- 您现在的位置:买卖IC网 > PDF目录22107 > TOP269EG (Power Integrations)IC OFFLINE SW PWM OCP OVP 7ESIP PDF资料下载
参数资料
| 型号: | TOP269EG |
| 厂商: | Power Integrations |
| 文件页数: | 20/40页 |
| 文件大小: | 0K |
| 描述: | IC OFFLINE SW PWM OCP OVP 7ESIP |
| 特色产品: | TopSwitch?-JX Integrated Switcher Ics |
| 标准包装: | 48 |
| 输出隔离: | 隔离 |
| 频率范围: | 66 ~ 132kHz |
| 输出电压: | 725V |
| 功率(瓦特): | 120W |
| 工作温度: | -40°C ~ 150°C |
| 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-7C |
| 包装: | 管件 |
| 其它名称: | 596-1278-5 |
第1页第2页第3页第4页第5页第6页第7页第8页第9页第10页第11页第12页第13页第14页第15页第16页第17页第18页第19页当前第20页第21页第22页第23页第24页第25页第26页第27页第28页第29页第30页第31页第32页第33页第34页第35页第36页第37页第38页第39页第40页
��
�
�TOP264-271�
�mode.� As� can� be� seen� in� Figures� 27� and� 28,� the� benefits� of� jitter�
�increase� with� the� order� of� the� switching� harmonic� due� to� an�
�increase� in� frequency� deviation.� The� FREQUENCY� pin� offers� a�
�switching� frequency� option� of� 132� kHz� or� 66� kHz.� In� applications�
�that� require� heavy� snubber� on� the� drain� node� for� reducing� high�
�frequency� radiated� noise� (for� example,� video� noise� sensitive�
�applications� such� as� VCRs,� DVDs,� monitors,� TVs,� etc.),� operating�
�at� 66� kHz� will� reduce� snubber� loss,� resulting� in� better� efficiency.�
�Also,� in� applications� where� transformer� size� is� not� a� concern,� use�
�of� the� 66� kHz� option� will� provide� lower� EMI� and� higher� efficiency.�
�Note� that� the� second� harmonic� of� 66� kHz� is� still� below� 150� kHz,�
�above� which� the� conducted� EMI� specifications� get� much� tighter.�
�For� 10� W� or� below,� it� is� possible� to� use� a� simple� inductor� in� place�
�of� a� more� costly� AC� input� common� mode� choke� to� meet�
�worldwide� conducted� EMI� limits.�
�Transformer� Design�
�It� is� recommended� that� the� transformer� be� designed� for�
�maximum� operating� flux� density� of� 3000� Gauss� and� a� peak� flux�
�density� of� 4200� Gauss� at� maximum� current� limit.� The� turns� ratio�
�should� be� chosen� for� a� reflected� voltage� (V� OR� )� no� greater� than�
�135� V� when� using� a� Zener� clamp� or� 150� V� (max)� when� using� an�
�RCD� clamp� with� current� limit� reduction� with� line� voltage� (overload�
�protection).� For� designs� where� operating� current� is� significantly�
�lower� than� the� default� current� limit,� it� is� recommended� to� use� an�
�externally� set� current� limit� close� to� the� operating� peak� current� to�
�reduce� peak� flux� density� and� peak� power� (see� Figure� 18).�
�Standby� Consumption�
�Frequency� reduction� can� significantly� reduce� power� loss� at� light�
�or� no-load,� especially� when� a� Zener� clamp� is� used.� For� very�
�low� secondary� power� consumption,� use� a� TL431� regulator� for�
�closely� between� their� respective� pin� and� SOURCE.� Once� again,�
�the� SOURCE� connection� trace� of� these� components� should� not�
�be� shared� by� the� main� MOSFET� switching� currents.� It� is� very�
�critical� that� SOURCE� pin� switching� currents� are� returned� to� the�
�input� capacitor� negative� terminal� through� a� separate� trace� that� is�
�not� shared� by� the� components� connected� to� CONTROL,�
�VOLTAGE� MONITOR� or� EXTERNAL� CURRENT� LIMIT� pins.� This�
�is� because� the� SOURCE� pin� is� also� the� controller� ground�
�reference� pin.� Any� traces� to� the� V,� X� or� C� pins� should� be� kept�
�as� short� as� possible� and� away� from� the� DRAIN� trace� to� prevent�
�noise� coupling.� VOLTAGE� MONITOR� resistors� (R� LS� in� Figures�
�14,� 15,� 19,� 22,� 23,� 26,� 30)� and� primary� side� OVP� circuit�
�components� V� ZOV� /R� OV� in� Figures� (29,� 30)� should� be� located�
�close� to� the� V� pin� to� minimize� the� trace� length� on� the� V� pin� side.�
�Resistors� connected� to� the� V� or� X� pin� should� be� connected� as�
�close� to� the� bulk� cap� positive� terminal� as� possible� while� routing�
�these� connections� away� from� the� power� switching� circuitry.� In�
�addition� to� the� 47� m� F� CONTROL� pin� capacitor,� a� high� frequency�
�bypass� capacitor� (C� BP� )� in� parallel� should� be� used� for� better� noise�
�immunity.� The� feedback� optocoupler� output� should� also� be�
�80�
�70�
�60�
�50�
�40�
�30�
�20�
�-10�
�feedback� control.� A� typical� TOP264-271� circuit� automatically�
�enters� MCM� mode� at� no-load� and� the� low� frequency� mode� at�
�light� load,� which� results� in� extremely� low� losses� under� no-load�
�0�
�-10�
�EN55022B� (QP)�
�EN55022B� (AV)�
�or� standby� conditions.�
�-20�
�0.15�
�1�
�10�
�30�
�High� Power� Designs�
�The� TOP264-271� family� contains� parts� that� can� deliver� up� to�
�162� W.� High� power� designs� need� special� considerations.�
�Frequency� (MHz)�
�Figure� 27.� Fixed� Frequency� Operation� Without� Jitter.�
�Guidance� for� high� power� designs� can� be� found� in� the� Design�
�Guide� for� TOP264-271� (AN-47).�
�TOP264-271� Layout� Considerations�
�The� TOP264-271� has� multiple� pins� and� may� operate� at� high�
�power� levels.� The� following� guidelines� should� be� carefully�
�followed.�
�Primary� Side� Connections�
�Use� a� single� point� (Kelvin)� connection� at� the� negative� terminal� of�
�the� input� filter� capacitor� for� the� SOURCE� pin� and� bias� winding�
�80�
�70�
�60�
�50�
�40�
�30�
�20�
�-10�
�TOPSwitch-JX (with jitter)�
�return.� This� improves� surge� capabilities� by� returning� surge�
�currents� from� the� bias� winding� directly� to� the� input� filter� capacitor.�
�The� CONTROL� pin� bypass� capacitor� should� be� located� as�
�close� as� possible� to� the� SOURCE� and� CONTROL� pins,� and� its�
�SOURCE� connection� trace� should� not� be� shared� by� the� main�
�0�
�-10�
�-20�
�0.15�
�1�
�EN55022B� (QP)�
�EN55022B� (AV)�
�10�
�30�
�MOSFET� switching� currents.� All� SOURCE� pin� referenced�
�components� connected� to� the� VOLTAGE� MONITOR� (V� pin)� or�
�EXTERNAL� CURRENT� LIMIT� (X� pin)� pins� should� also� be� located�
�20�
�Rev.� E� 08/12�
�Frequency� (MHz)�
�Figure� 28.� TOPSwitch-JX� Full� Range� EMI� Scan� (132� kHz� With� Jitter)� With�
�Identical� Circuitry� and� Conditions.�
�www.powerint.com�
�相关PDF资料 |
PDF描述 |
|---|---|
| RMA32DTMI | CONN EDGECARD 64POS R/A .125 SLD |
| 8-530666-2 | CONN LOW PRO 28POS .156 SOLDER |
| RSA32DTBI | CONN EDGECARD 64POS R/A .125 SLD |
| VI-232-EV-F1 | CONVERTER MOD DC/DC 15V 150W |
| R-78HB24-0.3 | CONV DC/DC 0.3A 24V OUT SIP VERT |
相关代理商/技术参数 |
参数描述 |
|---|---|
| TOP269EG/VG | 制造商:POWERINT 制造商全称:Power Integrations, Inc. 功能描述:Integrated Off-Line Switcher with EcoSmart Technology for Highly Efficient Power Supplies |
| TOP269EG-TL | 制造商:POWERINT 制造商全称:Power Integrations, Inc. 功能描述:Integrated Off-Line Switcher with EcoSmart Technology for Highly Efficient Power Supplies |
| TOP269KG | 功能描述:交流/直流开关转换器 Int Off-Line Switchr EcoSmart,55W/81W 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 |
| TOP269KG-TL | 功能描述:交流/直流开关转换器 Int Off-Line Switchr EcoSmart,55W/81W 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 |
| TOP269VG | 功能描述:交流/直流开关转换器 Int Off-Line Switchr 120W/162W 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 |
发布紧急采购,3分钟左右您将得到回复。