Constrained equalizer design for MDFE detection on the magnetic recording channel

Author

Mathew, George ; Wood, R.W. ; Liu Bin

Author_Institution

Data Storage inst.

Volume

3

fYear

1997

fDate

3-8 Nov 1997

Firstpage

1258

Abstract

Multi-level decision feedback equalization scheme (MDFE) is an excellent detection technique for magnetic recording channels using RLL(1, k) codes. In MDFE, the optimum equalizer is designed by maximizing the effective eye-opening divided by noise plus intersymbol interference. We address the problem of incorporating certain constraints in the equalizer design for achieving hardware simplicity and reduction in error propagation. In particular, we show that this constrained design results in (i) a critical loop clock-rate that is only 3/4 of the user data rate, (ii) a highly simplified feedback equalizer, and (iii) a mechanism to control error propagation. The results (theoretical and simulations) show that the performance degradation incurred due to these constraints is minimal

Keywords

coding errors; decision feedback equalisers; intersymbol interference; magnetic recording; runlength codes; signal detection; MDFE detection; RLL codes; constrained equalizer design; error propagation control; eye-opening; hardware simplicity; intersymbol interference; loop clock-rate; magnetic recording channels; multi-level decision feedback equalization; noise; optimum equalizer; performance degradation; runlength limited codes; simulations; user data rate; Clocks; Decision feedback equalizers; Degradation; Error correction; Feedback loop; Hardware; Interference constraints; Intersymbol interference; Magnetic noise; Magnetic recording;

fLanguage

English

Publisher

ieee

Conference_Titel

Global Telecommunications Conference, 1997. GLOBECOM '97., IEEE

Conference_Location

Phoenix, AZ

Print_ISBN

0-7803-4198-8

Type

conf

DOI

10.1109/GLOCOM.1997.644337

Filename

644337