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| 型号: | PFS726EG |
| 厂商: | Power Integrations |
| 文件页数: | 12/30页 |
| 文件大小: | 0K |
| 描述: | IC PFC CTLR 600W 180V ESIP |
| 标准包装: | 48 |
| 系列: | HiperPFS™ |
| 模式: | 连续导电(CCM) |
| 频率 - 开关: | 24kHz ~ 95kHz |
| 电源电压: | 10 V ~ 12 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 7-SIP,6 引线,裸露焊盘,成形引线 |
| 供应商设备封装: | eSIP-7G |
| 包装: | 管件 |
| 其它名称: | 596-1416 |
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�PFS704-729EG�
�Design,� Assembly,� and� Layout� Considerations�
�Power� Table�
�The� data� sheet� power� table� as� shown� in� Table� 2� represents� the�
�maximum� practical� continuous� output� power� based� on� the�
�following� conditions:�
�For� the� universal� input� devices� (PFS704-716):�
�1.� An� input� voltage� range� of� 90� VAC� to� 264� VAC�
�2.� Overall� efficiency� of� at� least� 93%� at� the� lowest� operating�
�voltage�
�3.� Use� of� ultrafast� recovery� diode� or� high� performance� diode� for�
�PFC� output.�
�4.� Sufficient� heat� sinking� to� keep� device� temperature� ≤100� oC�
�5.� 380� V� to� 385� V� nominal� output�
�peak� of� the� applied� voltage.� The� charging� current� is� only� limited�
�by� any� inrush� limiting� thermistors,� impedance� of� the� EMI� filter�
�inductors� and� the� forward� resistance� of� the� input� rectifier�
�diodes.�
�A� MOV� will� typically� be� required� to� protect� the� PFC� from� line�
�surges.� Selection� of� the� MOV� rating� will� depend� on� the� energy�
�level� (EN1000-4-5� Class� level)� to� which� the� PFC� is� required� to�
�withstand.�
�Input� EMI� Filter�
�The� variable� switching� frequency� of� the� HiperPFS� effectively�
�modulates� the� switching� frequency� and� reduces� conducted� EMI�
�peaks� associated� with� the� harmonics� of� the� fundamental�
�switching� frequency.� This� is� particularly� beneficial� for� the�
�average� detection� mode� used� in� EMI� measurements.�
�For� the� 230� V� only� devices� (PFS723-729):�
�1.� An� input� voltage� range� of� 180� VAC� to� 264� VAC�
�2.� Overall� efficiency� of� at� least� 96%� at� the� lowest� operating�
�voltage�
�3.� Use� of� ultrafast� recovery� diode� or� high� performance� diode�
�for� PFC� output.�
�4.� Sufficient� heat� sinking� to� keep� device� temperature� ≤100� oC�
�5.� 380� V� to� 385� V� nominal� output�
�Operation� beyond� the� limits� stated� above� will� require� derating.�
�The� PFC� is� a� switching� converter� and� will� need� an� EMI� filter� at�
�the� input� in� order� to� meet� the� requirements� of� most� safety�
�agency� standards� for� conducted� and� radiated� EMI.� Typically� a�
�common� mode� filter� with� X� capacitors� connected� across� the�
�line� will� provide� the� required� attenuation� of� high� frequency�
�components� of� input� current� to� an� acceptable� level.� The�
�leakage� reactance� of� the� common� mode� filter� inductor� and� the�
�X� capacitors� form� a� low� pass� filter.� In� some� designs,� additional�
�differential� filter� inductors� may� have� to� be� used� to� supplement�
�the� differential� inductance� of� the� common� mode� choke.�
�Use� of� a� nominal� output� voltage� higher� than� 390� V� is� not�
�recommended� for� HiperPFS� based� designs.� Operation� at�
�voltages� higher� than� 390� V� can� result� in� higher� than� expected�
�drain-source� voltage� during� line� and� load� transients.�
�HiperPFS� Selection�
�Selection� of� the� optimum� HiperPFS� part� depends� on� required�
�maximum� output� power,� PFC� efficiency� and� overall� system�
�efficiency� (when� used� with� a� second� stage� DC-DC� converter),�
�heat� sinking� constraints,� system� requirements� and� cost� goals.�
�The� HiperPFS� part� used� in� a� design� can� be� easily� replaced� with�
�the� next� higher� or� lower� part� in� the� power� table� to� optimize�
�performance,� improve� efficiency� or� for� applications� where� there�
�are� thermal� design� constraints.� Minor� adjustments� to� the�
�inductance� value� and� EMI� filter� components� may� be� necessary�
�in� some� designs� when� the� next� higher� or� the� next� lower�
�HiperPFS� part� is� used� in� an� existing� design� for� performance�
�optimization.�
�Every� HiperPFS� family� part� has� an� optimal� load� level� where� it�
�offers� the� most� value.� Operating� frequency� of� a� part� will� change�
�depending� on� load� level.� Change� of� frequency� will� result� in�
�change� in� peak� to� peak� current� ripple� in� the� inductance� used.�
�Change� in� current� ripple� will� affect� input� PF� and� total� harmonic�
�distortion� of� input� current.�
�Input� Fuse� and� Protection� Circuit�
�The� input� fuse� should� be� rated� for� a� continuous� current� above�
�the� input� current� at� which� the� PFC� turns-off� due� to� input� under�
�voltage.� This� voltage� is� referred� to� as� the� brown-out� voltage.�
�The� fuse� should� also� have� sufficient� I� 2� t� rating� in� order� to� avoid�
�nuisance� failures� during� start-up.� At� start� a� large� current� is�
�drawn� from� the� input� as� the� output� capacitor� charges� to� the�
�12�
�Rev.� F� 12/12�
�A� filter� capacitor� with� low� ESR� and� high� ripple� current� capability�
�should� be� connected� at� the� output� of� the� input� bridge� rectifier.�
�This� capacitor� reduces� the� generation� of� the� switching� frequency�
�components� of� the� input� current� ripple� and� simplifies� EMI� filter�
�design.� Typically,� 0.33� m� F� per� 100� W� should� be� used� for�
�universal� input� designs� and� 0.15� m� F� per� 100� W� of� output� power�
�should� be� used� for� 230� VAC� only� designs.�
�It� is� often� possible� to� use� a� higher� value� of� capacitance� after� the�
�bridge� rectifier� and� reduce� the� X� capacitance� in� the� EMI� filter.�
�Regulatory� requirements� require� use� of� a� discharge� resistor� to�
�be� connected� across� the� input� (X)� capacitance� on� the� AC� side�
�of� the� bridge� rectifier.� This� is� to� ensure� that� residual� charge� is�
�dissipated� after� the� input� voltage� is� removed� when� the�
�capacitance� is� higher� than� 0.1� m� F.� Use� of� CAPZero� integrated�
�circuits� from� Power� Integrations,� helps� eliminate� the� steady�
�state� losses� associated� with� the� use� of� discharge� resistors�
�connected� permanently� across� the� X� capacitors.�
�Inductor� Design�
�It� is� recommended� that� the� inductor� be� designed� with� the�
�maximum� operating� flux� density� less� than� 0.3� T� and� a� peak� flux�
�density� less� than� 0.42� T� at� maximum� current� limit� when� a� ferrite�
�core� is� used.� If� a� core� made� from� Sendust� or� MPP� is� used,� the�
�flux� density� should� not� exceed� 1� T.� A� powder� core� inductor� will�
�have� a� significant� drop� in� inductance� when� the� flux� density�
�approaches� 1� T.�
�For� high-line� only� designs,� the� value� of� K� P� (the� ratio� of� peak� to�
�ripple� current)� of� the� drain� current� at� the� peak� of� the� input�
�voltage� waveform� should� be� kept� below� 0.5� for� ferrite� core� and�
�www.powerint.com�
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相关代理商/技术参数 |
参数描述 |
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| PFS727EG | 功能描述:功率因数校正 IC PFC w/ Pwr Mosfet 750 W MAX 180 VAC RoHS:否 制造商:Fairchild Semiconductor 开关频率:300 KHz 最大功率耗散: 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-8 封装:Reel |
| PFS728EG | 功能描述:功率因数校正 IC PFC w/ Pwr Mosfet 900 W MAX 180 VAC RoHS:否 制造商:Fairchild Semiconductor 开关频率:300 KHz 最大功率耗散: 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-8 封装:Reel |
| PFS729EG | 功能描述:功率因数校正 IC PFC w/ Pwr Mosfet 1000 W MAX 180 VAC RoHS:否 制造商:Fairchild Semiconductor 开关频率:300 KHz 最大功率耗散: 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-8 封装:Reel |
| PFS7323L | 功能描述:功率因数校正 IC HiPwr PFC Controller 120 W peak power RoHS:否 制造商:Fairchild Semiconductor 开关频率:300 KHz 最大功率耗散: 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-8 封装:Reel |
| PFS7324L | 功能描述:功率因数校正 IC HiPwr PFC Controller 150 W peak power RoHS:否 制造商:Fairchild Semiconductor 开关频率:300 KHz 最大功率耗散: 最大工作温度:+ 125 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-8 封装:Reel |
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