JPS6119156B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a degaussing device for a color television receiver that performs degaussing when the color television receiver faces a specific direction.

It is well known that large screen color television receivers are susceptible to mislanding due to the earth's magnetic field. Therefore, when installing a large color television receiver (or monitor) inside a moving object such as an aircraft, car, ship, or train, it is necessary to constantly detect the earth's magnetic field and correct the landing. come.

On the other hand, in color television receivers,
Since the picture tube is magnetized by the earth's magnetism or some other kind of magnetism, causing mislanding, a demagnetizing device is required to prevent this. This is no exception to the case in color television receivers that detect the earth's magnetism and perform landing correction as described above, and a degaussing device is still necessary.

So, what kind of effect does demagnetization have? In the case of Trinitron color television receivers, the influence of horizontal geomagnetism is 1/2 to 1/3
decreases to For example, something that would have a 100μ mislanding if not demagnetized will now have a 30 to 40μ mislanding if demagnetized.
can be improved by.

However, color television receivers that detect the earth's magnetic field and make landing corrections are designed with the assumption that they will be installed inside a moving object, and that their orientation will change while electricity is being applied. Its direction is always changing. However, it is actually extremely difficult to repeat demagnetization every time the orientation changes. Therefore,
The amount of landing correction should be determined in consideration of the amount of mislanding when demagnetization is not performed. However, as described above, demagnetization is necessary, so demagnetization must be performed at least once during use. Also, if you do not demagnetize in a certain direction,
If a design is made to perform a landing correction of 100μ assuming a mislanding of 100μ, degaussing will result in a deviation of only 30 to 40μ, so in the end
This results in over-correction of 60 to 70μ. Furthermore, since the pattern of mislanding is completely different depending on the direction, it is impossible to adjust the correction amount in advance by taking demagnetization into consideration.

The present invention provides a solution to these problems, and its basic idea is as follows. In other words, if the orientation of the color television receiver when degaussing is always the same, it is possible to adjust the amount of correction in advance so that it just lands in that orientation.
Correct corrections will be made in all directions even if the orientation changes.

Therefore, in the present invention, a direction determination circuit is provided that uses the output voltage of the geomagnetic horizontal magnetic field detection device to determine whether the direction should be demagnetized.
To demagnetize a color television receiver only when it faces a specific direction. Hereinafter, the present invention will be explained in detail using the drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention. In the figure, 1 is a transverse magnetic field detection circuit, V
_EW is its detection voltage, 2 is the axial magnetic field detection circuit, V
_NS indicates its detection voltage, 3 indicates a direction discrimination circuit, 4 indicates a degaussing circuit, and 5 indicates a landing correction device. In addition,
For 1 and 2, devices that detect magnetic fields in the lateral and axial directions of the picture tube can also be used.

FIG. 2 is a connection diagram showing an example of a direction determining circuit used in the present invention, and FIG. 3 is a waveform diagram for explaining its operation. In Figure 2, COM1 compares the detection voltage V _EW with 0 volts, and
The first comparator, COM2, generates a constant DC voltage when _EW exceeds 0 volts, and the detection voltage V _NS and -△
The second comparator COM3 generates a constant DC output voltage when the detected voltage V _NS exceeds -△ volts, and generates a constant DC output voltage when the detected voltage V _{NS exceeds} -△ volts. A third comparator generates a constant DC output voltage when the voltage is below +△volts, AND is an AND gate, and 4 is a degaussing circuit.

As shown in Figure 3, the detected voltage V _EW is a sine with a positive peak when the color television receiver is facing east (E) and a negative peak when it is facing west (W). It has a wavy waveform, and the detection voltage V _NS also has a positive peak in the south (S) direction,
Since it has a sinusoidal waveform with a negative peak in the north (N) direction, the first comparator COM1 and the second comparator
The output voltages of COM2 and the third comparator COM3 are as shown in A, B, and C of FIG. 3, respectively.
Therefore, by adding these output voltages A, B, and C to an AND gate, an output pulse as shown in D in FIG. 3 is obtained. Since this output pulse D appears in the phase in which the detection voltage V _EW reaches its positive peak, it indicates that the color television receiver is facing east when this output pulse D is obtained. Similarly, you can also get a pulse when facing west.

In the above embodiment, a geomagnetism detection circuit that generates a detection voltage with a waveform as shown in FIG. 3 was used, but other circuits that generate a detection voltage with a similar waveform may also be used. , it is possible to configure a circuit that similarly determines a specific direction.

As explained above, in the present invention, since the orientation of the receiver is limited when demagnetizing,
By adjusting the amount of correction so that the aircraft just lands in that direction, it is possible to correct the correction correctly in all directions even if the direction changes. Therefore, even if the color television receiver is installed inside a moving vehicle, there will be no mislanding, and a comfortable image can be shown to passengers. However, if you demagnetize it while it is energized, the image will shake and look unsightly, but if you demagnetize it only once, when it first becomes oriented in a particular direction, there will be no particular problem.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a connection diagram of a direction determining circuit used in the present invention, and FIG. 3 is a waveform diagram for explaining its operation. 1... Transverse magnetic field detection circuit, 2... Axial magnetic field detection circuit, 3... Direction discrimination circuit, 4... Degaussing circuit.

Claims (1)

[Claims] 1. In a color television receiver having a degaussing circuit and a geomagnetism detecting device for landing correction, a circuit for determining a specific direction is provided, and the output of this direction determining circuit indicates that the receiver is facing a specific direction. A degaussing device for a color television receiver, characterized in that a demagnetizing device for a color television receiver is configured to detect and operate a degaussing circuit.