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参数资料
| 型号: | NCP1252TSFWDGEVB |
| 厂商: | ON Semiconductor |
| 文件页数: | 10/18页 |
| 文件大小: | 0K |
| 描述: | BOARD DEMO NCP1252 PWM CTLR |
| 设计资源: | NCP1252TSFWDGEVB Schematic NCP1252TSFWDGEVB Gerber Files NCP1252TSFWDGEVB Bill of Materials |
| 标准包装: | 1 |
| 主要目的: | AC/DC,主面 |
| 输出及类型: | 1,隔离 |
| 输出电压: | 12V |
| 电流 - 输出: | 10A |
| 稳压器拓扑结构: | 正向转换器 |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | NCP1252 |
| 其它名称: | NCP1252TSFWDGEVB-ND NCP1252TSFWDGEVBOS |
��
�
�NCP1252�
�Application� Information�
�Introduction�
�The� NCP1252� hosts� a� high� ?� performance� current� ?� mode�
�controller� specifically� developed� to� drive� power� supplies�
�designed� for� the� ATX� and� the� adapter� market:�
�?� Current� Mode� operation:� implementing� peak�
�current� ?� mode� control� topology,� the� circuit� offers�
�UC384X� ?� like� features� to� build� rugged� power� supplies.�
�?� Adjustable� switching� frequency:� a� resistor� to� ground�
�precisely� sets� the� switching� frequency� between� 50� kHz�
�and� a� maximum� of� 500� kHz.� There� is� no�
�synchronization� capability.�
�?� Internal� frequency� jittering:� Frequency� jittering�
�softens� the� EMI� signature� by� spreading� out� peak� energy�
�within� a� band� ±� 5%� from� the� center� frequency.�
�?� Wide� Vcc� excursion:� the� controller� allows� operation�
�up� to� 28� V� continuously� and� accepts� transient� voltage�
�up� to� 30� V� during� 10� ms� with� I� VCC� <� 20� mA�
�?� Gate� drive� clamping:� a� lot� of� power� MOSFETs� do� not�
�allow� their� driving� voltage� to� exceed� 20� V.� The�
�controller� includes� a� low� ?� loss� clamping� voltage� which�
�prevents� the� gate� from� going� beyond� 15� V� typical.�
�?� Low� startup� ?� current:� reaching� a� low� no� ?� load� standby�
�power� represents� a� difficult� exercise� when� the�
�controller� requires� an� external,� lossy,� resistor� connected�
�to� the� bulk� capacitor.� The� start� ?� up� current� is� guaranteed�
�to� be� less� than� 100� m� A� maximum,� helping� the� designer�
�to� reach� a� low� standby� power� level.�
�?� Short� ?� circuit� protection:� by� monitoring� the� CS� pin�
�voltage� when� it� exceeds� 1� V� (maximum� peak� current),�
�the� controller� detects� a� fault� and� starts� an� internal�
�digital� timer.� On� the� condition� that� the� digital� timer�
�elapses,� the� controller� will� permanently� latch� ?� off.� This�
�allows� accurate� overload� or� short� ?� circuit� detection�
�which� is� not� dependant� on� the� auxiliary� winding.� Reset�
�occurs� when:� a)� a� BO� reset� is� sensed,� b)� V� CC� is� cycled�
�down� to� V� CC(min)� level.� If� the� short� circuit� or� the� fault�
�disappear� before� the� fault� timer� ends,� the� fault� timer� is�
�reset� only� if� the� CS� pin� voltage� level� is� below� 1� V� at�
�least� during� 3� switching� frequency� periods.� This� delay�
�before� resetting� the� fault� timer� prevents� any� false� or�
�missing� fault� or� over� load� detection.�
�?� Adjustable� soft� ?� start:� the� soft� ?� start� is� activated� upon�
�a� start� ?� up� sequence� (V� CC� going� ?� up� and� crossing�
�?�
�?�
�?�
�?�
�V� CC(on)� )� after� a� minimum� internal� time� delay� of� 120� ms�
�(SS� delay� ).� But� also� when� the� brown� ?� out� pin� is� reset�
�without� in� that� case� timer� delay.� This� internal� time�
�delay� gives� extra� time� to� the� PFC� to� be� sure� that� the�
�output� PFC� voltage� is� in� regulation.� The� soft� start� pin� is�
�grounded� until� the� internal� delay� is� ended.�
�Shutdown:� if� an� external� transistor� brings� the� BO� pin�
�down,� the� controller� is� shut� down,� but� all� internal�
�biasing� circuits� are� alive.� When� the� pin� is� released,� a�
�new� soft� ?� start� sequence� takes� place.�
�Brown� ?� Out� protection:� BO� pin� permanently� monitors�
�a� fraction� of� the� input� voltage.� When� this� image� is�
�below� the� V� BO� threshold,� the� circuit� stays� off� and� does�
�not� switch.� As� soon� the� voltage� image� comes� back�
�within� safe� limits,� the� pulses� are� re� ?� started� via� a�
�start� ?� up� sequence� including� soft� ?� start.� The� hysteresis� is�
�implemented� via� a� current� source� connected� to� the� BO�
�pin;� this� current� source� sinks� a� current� (I� BO� )� from� the�
�pin� to� the� ground.� As� the� current� source� status� depends�
�on� the� brown� ?� out� comparator,� it� can� easily� be� used� for�
�hysteresis� purposes.� A� transistor� pulling� down� the� BO�
�pin� to� ground� will� shut� ?� off� the� controller.� Upon� release,�
�a� new� soft� ?� start� sequence� takes� place.�
�Internal� ramp� compensation:� a� simple� resistor�
�connected� from� the� CS� pin� to� the� sense� resistor� allows�
�the� designer� to� inject� ramp� compensation� inside� his�
�design.�
�Skip� cycle� feature:� When� the� power� supply� loads� are�
�decreasing� to� a� low� level,� the� duty� cycle� also� decreases�
�to� the� minimum� value� the� controller� can� offer.� If� the�
�output� loads� disappear,� the� converter� runs� at� the�
�minimum� duty� cycle� fixed� by� the� propagation� delay� and�
�driving� blocks.� It� often� delivers� too� much� energy� to� the�
�secondary� side� and� it� trips� the� voltage� supervisor.� To�
�avoid� this� problem,� the� FB� is� allowed� to� impose� the� min�
�t� ON� down� to� ~� V� f� and� it� further� decreases� down� to�
�V� skip� ,� zero� duty� cycle� is� imposed.� This� mode� helps� to�
�ensure� no� ?� load� outputs� conditions� as� requested� by�
�recently� updated� ATX� specifications.� Please� note� that�
�the� converter� first� goes� to� min� t� ON� before� going� to� zero�
�duty� cycle:� normal� operation� is� thus� not� disturbed.� The�
�following� figure� illustrates� the� different� mode� of�
�operation� versus� the� FB� pin� level.�
�http://onsemi.com�
�10�
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