KR200162127Y1 - The earth magnetic field correcting circuit on single power - Google Patents

Abstract

The present invention relates to a correction circuit for the effect of the television receiver on the earth's magnetic field, and in particular, a conventional circuit that uses a positive power supply by providing a circuit for generating a bidirectional current for driving the geomagnetic field correction coil using only a single power source. Compared to this, not only the circuit configuration for power supply can be simplified, but also the stable operation of the entire device can be realized according to the power stabilization.

Description

Single power geomagnetic field correction circuit

The present invention relates to a single power geomagnetic field correction circuit that implements a geomagnetic field correction circuit of a television receiver (hereinafter referred to as a "TV receiver") using only a single power source.

TV receivers using Cathode Ray Tube (CRT) have a phenomenon in which the left and right sides of the screen are shifted up and down due to the influence of the earth's magnetic field, that is, the earth's magnetic field, depending on the installation directions of east, west, south and north. Therefore, in order to realize a stable image regardless of the installation direction, the above-mentioned phenomenon should be corrected. For this purpose, the earth magnetic field correction coil is wound on the front of the deflection coil fixing part of the cathode ray tube so that the current direction and the amount of current can be changed. This function compensates for the tilt of the screen according to the flow direction.

In this case, in order to give a direction to the current flowing through the geomagnetic field correction coil, a positive power of (+) and (-) is conventionally used, and FIG. 1 is a block diagram showing an example of the conventional geomagnetic field correction circuit.

As shown in FIG. 1, an input signal for correcting a geomagnetic field is input to a differential amplifier 10, and an output of the differential amplifier is applied to an output unit 12 that generates a correction current through a buffer unit 11. . The current generated from the output unit 12 is supplied to the geomagnetic field correction coil whose one end is grounded.

The operation of the conventional geomagnetic field correction circuit configured as described above is as follows. First, when a user's input signal is applied to the differential amplifier 10 to correct the tilt of the TV receiver with respect to the influence of the geomagnetic field, the differential amplifier 10 sets a preset reference signal and a corrected input signal by the user. Compare the voltage and amplify the difference and output. The amplified voltage is inputted to the output unit 12 through the buffer unit 11 having a voltage gain of 1 while eliminating the backflow and the loading effect of the current occurring at the rear stage. The output unit 12 is a circuit part for controlling the direction of the current flowing through the geomagnetic field correction coil, and positive power source, that is, (+) and (-) power source to generate a bidirectional current in the geomagnetic field correction coil grounded at one end. This is necessary. At this time, the direction of the current according to the power source is changed depending on the mounting direction of the geomagnetic field correction coil. On the other hand, the magnitude of the current flowing into the geomagnetic field correction coil is determined by the magnitude of the output signal of the differential amplifier 10 according to the correction input.

In addition, the tilt is corrected by adjusting the deflection force and the deflection direction of the electron beam by the magnitude and direction of the current generated by the process and flowing to the geomagnetic field correction coil.

However, the conventional geomagnetic field correction circuit having the above-described configuration and operation is not only complicated in its circuit configuration, such as having to draw two kinds of power from the power supply circuit of a TV receiver by using a bidirectional power source. There was a problem that the operating state of the power supply and the device is somewhat unstable.

Accordingly, an object of the present invention is to provide a short-power geomagnetic field correction circuit for simplifying the circuit by implementing the geomagnetic field correction circuit of a TV receiver using only a single power source, not a positive power source, and stabilizing the operation state and power of the device. have.

1 is a block diagram showing an example of a conventional geomagnetic field correction circuit;

2 is a circuit diagram showing an embodiment of a single power geomagnetic field correction circuit to which the present invention is applied.

Explanation of symbols used in the main part of the drawing

10: differential amplifier

11: buffer

12: output unit

20: microcomputer

21: D / A Converter

22: differential amplifier circuit

U1: Operational Amplifier

R1-R4: Resistance

A feature of the single power geomagnetic field correction circuit according to the present invention for achieving the above object is that the correction input signal input by the user is a microcomputer and a digital / analog converter (hereinafter referred to as "DAC"). The present invention provides a circuit for inputting a differential amplifier circuit driven by a single power supply through a second power supply, and allowing a bidirectional current to flow through a geomagnetic field correction coil by an output of the differential amplifier circuit.

Hereinafter, a preferred embodiment of the single power geomagnetic field correction circuit according to the present invention will be described in detail with reference to FIG. 2.

As shown in FIG. 2, in the single-power geomagnetic field correction circuit, a correction input signal for the influence of the geomagnetic field input by a user is input to a microcomputer 20 embedded in a TV receiver, and the microcomputer 20 The output signal of is applied to the input of the DAC 21. The output signal of the DAC 21 is applied to one input Vi of the differential amplifier circuit 22 configured around the operational amplifier U1 driven by a single power supply (+ Vcc2), and compared with the reference voltage Vref. After that, the output signal of the differential amplifier circuit according to the difference is applied to the geomagnetic field correction coil.

The operation of the single power geomagnetic correction circuit of FIG. 2 having such a component is as follows.

When the influence of the earth's magnetic field appears depending on the installation direction of the TV receiver, and the image is tilted on the screen, the user tries to remove the influence by manual operation. It is applied as a digital value to the microcomputer 20 located at, and the digital output value of the microcomputer 20 according to this value is applied to the input of the DAC 21. The DAC 21 converts the input digital signal into an analog signal for driving the rear circuit. The analog signal thus converted and processed is applied to one input Vi of the differential amplifier circuit 22 composed of the operational amplifier U1 and the plurality of resistors, and another input of the differential amplifier circuit 22 is connected to the resistor R4. The reference voltage Vref preset by R3 and R2 and the power supply (+ Vcc1).

The operation of the differential amplifier circuit 22 according to the application of the two input signals as described above, first, the signal-corrected input signal applied to the non-inverting terminal of the operational amplifier U1 and the inverted terminal Compare (Vi) and, if the reference voltage (Vref) is large, the current flows to the geomagnetic field correction coil by the power supply + Vcc2 in the path as shown in FIG. On the other hand, when the correction input signal Vi is larger than the reference signal Vref, the current flows to the geomagnetic field correction coil by the power supply + Vcc1 in the opposite direction, that is, as shown in FIG. At this time, the magnitudes of the two power supplies are in a relationship of + Vcc2> + Vcc1.

In addition, the magnitude of the current applied to the geomagnetic field correction coil to determine the degree of correction for the geomagnetic field is determined according to the magnitude of the correction input signal input by the user as in the prior art, and the correction current is proportional to the correction input signal. Use only the active region of the operational amplifier to supply

As described above, according to the single-power geomagnetic field correction circuit according to the present invention, a correction input signal input by a user is input to a differential amplifier circuit driven by a single power supply through a microcomputer and a DAC, and the output of the differential amplification circuit. By constructing a geomagnetic field correction circuit of a TV receiver that flows bidirectional current through the geomagnetic field correction coil, the circuit can be simplified and power stabilized more than in a component circuit using both power sources. It is effective to stabilize.

Claims (1)

A microcomputer receiving an input signal for correcting the geomagnetic field and outputting a digital signal accordingly; A digital / analog converter which receives the digital output signal of the microcomputer and converts the analog output signal into an analog signal; Single power geomagnetic field characterized in that it is applied to the output signal of the digital / analog conversion unit and compared with a predetermined reference signal to amplify the difference and output to the geomagnetic field correction coil, and is composed of a differential amplifier circuit unit driven by a single power source Correction circuit.