KR100271819B1 - Apparatus for regulating a horizontal deflection signal - Google Patents

Abstract

An apparatus for adjusting a horizontal deflection signal according to the present invention includes an amplifier, a frequency detector, a current detector, and a controller. The amplifier generates a horizontal deflection signal to be applied to the horizontal deflection coil of the cathode ray tube according to the input horizontal driving signal and the applied power supply voltage. The frequency detector generates data corresponding to the frequency of the horizontal driving signal. The current detector generates data of a current value flowing from the supply of the power supply voltage to the amplifier. The controller adjusts the capacitance between the output terminal and the ground terminal of the amplifier according to the data from the frequency and current detectors.

Description

Adjusting device for horizontal deflection signal

The present invention relates to an apparatus for adjusting a horizontal deflection signal, and more particularly, to an apparatus for adjusting a pulse width and a level of a horizontal deflection signal to be applied to a horizontal deflection coil of a cathode ray tube.

In the cathode ray tube, when the frequency of the horizontal driving signal varies, a phenomenon occurs that the screen area and the image quality change. This is because the pulse width and level of the horizontal deflection signal corresponding to the horizontal drive signal change. Therefore, when the frequency of use of the horizontal drive signal changes, a device capable of adjusting the corresponding screen area and image quality is needed.

Referring to FIG. 1, a conventional horizontal deflection signal adjusting device includes an amplifier 11, a power supply voltage supply unit 12, capacitor combination circuits 13 and 15, and switching switches 14 and 16.

The amplifier 11 generates a horizontal deflection signal to be applied to the horizontal deflection coil of the cathode ray tube according to the input horizontal drive signal and the power supply voltage applied from the power supply voltage driver 12. Each capacitor combination circuit 13 and 15 is provided with terminals of different capacitances, and each terminal is connected to the ground terminal by a corresponding switching switch 14 or 16.

Here, when the capacitance between the output terminal and the ground terminal of the amplifier 11 is changed by the switching switches 14 and 16, the pulse width and level of the horizontal deflection signal are changed. This is because the capacitance between the output terminal and the ground terminal of the amplifier 11 determines the output time constant and impedance. Accordingly, the user manually adjusts the screen area and the image quality while viewing the screen and operating the changeover switches 14 and 16.

The conventional adjusting device as described above has the following problems as it operates by the user's switch operation.

First, the adjustment time is long, and the precision of the adjustment is inferior.

Second, in the adjustment process, since all set capacitances are tested, there is a risk of overcurrent flowing by selection of an inappropriate capacitance. In addition, since the contact type switching by the switching switches 14 and 16 is performed, there is a risk that an overcurrent flows at the switching time. This becomes a factor of shortening the lifetime of the cathode ray tube and its driving circuit.

An object of the present invention is to provide an apparatus for adjusting a horizontal deflection signal, which can be automatically operated without the user's switch operation.

1 is a block diagram showing an apparatus for adjusting a conventional horizontal deflection signal.

2 is a block diagram showing an apparatus for adjusting a horizontal deflection signal according to the present invention.

<Explanation of symbols for the main parts of the drawings>

11, 21 ... amplification, 12, 22 ... power voltage supply,

13, 15, 231 ... capacitor combination circuit, 14, 16 ...

23 ... control section, 232 ... transistor array,

233 ... microcomputer, 24 ... condenser,

25 ... frequency detector, 26 ... current detector.

An apparatus for adjusting a horizontal deflection signal according to the present invention for achieving the above object includes an amplifier, a frequency detector, a current detector, and a controller. The amplifying unit generates a horizontal deflection signal to be applied to the horizontal deflection coil of the cathode ray tube according to the input horizontal driving signal and the applied power supply voltage. The frequency detector generates data corresponding to the frequency of the horizontal driving signal. The current detector generates data of a current value flowing from the supply of the power supply voltage to the amplifier. The controller adjusts the capacitance between the output terminal and the ground terminal of the amplifier according to the data from the frequency and current detector.

Accordingly, the horizontal deflection signal adjustment device of the present invention can operate automatically without the user's switch operation.

Hereinafter, preferred embodiments of the present invention will be described in detail.

Referring to FIG. 2, the apparatus for adjusting a horizontal deflection signal according to the present invention includes an amplifier 21, a frequency detector 25, a current detector 26, and a controller 23.

The amplifier 21 generates a horizontal deflection signal to be applied to the horizontal deflection coil of the cathode ray tube according to the input horizontal drive signal and the power supply voltage applied from the power supply voltage supply unit 22.

The frequency detector 25 generates data corresponding to the frequency of the horizontal driving signal. That is, a voltage signal corresponding to the frequency of the horizontal driving signal is generated and then converted into digital data.

The current detector 26 generates data of a current value flowing from the power supply voltage 22 to the amplifier 21. That is, a signal of the amount of current flowing from the power supply voltage 22 to the amplifier 21 is detected and converted into digital data.

The control unit 23 includes a capacitor combination circuit 231, a transistor array 232, and a microcomputer 233. The capacitor combination circuit 231 is provided with terminals of different capacitances, and each terminal is connected to a corresponding collector terminal of the transistor array 232. The microcomputer 233 executes an embedded algorithm and outputs a selection signal corresponding to the frequency data from the frequency detector 25 and the current data from the current detector 26. Each transistor in the transistor array 232 is turned on when the selection signal of the "high" state is input to the base, and is turned on when the selection signal of the "low" state is input. It is turned off. Accordingly, the terminals of different capacitances from the capacitor combination circuit 231 are connected to the ground terminal when the corresponding transistor is turned on, and floated when turned off.

When the frequency of the horizontal driving signal input to the amplifier 21 varies, the controller 23 automatically adjusts the capacitance between the output terminal and the ground terminal of the amplifier 21 according to the frequency and current data. When the capacitance is adjusted in this manner, the horizontal deflection signal has its pulse width and level adjusted according to its output time constant and impedance. The adjusted horizontal deflection signal is applied to the horizontal deflection coil of the cathode ray tube through the constant capacitance capacitor 24, so that the corresponding screen area and image quality are automatically adjusted.

As described above, according to the apparatus for adjusting the horizontal deflection signal according to the present invention, since the automatic operation can be performed without the user's switch operation, the following effects are obtained.

First, the time required for adjustment is lost, and the precision of the adjustment is increased.

Second, in the adjustment process, since only the capacitance according to the execution of the algorithm is selected, there is no risk of overcurrent flowing by the selection of an inappropriate capacitance. In addition, since the contactless type switching by the transistor array is performed, there is no risk of overcurrent flowing at the switching time. As a result, the lifetime of the cathode ray tube and its driving circuit can be increased.

The present invention is not limited to the above embodiments, and modifications and improvements are possible at the level of those skilled in the art.

Claims (1)

An amplifier for generating a horizontal deflection signal to be applied to the horizontal deflection coil of the cathode ray tube according to the input horizontal driving signal and the applied power supply voltage; A frequency detector for generating data corresponding to the frequency of the horizontal driving signal; A current detector for generating data of a current value flowing from the supply of the power supply voltage to the amplifier; And And a control unit for adjusting the capacitance between the output terminal and the ground terminal of the amplifier according to data from the frequency and current detectors.