Method for mass producing partial width linear tape...

Metal working – Method of mechanical manufacture – Electrical device making

Reexamination Certificate

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C029S603060

Reexamination Certificate

active

06341416

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to magnetic tape recording heads, and, more particularly, to tape heads that span only a portion of the width of the tape.
BACKGROUND OF THE INVENTION
Conventional recording heads for linear tape drives have small transducers incorporated into a large head assembly to span the full width of the tape. For recording heads fabricated using thin film wafer technology, this requires that the head either be fabricated individually on a wafer which is at least as wide as the recording tape and lapped individually to the proper shape, or be fabricated as a small part and assembled with larger pieces and the full assembly lapped individually to the proper shape.
The conventional shape of a tape head comprises a cylindrical or complex contour which is critical in maintaining the moving tape at the desired head to transducer spacing (called “contact” or “near contact” recording). The contact, or near contact, spacing is maintained by controlling the contour shape to “bleed”, “skive” or “scrape” the boundary layer of air carried by the tape away before encountering the transducer to prevent the tape from “flying”, or losing contact with the transducer.
The spacing between the magnetic head and the magnetic tape is crucial so that the recording gap of the transducer, which is the source of the magnetic recording flux, is in intimate or near contact with the tape to effect efficient signal transfer for recording. The spacing is also crucial so that the playback element is in intimate or near contact with the tape to provide effective coupling of the magnetic field from the tape to the playback element.
The full width of the tape in the prior art is contacted by the head assembly to prevent steering the moving tape as the head assembly is moved to access different data tracks. In addition, when a short span head is near an edge of the tape, the tape, without support, tends to lift from the head as the result of upward flex curvature as it travels over the protruding head. Thus, a wide head is used to provide support for the tape when the recording element is positioned near an edge of the tape. Even with full width support, there is an antielastic bending effect that tends to lift the tape off the head near the edge of the tape.
FIG. 1
illustrates a conventional linear tape drive recording head
10
. A small transducer
11
is incorporated into a large unit
12
to span the full width of the tape
13
.
FIG. 2
illustrates an example of one method of fabricating a conventional linear tape drive recording head of
FIG. 1
using thin film wafer technology. In
FIG. 2
a
, an individual chip
14
is assembled with wings
15
and
16
and closure
17
and glued together to form a full assembly which is shown in an end view in
FIG. 2
b
. A portion of the top surface of the full assembly is then ground away to form the assembly shown in
FIG. 2
c
, leaving a rooftop
18
. The entire assembly is then individually lapped to the proper depth so as to attain the final stripe and throat heights for the magnetic transducer and to attain the desired contour
19
as shown in
FIG. 2
d
. The resultant assembly is illustrated in
FIG. 2
e.
The conventional shape of
FIG. 2
comprises a cylindrical or complex contour which is critical in maintaining the moving tape in contact with the transducer, as described above. The full width contour of
FIGS. 1 and 2
serves three purposes. 1) It prevents tape steering as the recording element is moved to access different data tracks. 2) It provides support for the tape as the head is positioned near the edge of the tape
13
. and 3) It prevents the edges of the chip
14
from damaging the tape.
13
.
The contour of the head must also allow a low tension on the tape so as to not distort the tape. Typically, the contour is designed with a small radius
19
in
FIG. 2
d
so the pressure on the head, which is proportional to the tape tension per unit width divided by the radius (T/wR), is high with tensions low enough not to excessively distort the tape. However, the contour of the head must be such that the pressure of the tape on the transducer is not so high that the surface of the transducer wears excessively.
Such full width heads are often provided with “outriggers” to maintain a small wrap angle over the recording elements of the head even though the wrap angle over the outriggers can change with different cartridges inserted into the tape drive. A change in wrap angle over the portion of the head containing the recording elements can lead to air entrainment and excessive flying height of the tape.
Like the head assembly, the outriggers must also be the full width of the tape in order to prevent distortion of the tape. Often, the outriggers must also be lapped to a contour which is coordinated with the contour of the head assembly.
Individual lapping of the tape head assembly and of the corresponding outriggers, especially to a contour, is very expensive and is a major contributor to the manufacturing cost of the tape head.
Partial span recording heads are used in helical scan tape recording and in floppy disks. They are individually assembled and then provided with a spherical or elliptical contour. Such heads have not been used in linear tape recorders due to the need for tape edge support and a requirement for substantial tape tension or contact pressure to maintain contact with the head. In addition, it is difficult to provide such a contour when a multiplicity of recording elements are required in the head.
U.S. Pat. No. 4,123,791, Rotter et al., describes a single element narrow tape head positioned between outrigger bars of 0.25 inch radius with radial centers 0.4 inch apart. An additional pair of stub outriggers aligned in the direction of tape travel, having the same shape as the head and spaced 25 to 30 mils on either side of the head, were required to support the edge of the tape. The narrow tape head and stub outriggers were required to allow the splitting and passage of the boundary layer of air.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a tape head that does not require or complex assembly with stub outriggers.
Another object of the present invention is to provide a tape head which attains optimum spacing with respect to the tape at all track positions across the width of tape.
Disclosed is a dimple magnetic recording head in a transducer assembly for linear tape drives. The dimple head has a flat transducing surface extending laterally a partial width of the magnetic recording tape. Two parallel tape support surfaces extend laterally the full width of the magnetic recording tape, positioned on either side of and spaced from the dimple head in the longitudinal direction of the magnetic recording tape. In addition, the anticlastic lift off of the tape near its edges is minimized with present tape thickness (approx. 9 microns) and tension for a dimple head length of 0.6 to 1 mm in the tape moving direction. Further miminization can be achieved by providing a slight contour on the edges of the dimple head. The tape support surfaces form a plane, and the dimple head flat transducing surface is parallel to the tape support surface plane and projects above the tape support surface plane to form tape wrap angles with respect to the tape support surfaces of approximately ½ degree to 2.5 degrees. The low wrap angle helps prevent tape steering as the head is moved to access different data tracks. The high end of the range (2.0 to 2.5 degrees) of wrap angle allows reading and writing nearer the edge of the tape at the expense of increased tape steering.
A method for forming a dimple magnetic tape head is disclosed. A plurality of transducers are formed on a common row of substrate elements, and the common row of substrate elements is lapped to achieve the proper throat height of the inductive write elements (approx ½ to 3 microns), appropriate magnetoresistive stripe height of the magnetoresistive read elements (approx ½ to 3 microns), and a flat transducing sur

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