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参数资料
| 型号: | TOP269EG |
| 厂商: | Power Integrations |
| 文件页数: | 18/40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 |
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�TOP264-271�
�Clamp� Configuration� –� RZCD� vs� RCD�
�? � An� RZCD� (Zener� bleed)� was� selected� over� RCD� to� give� higher�
�light� load� efficiency� and� lower� no-load� consumption�
�The� clamp� network� is� formed� by� VR1,� C4,� R5� and� D5.� It� limits�
�the� peak� drain� voltage� spike� caused� by� leakage� inductance� to�
�below� the� BV� DSS� rating� of� the� internal� TOPSwitch-JX� MOSFET.�
�This� arrangement� was� selected� over� a� standard� RCD� clamp� to�
�improve� light� load� efficiency� and� no-load� input� power.�
�In� a� standard� RCD� clamp� C4� would� be� discharged� by� a� parallel�
�resistor� rather� than� a� resistor� and� series� Zener.� In� an� RCD�
�clamp� the� resistor� value� of� R5� is� selected� to� limit� the� peak� drain�
�voltage� under� full� load� and� overload� conditions.� However� under�
�light� or� no-load� conditions� this� resistor� value� now� causes� the�
�capacitor� voltage� to� discharge� significantly� as� both� the� leakage�
�inductance� energy� and� switching� frequency� are� lower.� As� the�
�capacitor� has� to� be� recharged� to� above� the� reflected� output�
�voltage� each� switching� cycle� the� lower� capacitor� voltage�
�represents� wasted� energy.� It� has� the� effect� of� making� the�
�clamp� dissipation� appear� as� a� significant� load� just� as� if� it� were�
�connected� to� the� output� of� the� power� supply.�
�The� RZCD� arrangement� solves� this� problem� by� preventing� the�
�voltage� across� the� capacitor� discharging� below� a� minimum�
�value� (defined� by� the� voltage� rating� of� VR1)� and� therefore�
�minimizing� clamp� dissipation� under� light� and� no-load� conditions.�
�Zener� VR1� is� shown� as� a� high� peak� dissipation� capable� TVS�
�however� a� standard� lower� cost� Zener� may� also� be� used� due� to�
�the� low� peak� current� that� component� experiences.�
�In� many� designs� a� resistor� value� of� less� than� 50� W� may� be� used�
�in� series� with� C4� to� damp� out� high� frequency� ringing� and�
�improve� EMI� but� this� was� not� necessary� in� this� case.�
�Feedback� Configuration�
�? � A� high� CTR� optocoupler� was� used� to� reduce� secondary� bias�
�currents� and� no-load� input� power�
�? � Low� voltage,� low� current� voltage� reference� IC� used� on�
�secondary-side� to� reduce� secondary-side� feedback� current�
�and� no-load� input� power�
�? � Bias� winding� voltage� tuned� to� ~9� V� at� no-load,� high-line� to�
�reduce� no-load� input� power�
�Typically� the� feedback� current� into� the� CONTROL� pin� at�
�high-line� is� ~3� mA.� This� current� is� both� sourced� from� the� bias�
�winding� (voltage� across� C10)� and� directly� from� the� output.� Both�
�of� these� represent� a� load� on� the� output� of� the� power� supply.�
�To� minimize� the� dissipation� from� the� bias� winding� under� no-load�
�conditions� the� number� of� bias� winding� turns� and� value� of� C7�
�was� adjusted� to� give� a� minimum� voltage� across� C7� of� ~9� V.�
�This� is� the� minimum� required� to� keep� the� optocoupler� biased�
�and� the� output� in� regulation.�
�To� minimize� the� dissipation� of� the� secondary-side� feedback�
�circuit� a� high� CTR� (CTR� of� 300� –� 600%)� optocoupler� type� was�
�used.� This� reduces� the� secondary-side� opto-led� current� from�
�~3� mA� to� <~1� mA� and� therefore� the� effective� load� on� the� output.�
�A� standard� 2.5� V� TL431� voltage� reference� was� replaced� with� the�
�18�
�Rev.� E� 08/12�
�1.24� V� LMV431� to� reduce� the� supply� current� requirement� of� this�
�component� from� 1� mA� to� 100� m� A.�
�Output� Rectifier� Choice�
�? � Use� of� high� V� OR� allows� the� use� of� a� 60� V� Schottky� diode� for�
�high� efficiency� and� lower� cost�
�The� higher� BV� DSS� rating� of� the� TOPSwitch-JX� of� 725� V�
�(compared� to� 600� V� or� 650� V� rating� of� typical� power� MOSFETs)�
�allowed� a� higher� transformer� primary� to� secondary� turns� ratio�
�(reflected� output� voltage� or� V� OR� ).� This� reduced� the� output� diode�
�voltage� stress� and� allowed� the� use� of� cheaper� and� more� efficient�
�60� V� (vs� 80� V� or� 100� V)� Schottky� diodes.� The� efficiency�
�improvement� occurs� due� the� lower� forward� voltage� drop� of� the�
�lower� voltage� diodes.� Two� parallel� connected� axial� 5� A,� 60� V�
�Schottky� rectifier� diodes� were� selected� for� both� low� cost� and�
�high� efficiency.� This� allowed� PCB� heat� sinking� of� the� diode� for�
�low� cost� while� maintaining� efficiency� compared� to� a� single�
�higher� current� TO-220� packaged� diode� mounted� on� a� heat� sink.�
�For� this� configuration� the� recommendation� is� that� each� diode� is�
�rated� at� twice� the� output� current� and� that� the� diodes� share� a�
�common� cathode� PCB� area� for� heat� sinking� so� that� their�
�temperatures� track.� In� practice� the� diodes� current� share� quite�
�effectively� as� can� be� demonstrated� by� monitoring� their�
�individual� temperatures.�
�Output� Inductor� Post� Filter� Soft-Finish�
�? � Inductor� L2� used� to� provide� an� output� soft-finish� and� eliminate�
�a� capacitor�
�To� prevent� output� overshoot� during� start-up� the� voltage�
�appearing� across� L2� is� used� to� provide� a� soft-finish� function.�
�When� the� voltage� across� L2� exceeds� the� forward� drop� of� U2A�
�and� D10� current� flows� though� the� optocoupler� LED� and�
�provides� feedback� to� the� primary.� This� arrangement� acts� to�
�limit� the� rate� of� rise� of� the� output� voltage� until� it� reaches�
�regulation� and� eliminates� the� capacitor� that� is� typically� placed�
�across� U3� to� provide� the� same� function.�
�Key� Application� Considerations�
�TOPSwitch-JX� vs.� TOPSwitch-HX�
�Table� 3� compares� the� features� and� performance� differences�
�between� TOPSwitch-JX� and� TOPSwitch-HX.� Many� of� the� new�
�features� eliminate� the� need� for� additional� discrete� components.�
�Other� features� increase� the� robustness� of� design,� allowing� cost�
�savings� in� the� transformer� and� other� power� components.�
�TOP264-271� Design� Considerations�
�Power� Table�
�The� data� sheet� power� table� (Table� 1)� represents� the� maximum�
�practical� continuous� output� power� based� on� the� following�
�conditions:�
�1.� 12� V� output.�
�2.� Schottky� or� high� efficiency� output� diode.�
�3.� 135� V� reflected� voltage� (V� OR� )� and� efficiency� estimates.�
�4.� A� 100� VDC� minimum� DC� bus� for� 85-265� VAC� and� 250� VDC�
�minimum� for� 230� VAC.�
�5.� Sufficient� heat� sinking� to� keep� device� temperature� ≤110� °� C.�
�www.powerint.com�
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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 |
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