Difference between revisions of "Filter Basics"
Jump to navigation
Jump to search
| Line 16: | Line 16: | ||
{| | {| | ||
| − | |[[File:Ideal filter.svg|thumb| | + | |[[File:Ideal filter.svg|thumb|300px|Figure 6: The ideal low-pass filter magnitude response.]] |
| − | |[[File:Practical filter.svg|thumb| | + | |[[File:Practical filter.svg|thumb|300px|Figure 7: A practical low-pass filter magnitude response.]] |
|- | |- | ||
|} | |} | ||
Revision as of 16:48, 12 March 2021
Filtering is the oldest and most common type of signal processing, usually in the form of frequency selectivity or phase shaping, or both. Some filter applications include (1) extracting a desired signal from other signals, (2) separating signals from noise, (3) anti-aliasing in analog-to-digital converters or smoothing in digital-to-analog converters, (4) phase equalization, and (5) limiting amplifier bandwidths for reducing noise.
Contents
Filter Types
We can classify filters based on frequency range selectivity as: (1) low-pass filters, (2) high-pass filters, (3) band-pass filters, (4) band-stop, band-reject, or notch filters, and (5) all-pass filters used for phase shaping or equalization.
