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利用扩频技术管理开关电源EMI
开关直流/直流电源和稳压器,无论IC,模块,或底盘,一般优于线性电源,并有很好的理由。在一般情况下,他们是更有效的,从而降低功耗和成本,更长的运行时间,和更少的热量消散。(注:在有些情况下,线性供应可能会更有效,特别是当输入输出电压差很小。¹
然而,有一个问题,开关用品,影响许多设计。由于其固有的内部开关动作,他们产生更多的噪音比线性供应。的噪声频率是一个功能的基本开关频率,这通常是在100千赫和几个兆赫,根据设计和应用,并包括几个谐波。
在捕捉低级别传感器信号的设计中,这种噪声可能是不可接受的,并且必须使用额外的滤波来保持敏感前端的噪声。在其他的设计,如消费电子产品和汽车,噪声是系统性能问题的本身,而辐射噪声电磁干扰是指单位将失败相关监管标准如CISPR 252²[ CISPR是法语名字的缩写IEC委员会在英国被称为无线电干扰]国际特别委员会。然而,回到线性供应可能不被接受的足迹,BOM成本,功耗,或功率使用的原因。
Fortunately, vendors of switching-supply control ICs have devised a way to minimize the noise problem. First, they are slowing and managing the slew rates and transiTIons of the converter clock and TIming signals, to reduce some of the emissions. However, they have also gone further: some designs have adapted a technique used in communicaTIons spectrum management, encoding, and security to miTIgate the noise problem. This spread-spectrum approach is the basis for frequency- and time-hopping systems used in devices where the user is not assigned a fixed frequency or time slot. Other designs use a triangle wave to modulate, and thus sweep the clock frequency across a modest range above and below the nominal value.
