{{Use American English|date = March 2019}} {{Short description|Effect of filters or amplifiers on signals' phases as function of frequency}} In signal processing, '''phase response''' is the relationship between the phase of a sinusoidal input and the output signal passing through any device that accepts input and produces an output signal, such as an amplifier or a filter.<ref name="JOS">{{cite web |last1=Smith |first1=J.O. |title=Introduction to Digital Filters with Audio Applications |url=http://ccrma.stanford.edu/~jos/filters/ |website=JOS |publisher=J.O. Smith |accessdate=1 February 2019 |ref=JOS}}</ref>
Amplifiers, filters, and other devices are often categorized by their amplitude and/or phase response. The amplitude response is the ratio of output amplitude to input, usually a function of the frequency. Similarly, phase response is the phase of the output with the input as reference. The input is defined as zero phase. A phase response is not limited to lying between 0° and 360°, as phase can accumulate to any amount of time.
==See also== * Group delay and phase delay
==References== {{reflist}}
{{DEFAULTSORT:Phase Response}} Category:Trigonometry Category:Wave mechanics Category:Signal processing
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