A technique for an equalizer filter with dynamically configurable code domain filter is described. The input to a transmitter chain is modified by an equalizer filter with dynamically configurable code domain filter, prior to being applied to the transmitter. The equalizer filter with dynamically configurable code domain filter modifies and smoothen the amplitude of the signal. The modified and smoothen signal has its peaks reduced which results in lower Crest Factor with negligible degradation of Error Vector Magnitude of individual codes. The input to the equalizer filter with dynamically configurable code domain filter could be a baseband, an intermediate frequency (IF) or radio frequency (RF) signal. When the signal is an IF or RF signals it needs to be down converted to baseband before applied to the equalizer filter.