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| 型号: | LNK586DG-TL |
| 厂商: | Power Integrations |
| 文件页数: | 3/16页 |
| 文件大小: | 0K |
| 描述: | IC OFFLINE SW SO8C |
| 产品培训模块: | LinkZero-AX |
| 标准包装: | 2,500 |
| 系列: | LinkZero™-AX |
| 输出隔离: | 任意一种 |
| 频率范围: | 93kHz ~ 107kHz |
| 输入电压: | 85 ~ 265VAC |
| 输出电压: | 700V |
| 功率(瓦特): | 6W |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽)7 引线 |
| 供应商设备封装: | SO-8C |
| 包装: | 带卷 (TR) |
��
�
�LNK584-586�
�LinkZero-AX� Functional� Description�
�LinkZero-AX� comprises� a� 700� V� power� MOSFET� switch� with� a�
�power� supply� controller� on� the� same� die.� Unlike� conventional�
�PWM� (pulse� width� modulation)� controllers,� it� uses� a� simple�
�ON/OFF� control� to� regulate� the� output� voltage.� The� controller�
�consists� of� an� oscillator,� feedback� (sense� and� logic)� controller,�
�5.85� V� regulator,� BYPASS� pin� undervoltage� protection,� over-�
�temperature� protection,� frequency� jittering,� current� limit� protection,�
�and� leading� edge� blanking.� The� controller� includes� a� proprietary�
�Power-Down� mode� that� automatically� reduces� standby� consump-�
�tion� to� levels� that� are� immeasurable� on� most� power� meters.�
�Power-Down� Mode�
�The� internal� controller� will� go� into� Power-Down� mode� when� 160�
�switching� cycles� are� skipped.� This� can� occur� due� to� the�
�FEEDBACK� pin� being� pulled� high� using� an� external� Power-Down�
�pulse� signal� or� due� to� a� light� load� condition� where� the� total�
�loading� on� the� transformer� (output� plus� feedback� circuit� loads)�
�has� reduced� to� ~0.6%� of� full� load.� The� device� then� operates� in�
�an� ultra� low� consumption� Power-Down� mode� where� switching�
�is� disabled� completely.� The� controller� wakes� up� (or� is� reset)�
�when� the� BYPASS� pin� is� pulled� below� 1.5� V� and� then� released�
�to� be� recharged� through� the� internal� drain� connected� 5.85� V�
�regulator� block� (see� Figure� 2).� When� the� BYPASS� capacitor�
�recharges� to� the� V� BP� BYPASS� pin� threshold,� the� device� starts�
�switching� and� operates� normally.� If� the� FEEDBACK� pin� is� pulled�
�high� such� that� 160� cycles� are� again� skipped,� the� device� returns�
�to� Power-Down� mode� operation� as� described� above.� In�
�applications� with� dynamic� loads� it� may� not� be� desirable� to� go�
�into� Power-Down� mode� under� light� or� no-load� conditions.�
�Techniques� to� ensure� this� is� avoided� are� discussed� below� in� the�
�LinkZero-AX� Power-Down� Mode� Design� Considerations� section.�
�Oscillator�
�The� typical� oscillator� frequency� is� internally� set� to� an� average� of�
�100� kHz.� An� internal� circuit� senses� the� duty� cycle� of� the� MOSFET�
�switch� conduction-time� and� adjusts� the� oscillator� frequency� so�
�that� during� long� conduction� intervals� (low� line� voltage)� the�
�frequency� is� about� 100� kHz� and� at� short� conduction� intervals�
�(high� line� voltage)� the� oscillator� frequency� is� about� 78� kHz.� This�
�internal� frequency� adjustment� is� used� to� make� the� peak� power�
�point� constant� over� line� voltage.� Two� signals� are� generated� from�
�the� oscillator:� the� maximum� duty� cycle� signal� (DC� MAX� )� and� the�
�clock� signal� that� indicates� the� beginning� of� a� switching� cycle.�
�The� oscillator� incorporates� circuitry� that� introduces� a� small�
�amount� of� frequency� jitter,� typically� 6%� of� the� switching�
�frequency,� to� minimize� EMI.� The� modulation� rate� of� the�
�frequency� jitter� is� set� to� 1� kHz� to� optimize� EMI� reduction� for�
�both� average� and� quasi-peak� measurements.� The� frequency�
�jitter,� which� is� proportional� to� the� oscillator� frequency,� should� be�
�measured� with� the� oscilloscope� triggered� at� the� falling� edge� of�
�the� DRAIN� voltage� waveform.� The� oscillator� frequency� is�
�gradually� reduced� when� the� FEEDBACK� pin� voltage� is� lowered�
�below� 1.70� V.�
�Feedback� Input� Circuit� CV� Mode�
�The� feedback� input� circuit� reference� is� set� at� 1.70� V.� When� the�
�FEEDBACK� pin� voltage� reaches� a� V� FB� reference� voltage� (1.70� V),�
�a� low� logic� level� (disable)� is� generated� at� the� output� of� the�
�www.powerint.com�
�feedback� circuit.� This� output� is� sampled� at� the� beginning� of�
�each� cycle.� If� high,� the� power� MOSFET� is� turned� on� for� that�
�cycle� (enabled),� otherwise� the� power� MOSFET� remains� off�
�(disabled).� Since� the� sampling� is� done� only� at� the� beginning� of�
�each� cycle,� subsequent� changes� in� the� FEEDBACK� pin� voltage�
�during� the� remainder� of� the� cycle� are� ignored.�
�Output� Power� Limiting�
�When� the� FEEDBACK� pin� voltage� at� full� load� falls� below� 1.70� V,�
�the� oscillator� frequency� linearly� reduces� to� typically� 60%� at� the�
�auto-restart� threshold� voltage� of� 0.9� V.� This� function� limits� the�
�power� supply� output� current� and� power.�
�5.85� V� Regulator�
�The� BYPASS� pin� voltage� is� regulated� by� drawing� a� current� from�
�the� DRAIN� whenever� the� MOSFET� is� off� if� needed� to� charge� up�
�the� BYPASS� pin� to� a� typical� voltage� of� 5.85� V.� When� the�
�MOSFET� is� on,� LinkZero-AX� runs� off� of� the� energy� stored� in� the�
�bypass� capacitor.� Extremely� low� power� consumption� of� the�
�internal� circuitry� allows� LinkZero-AX� to� operate� continuously�
�from� the� current� drawn� from� the� DRAIN� pin.� A� bypass�
�capacitor� value� of� 0.1� m� F� is� sufficient� for� both� high� frequency�
�decoupling� and� energy� storage.�
�6.5� V� Shunt� Regulator� and� 8.5� V� Clamp�
�In� addition,� there� is� a� shunt� regulator� that� helps� maintain� the�
�BYPASS� pin� at� 6.5� V� when� current� is� provided� to� the� BYPASS�
�pin� externally.� This� facilitates� powering� the� device� externally�
�through� a� resistor� from� the� bias� winding� or� power� supply� output�
�in� non-isolated� designs,� to� decrease� device� dissipation� and�
�increase� power� supply� efficiency.�
�The� 6.5� V� shunt� regulator� is� only� active� in� normal� operation,� and�
�when� in� Power-Down� mode� a� clamp� at� a� higher� voltage� (typical�
�8.5� V)� will� clamp� the� BYPASS� pin.�
�BYPASS� Pin� Undervoltage� Protection�
�The� BYPASS� pin� undervoltage� circuitry� disables� the� power�
�MOSFET� when� the� BYPASS� pin� voltage� drops� below� 4.85� V.�
�Once� the� BYPASS� pin� voltage� drops� below� 4.85� V,� it� must� rise�
�back� to� 5.85� V� to� enable� (turn� on)� the� power� MOSFET.�
�BYPASS� Pin� Overvoltage� Protection�
�If� the� BYPASS� pin� gets� pulled� above� 6.5� V� and� the� current� into�
�the� shunt� exceeds� 6.5� mA� a� latch� will� be� set� and� the� power�
�MOSFET� will� stop� switching.� To� reset� the� latch� the� BYPASS� pin�
�has� to� be� pulled� down� to� below� 1.5� V.�
�Over-Temperature� Protection�
�The� thermal� shutdown� circuit� senses� the� die� temperature.� The�
�threshold� is� set� at� 142� °� C� typical� with� a� 70� °� C� hysteresis.� When�
�the� die� temperature� rises� above� this� threshold� (142� °� C)� the�
�power� MOSFET� is� disabled� and� remains� disabled� until� the� die�
�temperature� falls� by� 70� °� C,� at� which� point� the� MOSFET� is�
�re-enabled.�
�Current� Limit�
�The� current� limit� circuit� senses� the� current� in� the� power� MOSFET.�
�When� this� current� exceeds� the� internal� threshold� (I� LIMIT� ),� the�
�power� MOSFET� is� turned� off� for� the� remainder� of� that� cycle.�
�The� leading� edge� blanking� circuit� inhibits� the� current� limit�
�3�
�Rev.� B� 11/12�
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参数描述 |
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