Servo tracking for helical scan recorder

Details

Inventors: Hughes, Timothy C.; Georgis, Steven P.;
Assignee: Exabyte Corporation (Boulder, CO)
Primary Examiner: Psitos; Aristotelis
Assistant Examiner: Robertson; David L.
Attorney, Agent or Firm: Griffin, Branigan & Butler

In a servo tracking method and apparatus, a servo head (S) of a helical scan recorder (30) endeavors to travel equidistant between two servo signal-bearing stripes recorded on the tape (32). The recorder (30) determines a reference-crossing time at which the servo head (S) begins to cross a horizontal reference line (606) drawn with respect to the beginning of a stripe on the tape (32). The servo head (S) samples the amplitude of a servo signal provided on the tape (32) at a plurality of predetermined times after the reference-crossing time. A servo tracking circuit (175) uses the amplitude of the servo signal at the predetermined sampling times to determine how to adjust the position of said head (S) relative to the pitch of said stripe.

DETAILED DESCRIPTION OF THE DRAWINGS FIG.
1 shows drum and transport portions of a helical scan system 30 for recording digital information on magnetic tape 32.
The helical scan system 30 includes a tape transport 34 and a rotating drum 36.
The tape transport 34 includes a capstan 42 and two tape guides 44.
In conventional manner, the capstan 42 is rotated by an unillustrated capstan drive motor in order to move the tape 32 in a direction of tape travel indicated by arrows 46.
In the illustrated embodiment, the capstan 42 rotates to transport the tape 32 at a speed on the order of about one-half inch per second.
DRUM AND HEAD STRUCTURE The drum 36 is rotatable about drum axis 50.
The drum is rotated at a velocity of about 1800 rpm by an unillustrated drum motor.
An unillustrated tachometer detects rotations of the drum motor shaft, and hence of the drum, and produces a DRUM SYNC signal.
As shown in FIG.
2, drum axis 50, and hence drum 36, is angularly oriented with respect to the edges and direction of travel of the tape 32.
The drum 36 has a drum upper surface 52 and a drum lower surface 54, both of which are planar.
The drum axis 50 is orthogonal to both the drum upper surface 52 and the drum lower surface 54.
The drum 36 also has a peripheral surface 56 which wraps around the circumference of the drum 36.
The peripheral surface 56 of the drum 36 has two sets of heads mounted thereon, in particular a first set of heads comprising write heads W1 and W2 and a second set of heads comprising read heads R1 and R2.
In addition, the peripheral surface 56 of the drum 36 has a servo head S mounted thereon.
The heads W1, W2, R1, and R2 are mounted to generate helical stripes on the magnetic tape 32 in the manner shown in FIG.
6.
Heads W1 and W2 essentially simultaneously write first and second tracks of data, i.
e.
, tracks T1 and T2, respectively, on the tape 32.
Heads R1 and R2 are positioned to read tracks T1 and T2, respectively, 180 degrees after the tracks T1 and T2 are written.
In this respect, although FIG

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