Electric lamp and discharge devices – Cathode ray tube – Ray generating or control
Reexamination Certificate
2001-03-29
2003-06-17
Martin, David (Department: 2841)
Electric lamp and discharge devices
Cathode ray tube
Ray generating or control
C313S440000, C335S209000, C335S210000, C335S211000, C335S213000
Reexamination Certificate
active
06580208
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates in general to a deflection unit for mounting on a color cathode ray tube and is in particular concerned with the correction of convergence errors and geometry errors in such a deflection unit.
2. Description of the Related Art
Deflection units are mounted on a cathode ray tube to deflect the electron beams across the screen in X- and Y-direction. The deflection unit consists essentially of two pairs of coils and a ferrite core for returning the magnetic flux. The one pair of coils produces a magnetic field which deflects the electron beams in horizontal direction (X-direction) whereas the other pair of coils serves vertical deflection (Y-direction).
A constructional form often used for modern color picture tubes is the in-line type arrangement in which the beam generating systems are arranged in one plane side by side. In such systems three electron beams are generated whose axes extend in coplanar fashion and which converge on the screen. The picture produced by deflection units suited for this type of color picture tubes is self-converging, coma-free and essentially without any north-south raster distortions. This is essentially achieved by a field shape varying in the Z-direction. The Z-direction is here the axis extending towards the screen.
FIGS. 1
a
and
1
b
illustrate the deflection fields for the vertical and horizontal deflection direction in a deflection unit for in-line type color picture tubes. As can be seen in the figures, the field distributions in the rear portions
10
,
40
of the deflection unit differ from those of the central portion
20
and the front portion
30
,
50
of the deflection unit.
The field shapes which can be employed for use in such deflection units are shown in
FIG. 1
c,
the left field distributions being pincushion-shaped and the right ones barrel-shaped. The upper field distributions shown in
FIG. 1
c
are used for the vertical deflection direction whereas the lower field distributions are employed for horizontal deflection.
As can be learned from
FIG. 1
a,
a pincushion-shaped deflection field is used for the vertical deflection direction in the rear portion of the deflection unit, a barrel-shaped deflection field is used in the central portion, and a pincushion-shaped deflection field is again used in the front portion. For the horizontal deflection direction the deflection unit as shown in
FIG. 1
b
comprises a barrel-shaped deflection field in the rear portion and a pincushion-shaped deflection field in the front portion. As described above, a self-converging picture which is free of coma errors and north-south raster distortions is obtained through said arrangements.
Essentially two types of errors may arise due to construction errors in the picture tubes and deflection units: convergence errors and geometry errors. Convergence errors are observed whenever the primary color images have no congruent rasters any more. By contrast, geometry errors arise whenever the raster image is shown in distorted form on the screen. Convergence and geometry errors may also occur at the same time.
An example of the presence of convergence errors is shown in
FIG. 2
where due to construction tolerances the blue beam can no longer be made congruent with the read beam. For the correction of such a convergence error the deflection unit is normally tilted in conventional assemblies, as shown in
FIGS. 3
a
and
3
b
for the X-direction and Y-direction, respectively.
Such an error correction has the drawback that undesired asymmetrical geometry errors may be produced because of the inhomogeneous fields in the front portion of the deflection unit. This is further illustrated with reference to
FIGS. 4
a
and
4
b.
FIG. 4
a
shows an ideal raster and
FIG. 4
b
a distorted raster created by tilting the deflection unit in the Y-direction.
Another prior-art correction device for coma errors created by the difference in the raster dimensions of the three electron beams in the in-line type, which is due to the eccentric position of the outer in-line guns, based on the horizontal and vertical deflection fields, comprises an additional pair of coils which are mechanically fixed onto the rear side of the deflection unit. This pair of coils permits a correction of the convergence error by means of suitable circuitry measures. Although the additional pair of coils allows convergence corrections without substantially affecting the geometry, the circuitry measures required therefore are very complicated.
OBJECTS AND SUMMARY OF THE INVENTION
It is therefore the object of the present invention to provide a simplified deflection unit for mounting on a color cathode ray tube which permits an improved convergence and geometry error correction. Another object of the invention consists in providing associated color cathode ray tubes and display apparatuses.
According to the invention a deflection unit for mounting on a color cathode ray tube comprises a pair of coils for vertical deflection and a pair of coils for horizontal deflection, with at least one of the pairs of coils being divided into at least two parts. One part serves the correction of convergence errors and the other part the correction of geometry errors. The respective corrections can be made independently of the respectively other correction.
This arrangement according to the invention has the advantage that it permits a convergence correction without producing a considerable geometry error.
Moreover, thanks to the separate adjustment of the two types of errors, highly sensitive deflection units can be realized, in particular, also with respect to a correction of the coma error.
In preferred embodiments the two parts are mechanically independent and spatially separated from each other, the part intended for the correction of the geometry errors being positioned closer to the screen plane than the part intended for the correction of the convergence errors.
To obtain different correction characteristics it is here possible to subdivide either only the pair of coils for vertical deflection or only the pair of coils for horizontal deflection or both pairs of coils.
Preferred embodiments are defined in the subclaims.
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Boyle Fredrickson Newholm Stein & Gratz S.C.
Martin David
Matsushita Display Devices (Germany) GmbH
Tran Thanh Y.
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