Title :
Synchronous servo scheme using maximum-likelihood detectors
Author :
Yada, Hiroaki ; Yamakoshi, Takamichi ; Ishioka, Hideaki ; Hayashi, Nobuhiro
Author_Institution :
Micro Syst. Network Co., Sony Corp., Tokyo, Japan
Abstract :
For magnetic disk drives, we have developed a scheme for synchronous servo with maximum-likelihood (SSML) detection that is synchronous around the entire circumference of the track and utilizes ML estimation to detect head position, clock mark phase, and track addresses. Compared to the conventional asynchronous sector servo scheme, the SSML scheme has many, much shorter, servo areas-typically several hundred-distributed on the disk. This results in higher servo information rate, which will be needed for future high-track-density disk drives with a wide servo bandwidth. We analyze the performance of the SSML scheme, including the format efficiency. We discuss a limitation of the synchronous servo scheme with respect to the number of servo areas, and we show an appropriate region for its application. Feasibility of the SSML scheme has been demonstrated in prototype 2.5-in hard disk drives.
Keywords :
PD control; Viterbi decoding; digital phase locked loops; direct digital control; disc drives; feedforward; hard discs; maximum likelihood detection; phase estimation; servomechanisms; synchronisation; timing jitter; Viterbi decoder; clock jitter; clock mark phase; digital PLL; digital proportional differential regulator; format efficiency; head position; high-track-density disk drives; magnetic disk drives; maximum-likelihood detection; sampling frequency; servo channel; synchronization setup; synchronous servo; track addresses; Clocks; Detectors; Disk drives; Information rates; Magnetic heads; Maximum likelihood detection; Maximum likelihood estimation; Phase detection; Phase estimation; Servomechanisms;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.819476
