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参数资料
| 型号: | TOP261LG |
| 厂商: | Power Integrations |
| 文件页数: | 24/50页 |
| 文件大小: | 0K |
| 描述: | IC OFFLINE SWIT PROG OVP 7FESIP |
| 标准包装: | 48 |
| 系列: | TOPSwitch®-HX |
| 输出隔离: | 隔离 |
| 频率范围: | 119kHz ~ 145kHz |
| 输出电压: | 700V |
| 功率(瓦特): | 244W |
| 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-7F |
| 包装: | 管件 |
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�TOP252-262�
�A� High� Efficiency,� 65� W,� Universal� Input� Power� Supply�
�The� circuit� shown� in� Figure� 44� delivers� 65� W� (19� V� @� 3.42� A)� at�
�88%� efficiency� using� a� TOP260EN� operating� over� an� input�
�voltage� range� of� 90� VAC� to� 265� VAC.�
�Capacitors� C1� and� C6� and� inductors� L1� and� L2� provide�
�common� mode� and� differential� mode� EMI� filtering.� Capacitor� C2�
�is� the� bulk� filter� capacitor� that� ensures� low� ripple� DC� input� to� the�
�flyback� converter� stage.� Capacitor� C4� provides� decoupling� for�
�switching� currents� reducing� differential� mode� EMI.�
�In� this� example,� the� TOP260EN� is� used� at� reduced� current� limit�
�to� improve� efficiency.�
�Resistors� R5,� R6� and� R7� provide� power� limiting,� maintaining�
�relatively� constant� overload� power� with� input� voltage.� Line�
�sensing� is� implemented� by� connecting� a� 4� M� W� impedance� from�
�the� V� pin� to� the� DC� rail.� Resistors� R3� and� R4� together� form� the�
�4� M� W� line� sense� resistor.� If� the� DC� input� rail� rises� above�
�450� VDC,� then� TOPSwitch-HX� will� stop� switching� until� the�
�voltage� returns� to� normal,� preventing� device� damage.�
�This� circuit� features� a� high� efficiency� clamp� network� consisting�
�of� diode� D1,� zener� VR1,� capacitor� C5� together� with� resistors� R8�
�and� R9.� The� snubber� clamp� is� used� to� dissipate� the� energy� of�
�the� leakage� reactance� of� the� transformer.� At� light� load� levels,�
�very� little� power� is� dissipated� by� VR1� improving� efficiency� as�
�compared� to� a� conventional� RCD� clamp� network.�
�The� secondary� output� from� the� transformer� is� rectified� by� diode�
�D2� and� filtered� by� capacitors� C13� and� C14.� Ferrite� Bead� L3� and�
�capacitors� C15� form� a� second� stage� filter� and� effectively� reduce�
�the� switching� noise� to� the� output.�
�Output� voltage� is� controlled� using� a� LM431� reference� IC.�
�Resistor� R19� and� R20� form� a� potential� divider� to� sense� the�
�output� voltage.� Resistor� R16� limits� the� optocoupler� LED� current�
�and� sets� the� overall� control� loop� DC� gain.� Control� loop�
�compensation� is� achieved� using� C18� and� R21.� The� components�
�connected� to� the� control� pin� on� the� primary� side� C8,� C9� and�
�R15� set� the� low� frequency� pole� and� zero� to� further� shape� the�
�control� loop� response.� Capacitor� C17� provides� a� soft� finish�
�during� startup.� Optocoupler� U2� is� used� for� isolation� of� the�
�feedback� signal.�
�Diode� D4� and� capacitor� C10� form� the� bias� winding� rectifier� and�
�filter.� Should� the� feedback� loop� break� due� to� a� defective�
�component,� a� rising� bias� winding� voltage� will� cause� the� Zener�
�VR2� to� break� down� and� trigger� the� over� voltage� protection�
�which� will� inhibit� switching.�
�An� optional� secondary� side� over� voltage� protection� feature�
�which� offers� higher� precision� (as� compared� to� sensing� via� the�
�bias� winding)� is� implemented� using� VR3,� R18� and� U3.� Excess�
�voltage� at� the� output� will� cause� current� to� flow� through� the�
�optocoupler� U3� LED� which� in� turn� will� inject� current� in� the� V-pin�
�through� resistor� R13,� thereby� triggering� the� over� voltage�
�protection� feature.�
�C6�
�2.2� nF�
�250� VAC�
�C12�
�1� nF� R16�
�100� V� 33� ?�
�VR1�
�180� V�
�3KBP08M�
�BR1�
�C5�
�2.2� nF� BZY97C180�
�1� kV�
�T1�
�4� RM10� FL1�
�5�
�FL2�
�D2�
�MBR20100CT�
�C13� C14�
�470� μ� F� 470� μ� F�
�25� V� 25� V�
�L3�
�Ferrite�
�Bead�
�C15�
�47� μ� F�
�25� V�
�19� V,� 3.42� A�
�R10�
�73.2� k� ?� 1N5248B�
�R3�
�2.0� M� ?�
�R5�
�5.1� M� ?�
�R8�
�100� ?�
�D1�
�DL4937�
�R9�
�1� k� ?�
�6�
�3�
�2�
�C10�
�22� μ� F�
�50� V�
�VR2�
�18� V�
�C11�
�100� n� F�
�50� V�
�VR3�
�BZX79-C22�
�22� V�
�RTN�
�2� M� ?�
�L1�
�12� mH�
�R1� R2�
�2.2� M� ?� 2.2� M� ?�
�C1�
�F1� 330� nF�
�4A� 275� VAC�
�L�
�E�
�N�
�90� -� 265�
�VAC�
�C3�
�470� pF�
�250� VAC�
�L2�
�Ferrite� Bead�
�C2�
�120� μ� F�
�400� V�
�R4�
�2.0� M� ?�
�R7�
�15� k� ?�
�1%�
�R6�
�6.8� M� ?�
�C4�
�100� nF�
�400� V�
�D�
�S�
�D5�
�BAV19WS�
�D3�
�BAV19WS�
�TOPSwitch-HX�
�U1�
�V� TOP260EN�
�CONTROL�
�C�
�X� F�
�C8�
�100� nF�
�50� V�
�D4� BAV19WS�
�R12�
�5.1� k� ?�
�C7�
�100� nF�
�25� V�
�R13�
�5.1� ?�
�R14�
�100� ?�
�R15�
�6.8� ?� C16�
�1� μ� F�
�C9� 50� V�
�47� μ� F�
�16� V�
�U3B�
�PC357A�
�U2B�
�LTY817C�
�R11�
�R16�
�680� ?�
�U2A�
�LTY817C�
�D6�
�1N4148�
�C17� U4�
�33� μ� F� LM431�
�35� V� 2%�
�C18�
�100� nF�
�R19�
�68.1� k� ?�
�R21�
�1� k� ?�
�R20�
�10� k� ?�
�R18�
�47� ?�
�U3A�
�PC357A�
�PI-4998-021408�
�Figure� 44.�
�24�
�Rev.� H� 06/13�
�65� W,� 19� V� Power� Supply� Using� TOP260EN.�
�www.powerint.com�
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