The raised-cosine filter is a
filter frequently used for
pulse-shaping in digital
modulation due to its ability to minimise
intersymbol interference (ISI). Its name stems from the fact that the non-zero portion of the
frequency spectrum of its simplest form () is a
cosine function, 'raised' up to sit above the (horizontal) axis.
Mathematical description
The raised-cosine filter is an implementation of a low-pass
Nyquist filter, i.e., one that has the property of vestigial symmetry. This means that its spectrum exhibits odd
symmetry about , where is the symbol-period of the communications system.
Its frequency-domain description is a
piecewise-defined
function, given by:
in terms of the normalised
sinc function. Here, this is the "communications sinc" rather than the mathematical one.
Roll-off factor
The
roll-off factor, , is a measure of the excess bandwidth of the filter, i.e. the bandwidth occupied beyond the Nyquist bandwidth of .
Some authors use .[2]
If we denote the excess bandwidth as , then:
where is the symbol-rate.
The graph shows the amplitude response as is varied between 0 and 1, and the corresponding effect on the
impulse response. As can be seen, the time-domain ripple level increases as decreases. This shows that the excess bandwidth of the filter can be reduced, but only at the expense of an elongated impulse response.
β = 0
As approaches 0, the roll-off zone becomes infinitesimally narrow, hence:
When , the non-zero portion of the spectrum is a pure raised cosine, leading to the simplification:
or
Bandwidth
The bandwidth of a raised cosine filter is most commonly defined as the width of the non-zero frequency-positive portion of its spectrum, i.e.:
As measured using a spectrum analyzer, the radio bandwidth B in Hz of the modulated signal is twice the baseband bandwidth BW (as explained in [1]), i.e.:
Auto-correlation function
The
auto-correlation function of raised cosine function is as follows:
The auto-correlation result can be used to analyze various sampling offset results when analyzed with auto-correlation.
Application
When used to filter a symbol stream, a Nyquist filter has the property of eliminating ISI, as its impulse response is zero at all (where is an integer), except .
Therefore, if the transmitted waveform is correctly sampled at the receiver, the original symbol values can be recovered completely.
However, in many practical communications systems, a
matched filter is used in the receiver, due to the effects of
white noise. For zero ISI, it is the net response of the transmit and receive filters that must equal :