它名称: | NCP1001POS |
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�
�NCP1000,� NCP1001,� NCP1002�
�OPERATING� DESCRIPTION�
�Introduction�
�The� NCP1000� thru� NCP1002� represent� a� new� higher� level�
�of� integration� by� providing� on� a� single� monolithic� chip� all� of�
�the� active� power,� control,� logic,� and� protection� circuitry�
�required� to� implement� a� high� voltage� flyback� or� forward�
�converter.� This� device� series� is� designed� for� direct� operation�
�from� a� rectified� 240� Vac� line� source� and� requires� minimal�
�external� components� for� a� complete� cost� sensitive� converter�
�solution.� Potential� markets� include� office� automation,�
�industrial,� residential,� personal� computer,� and� consumer.� A�
�description� of� each� of� the� functional� blocks� is� given� below,�
�and� the� representative� block� diagram� is� shown� in� Figure� 17.�
�Oscillator�
�The� Oscillator� block� consists� of� two� comparators� that�
�alternately� gate� on� and� off� a� trimmed� current� source� and�
�current� sink� which� are� used� to� respectively� charge� and�
�discharge� an� on--chip� timing� capacitor� between� two� voltage�
�levels.� This� configuration� generates� a� precise� linear�
�sawtooth� ramp� signal� that� is� used� to� pulse� width� modulate�
�the� MOSFET� of� the� Power� Switch� circuit.� During� the� charge�
�of� the� timing� capacitor,� the� Oscillator� duty� cycle� output�
�holds� one� input� of� the� Driver� low.� This� action� keeps� the�
�MOSFET� of� the� Power� Switch� Circuit� off,� thus� limiting� the�
�maximum� duty� cycle.� The� Oscillator� frequency� is� internally�
�programmed� for� 100� kHz� operation� with� a� controlled� charge�
�to� discharge� current� ratio� that� yields� a� maximum� Power�
�Switch� Circuit� duty� cycle� of� 72%.� The� Oscillator�
�temperature� characteristics� are� shown� in� Figure� 7.�
�PWM� Comparator� and� Latch�
�The� pulse� width� modulator� (PWM)� consists� of� a�
�comparator� with� the� Oscillator� ramp� output� applied� to� the�
�inverting� input.� The� Oscillator� clock� output� applies� a� set�
�pulse� to� the� PWM� Latch� when� the� timing� capacitor� reaches�
�its� peak� voltage,� initiating� Power� Switch� Circuit� conduction.�
�As� the� timing� capacitor� discharges,� the� ramp� voltage�
�decreases� to� a� level� that� is� less� than� the� Error� Amplifier�
�output,� causing� the� PWM� Comparator� to� reset� the� latch� and�
�terminate� Power� Switch� Circuit� conduction� for� the� duration�
�of� the� ramp--down� period.� This� method� of� having� the�
�Oscillator� set� and� the� PWM� Comparator� reset� the� Latch�
�prevents� the� possibility� of� multiple� output� pulses� during� a�
�given� Oscillator� clock� cycle.� This� circuit� configuration� is�
�commonly� referred� to� as� double� pulse� suppression� logic.� A�
�timing� diagram� is� shown� in� Figure� 18� that� illustrates� the�
�behavior� of� the� pulse� width� modulator.�
�No load operation.� The� pulse� width� modulator� is� designed�
�to� operate� between� 73%� and� 0%� duty� cycle.� The� ability� to�
�operate� down� to� zero� duty� cycle� allows� for� no� load� operation�
�without� the� burden� of� preloads.� This� feature� is� consistent�
�with� the� Blue� Angle� requirements,� as� it� minimizes� power�
�consumption� while� in� the� standby� operation� mode.� For�
�operation� at� no� load,� the� output� may� skip� cycles.� This� is� a�
�common� occurrence� for� this� type� of� control� circuit.� The�
�converter� will� switch� for� several� cycles,� and� due� to� delays� in�
�the� output� filter� and� feedback� loop,� the� duty� cycle� will� not�
�be� reduced� until� the� output� has� exceeded� it’s� regulation� limit.�
�The� unit� will� then� shut� down� for� several� cycles� until� the�
�voltage� is� below� the� regulation� limit,� and� then� it� will� switch�
�again.� During� the� time� that� switching� cycles� are� not� present�
�the� output� voltage� will� decay� according� to� it’s� RC� time�
�constant,� which� is� based� on� the� output� capacitance� and�
�internal� loading� from� the� regulation� circuitry.� During� this�
�interval,� the� voltage� on� the� V� CC� supply� will� also� decay.� If� it�
�decays� below� the� lower� hysteretic� turn� off� threshold,� the� unit�
�will� shut� down� and� recycle.� This� mode� of� operation� is� not�
�normally� desirable.� In� order� to� avoid� it,� the� time� constant�
�for� the� V� CC� cap� and� load� should� be� equal� to,� or� greater�
�than� the� time� constant� of� the� output.� If� no� load� operation�
�is� not� required,� a� relatively� small� value� (� <� 10� m� F)� for� the�
�V� CC� capacitor� is� acceptable.�
�Feedback� Input�
�The� feedback� input,� pin� 2,� accepts� the� DC� error� signal� that�
�feeds� the� non--inverting� input� to� the� PWM.� Pin� 2� has� a�
�nominal� 2.7� k� Ω� internal� resistor� to� ground,� which� converts�
�the� optocoupler� current� into� a� voltage.� Its’� signal� is� filtered�
�by� a� 7.0� kHz� low� pass� filter� which� reduces� high� frequency�
�noise� to� the� input� of� the� PWM� comparator.�
�Typically,� the� photo� transistor� of� the� optocoupler� is�
�connected� between� V� CC� (pin� 1)� and� the� Feedback� input�
�(pin� 2).� The� photo� transistor� is� effectively� a� current� source�
�which� is� driven� by� the� LED,� which� is� connected� to� the� output�
�regulation� circuit� of� the� power� supply.� An� external� capacitor�
�may� be� connected� from� pin� 2� to� ground� for� additional� noise�
�filtering� if� necessary.�
�When� the� feedback� input� is� below� the� lower� threshold� of�
�the� ramp� signal,� the� output� of� the� power� converter� will� be�
�operating� at� full� duty� cycle.� The� input� current� vs.� duty� cycle�
�transfer� function� is� shown� in� Figure� 2.� As� the� voltage�
�increases,� the� duty� cycle� will� vary� linearly� with� the� change�
�in� voltage� at� the� feedback� input,� between� the� upper� and�
�lower� extremes� of� the� ramp� waveform� 2.7� V� to� 4.1� V.� Above�
�the� upper� extreme� point� of� the� ramp,� the� duty� cycle� will� be�
�zero� and� no� power� will� be� transmitted� to� the� output.�
�The� circuit� should� be� designed� such� that� when� the� output�
�is� low,� the� optocoupler� will� be� off,� leaving� the� voltage� at�
�pin� 2� at� ground� (full� duty� cycle).� As� the� output� voltage�
�increases,� the� optocoupler� will� begin� to� conduct,� such� that�
�the� voltage� at� pin� 2� increases� until� the� proper� duty� cycle� is�
�reached� to� maintain� regulation.�
�Pin� 2� is� protected� from� ESD� transients� by� a� 10� V� Zener�
�diode� to� ground.�
�http://onsemi.com�
�8�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| NCP1001PG | 功能描述:交流/直流开关转换器 700V 500mA Switching w/OVP and Zero Duty RoHS:否 制造商:STMicroelectronics 输出电压:800 V 输入/电源电压(最大值):23.5 V 输入/电源电压(最小值):11.5 V 开关频率:115 kHz 电源电流:1.6 mA 工作温度范围:- 40 C to + 150 C 安装风格:SMD/SMT 封装 / 箱体:SSO-10 封装:Reel |
| NCP1001T | 制造商:ON Semiconductor 功能描述: |
| NCP1002 | 制造商:ONSEMI 制造商全称:ON Semiconductor 功能描述:Power Factor Controllers |
| NCP1002P | 功能描述:交流/直流开关转换器 700V 500mA Switching RoHS:否 制造商:STMicroelectronics 输出电压:800 V 输入/电源电压(最大值):23.5 V 输入/电源电压(最小值):11.5 V 开关频率:115 kHz 电源电流:1.6 mA 工作温度范围:- 40 C to + 150 C 安装风格:SMD/SMT 封装 / 箱体:SSO-10 封装:Reel |
| NCP1002PG | 功能描述:交流/直流开关转换器 700V 500mA Switching w/OVP and Zero Duty RoHS:否 制造商:STMicroelectronics 输出电压:800 V 输入/电源电压(最大值):23.5 V 输入/电源电压(最小值):11.5 V 开关频率:115 kHz 电源电流:1.6 mA 工作温度范围:- 40 C to + 150 C 安装风格:SMD/SMT 封装 / 箱体:SSO-10 封装:Reel |
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