Title :
Implementation-Friendly Constraint for Adaptive Finite Impulse Response Filters for Equalization
Author :
Xie, Jin ; Sun, Lingyan ; Kumar, B. V K Vijaya
Author_Institution :
Marvell Semicond. Inc., Longmont
Abstract :
In read channels in magnetic recording systems, a finite impulse response (FIR) filter is often used as an equalizer, and the filter coefficients are adapted via a least mean squares (LMS) algorithm. This equalizer adaptation loop can interfere with the timing recovery (TR) loop and the automatic gain control (AGC) loop that are also present in such channels. In a previous paper by L. Du et al., a linear constraint is proposed for the LMS loop so that it is decoupled from the TR and the AGC loops. In this paper, we generalize that constraint, and propose a new constraint that offers the advantage of easier implementation.
Keywords :
FIR filters; adaptive equalisers; adaptive filters; least mean squares methods; magnetic recording; adaptive finite impulse response filter; automatic gain control loop; equalizer adaptation loop; least mean squares algorithm; magnetic recording read channels; timing recovery loop; Adaptive equalizer; LMS loop; timing recovery;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2007.912677
