lavpassfiltreringen

Lavpassfiltreringen is a signal processing technique whereby frequencies above a chosen cutoff frequency are attenuated, while frequencies below that cutoff are transmitted largely unchanged. The method is employed in many fields, from audio engineering to image processing, telecommunications, and control systems, to reduce noise, smooth data, or isolate desired signal components. In digital implementations the filter can be realized as finite impulse response (FIR) or infinite impulse response (IIR). Classical filter designs include Butterworth, Chebyshev, elliptic, and Bessel filters, each offering different trade‑offs between roll‑off steepness, ripple in the passband, and phase response. A Butterworth low‑pass filter provides a maximally flat magnitude response in the passband and is common in applications where amplitude linearity is important. Chebyshev designs allow for a steeper transition at the cost of ripples, while elliptic filters give the sharpest transition for a given order but require careful ripple control.

In audio, lavpassfiltreringen removes high‑frequency hiss or distortion and shapes the tonal balance of a signal.