Title :
Coding and signal processing for a magneto-optic resonant bias coil overwrite experiment
Author :
Haeb, R. ; Rugar, D. ; Howell, T. ; Coleman, G.
Author_Institution :
IBM Almaden Res. Center, San Jose, CA, USA
Abstract :
The resonant bias coil technique requires even-numbered transitions to be written on even-numbered clock cycles, and odd-numbered transitions on odd-numbered clock cycles. This constraint is met by double-spaced run-length-limited (d, k, 2) codes where the number of consecutive zeros is even. Exploiting the polarity of the transitions, a detection window that has double the size of the code bit period is possible. The authors describe a detection circuit that achieves the enlarged detection window, and present a phase detector which is particularly simple to implement. Channel bit-error-rate measurements have been carried out employing a rate 1/3 (2, 8, 2) code. Error rates of 10-8 were achieved for recording densities up to 33 kb/in. The results demonstrate the expected excellent immunity of the direct overwrite scheme to bloom
Keywords :
detector circuits; encoding; error statistics; magneto-optical recording; bit-error-rate measurements; detection circuit; detection window; double-spaced run-length-limited codes; immunity; magneto-optic resonant bias coil overwrite experiment; phase detector; recording densities; signal processing; Clocks; Coils; Disk recording; Magnetic domains; Magnetic fields; Magnetic resonance; Magnetization; Phase detection; RLC circuits; Signal processing;
Conference_Titel :
Communications, 1990. ICC '90, Including Supercomm Technical Sessions. SUPERCOMM/ICC '90. Conference Record., IEEE International Conference on
Conference_Location :
Atlanta, GA
DOI :
10.1109/ICC.1990.117357
