In this paper, we develop an analytical framework to quantify the effects o
f the spreading bandwidth (BW) on spread spectrum systems operating in dens
e multipath environments in terms of the receiver performance, the receiver
complexity, and the multipath channel parameters. The focus of the paper i
s to characterize the symbol error probability (SEP) performance of a Rake
receiver tracking the L strongest multipath components in wide-sense statio
nary uncorrelated scattering (WSSUS) Gaussian channels,vith frequency-selec
tive fading. Analytical SEP expressions of the Rake receiver are derived in
terms of the number of combined paths, the spreading BW, and the multipath
spread of the channel. The proposed problem is made analytically tractable
by transforming the physical Rake paths, which are correlated and ordered,
into the domain of a "virtual Rake" receiver with independent virtual path
s. This results in a simple derivation of the SEP for a given spreading BW
and an arbitrary number of combined paths.