<span class="word">A <span class="word"><span class="changedDisabled">Technique <span class="word">for <span class="word"><span class="changedDisabled">Constructing <span class="word"><span class="changedDisabled">Frequency <span class="word"><span class="changedDisabled">Responses <span class="word">of <span class="word"><span class="changedDisabled">Filters <span class="word">on <span class="word"><span class="changedDisabled">Switched <span class="word"><span class="changedDisabled">Capacitors <span class="word">by <span class="word"><span class="changedDisabled">Comparative <span class="word"><span class="changedDisabled">Modeling <span class="word">of <span class="word"><span class="changedDisabled">Their <span class="word"><span class="changedDisabled">Circuits <span class="word">in <span class="word">Micro-<span class="word">Cap <span class="word">and <span class="word">Delta <span class="word">Design <span class="word"><span class="changedDisabled">Environments
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This article is not in any list yet, why not save it to one of your lists.Abstract
To solve the problem of constructing the frequency responses (FR) of filters on switched capacitors, which belong to the class of electronic circuits with a periodically changing structure, a method for modeling them in Micro-Cap and Delta Design environments is proposed. It allows you to evaluate the nature of changes in the FR of such filters in the time domain. As an example, a comparative analysis of the frequency response of a second-order analog bandpass filter, as well as two bandpass filter circuits with switching resistors and capacitors, is given. An assessment of the current state of EDA and trends in their development is given.