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| 型号: | F1770DD20 |
| 厂商: | Curtis Industries |
| 文件页数: | 88/92页 |
| 文件大小: | 0K |
| 描述: | FILTER HI PERFORM 20A SCREW |
| 标准包装: | 10 |
| 系列: | F1770 |
| 滤波器类型: | 电源线 |
| 电压 - 额定: | 250V |
| 电流: | 20A |
| 安装类型: | 底座安装 |
| 端接类型: | 接线柱接片 |
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�Technical� Considerations�
�Meeting� Emissions� Standards�
�The� emissions� limits� that� a� piece� of� equipment� must�
�meet� will� depend� on� the� intended� market� for� that� piece�
�of� equipment.� If� there� is� more� than� one� market,� more�
�than� one� emission� standard� may� have� to� be� met.� This�
�can� have� a� substantial� effect� on� the� circuit,� size,� and� cost�
�of� a� filter.� Standards� like� the� CISPR’s� or� the� FCC� Rules�
�Part� 15� have� frequency� limits� of� 150� kHz� to� 30� MHz.�
�FCC� 15� AND� CISPR� CONDUCTED� EMISSION� LIMITS�
�DIGITAL� EQUIPMENT�
�(Line� Impedance� Stabilization� Network)� and� using�
�signal� generators� to� inject� RF� of� varying� amplitude� and�
�frequency,� some� insight� can� be� gained� as� to� the� nature�
�of� the� problem.� However,� the� criteria� for� acceptable�
�performance� will� have� to� be� decided� upon� so� that� a�
�filter� yielding� this� level� of� performance� can� be� obtained�
�from� the� test� procedure.� Unfortunately,� this� still� does� not�
�eliminate� the� need� for� final� testing� in� the� actual� operating�
�environment� which,� in� many� cases,� occurs� in� the� field.�
�Selection� of� a� suitable� filter� can� best� be� based� on�
�the� type� of� power� supply� or� input� impedance� of� the�
�equipment� and� on� the� mode� of� the� offending� RFI� noise.�
�80� –�
�78� –�
�Quasi-peak�
�Noise� Modes�
�dBμV�
�76� –�
�74� –�
�72� –�
�70� –�
�68� –�
�66� –�
�64� –�
�62� –�
�60� –�
�58� –�
�Average�
�Quasi-peak�
�Class� A� Industrial�
�Class� A� Industrial�
�Class� B�
�Residential�
�Power� line� filters� attenuate� noise� in� two� different� modes.�
�Common� Mode:� Also� known� as� line-to-ground� noise�
�measured� between� the� power� line� and� ground�
�potential.�
�Differential� Mode:� Also� known� as� line-to-line� noise�
�measured� between� the� lines� of� power.�
�Power� line� filters� are� designed� to� attenuate� either�
�one� or� both� modes� of� noise.� The� need� for� one� design�
�over� another� will� depend� on� the� magnitude� of� each�
�56� –�
�noise� type� present.� The� attenuation� is� measured� in� dB�
�54� –�
�52� –�
�50� –�
�48� –�
�46� –�
�Average�
�Class� B�
�Residential�
�(decibels)� at� various� frequencies� of� signal.�
�Circuit� Con� ?� guration�
�Power� line� RFI� filters� are� generally� built� with� two� or�
�0,15�
�0,5�
�Frequency� (MHz)�
�5�
�30�
�three-pole� filter� networks.� As� the� number� of� poles� and�
�the� corresponding� component� count� increases,� the�
�EMI� measurements� are� generally� made� using�
�Spectrum� Analyzers� with� Average� or� Quasi-Peak�
�detectors� in� accordance� with� methods� described�
�in� CISPR� 16.� Quasi-Peak� differs� from� Average�
�measurements� by� weight-averaging� the� peaks� into�
�the� total.�
�Equipment� meeting� these� specifications� can�
�utilize� a� filter� with� a� fairly� high� cutoff� frequency.� Other�
�standards� like� FCC� 18� with� a� low� frequency� limit� of� 10�
�kHz� will� result� in� the� equipment� using� lower� cutoff� filters.�
�As� might� be� expected,� the� lower� the� cutoff� frequency,�
�the� larger� the� physical� size� and� the� higher� the� cost� of�
�the� filter.�
�Conducted� RFI� Susceptibility�
�The� problem� of� susceptibility� can� be� extremely� difficult�
�to� deal� with� because� the� amplitude� and� frequency� of�
�the� offending� RF� noise� are� seldom� known� and� are� often�
�intermittent.� If� the� malfunction� can� be� duplicated� by�
�isolating� the� equipment� from� the� power� line� with� LISN’s�
�cost� will� increase� also.� Trying� to� typify� an� equipment’s�
�impedance� as� either� high� or� low� for� purposes� of� filter�
�selection� may� not� be� successful.� If� it� is� a� complex�
�impedance,� it� could� probably� be� low� at� some�
�frequencies,� high� at� others,� and� some� intermediate�
�value� at� still� other� frequencies.�
�Although� we� have� been� generally� successful� in�
�recommending� a� two-pole� network� for� linear� power�
�supplies� and� three-pole� networks� for� switching� power�
�supplies� and� synchronous� motors,� you� should� not� limit�
�your� testing� to� just� one� circuit� type� if� either� additional�
�circuit� performance� or� lower� cost� is� desired.� Consider�
�the� following:� If� the� equipment� looked� strictly� capacitive,�
�the� performance� of� a� two-pole� network� would� be�
�reduced� to� that� of� a� single-pole� filter.�
�Figure� 1a.�
�A� signal� source� (E)� with�
�its� internal� impedance�
�driving� a� capacitive� load.�
�86�
�www.curtisind.com�
�Curtis� Industries�
�A� Division� of� Powers� Holdings,� Inc.�
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