KR0136029B1 - Horizontal output transistor protecting circuit - Google Patents

Abstract

In the present invention, when the horizontal frequency signal applied to the horizontal output transistor is disturbed in the horizontal output circuit unit, the frequency of the horizontal synchronization signal becomes high, the retrace time during the horizontal scanning period is shortened, and the scanning time is reduced. As the length increases, the current flowing through the horizontal output transistor increases, which causes the horizontal output transistor to be easily destroyed, thereby adversely affecting the display such that the raster does not appear on the screen of the television. When the current flowing in the horizontal output transistor is above the reference value, the commercial AC power supply is cut off to provide the horizontal output transistor protection circuit which protects the horizontal output transistor from overcurrent.

Accordingly, the present invention provides a horizontal output circuit section 20 having a horizontal deflection circuit section 10 for performing a horizontal deflection of a television, a horizontal output transistor 21 for outputting a horizontal output, and a power supply for supplying an operating power supply for the television. In the television including the circuit unit 30, the power supply circuit unit 30 is a comparator 54 for comparing the output level of the output terminal of the horizontal output transistor 21 and the output level according to the reference horizontal frequency, and the comparator When the overcurrent state of the horizontal output transistor 21 is detected by 54, the microcomputer 46 performs the blocking control of the commercial AC power supply, and the supply path of the commercial AC power is blocked under the control of the microcomputer 46. It characterized in that the configuration further comprises a switching transistor (52).

Description

Horizontal output transistor protection circuit

1 is a diagram for explaining a horizontal output circuit section of a general television.

FIG. 2 is a waveform diagram illustrating the operation of the horizontal output circuit section shown in FIG.

3 is a diagram illustrating a power supply circuit of a television to which a horizontal output transistor protection circuit according to an embodiment of the present invention is applied.

* Description of the symbols for the main parts of the drawings *

10: horizontal deflection circuit portion 12: oscillation portion

14: dispensing unit 16: horizontal drive unit

20: horizontal output circuit 21: horizontal output transistor

22: damper diode 24: deflection coil

26: flyback transformer 30: power circuit

46: microcomputer 46A: crystal oscillator

46B: Divider 52: Switching Transistor

53: relay 54: comparator

The present invention relates to a horizontal output transistor protection circuit of a television. More specifically, when an abnormality occurs in a horizontal output frequency applied to a horizontal output transistor provided in a horizontal output circuit of a television and an overcurrent flows, the abnormal state is detected. A horizontal output transistor protection circuit is provided to protect a horizontal output transistor from overload by cutting off an AC power path.

As is well known, the television employs a horizontal output circuit portion as a means for interrupting the voltage applied to the deflection coil at a cycle of 15.75 KHz to flow the sawtooth current through the horizontal deflection coil. In addition to providing the circuit, a flyback pulse generated in the circuit is used to provide power to circuit devices such as audio, video amplification, and CRT devices.

1 is a diagram illustrating a horizontal output circuit section of a general television. Reference numeral 10 denotes a horizontal deflection circuit section for a conventional horizontal deflection drive, and the horizontal deflection circuit section 10 oscillates 12 for oscillating a predetermined frequency signal. Is divided by the frequency division unit 14 which obtains a horizontal frequency signal (i.e., 15.75 KHz) by dividing a predetermined frequency signal oscillated by the oscillation unit 12 and the horizontal frequency signal provided by the frequency division unit 14. It is configured with a switching transistor and comprises a horizontal drive unit 16 for performing a horizontal deflection drive.

Reference numeral 20 denotes a horizontal output circuit portion connected to the rear end of the horizontal driving portion 16 of the horizontal deflection circuit portion 10, the horizontal output transistor being switched by the horizontal frequency signal provided from the horizontal deflection driving portion 10 ( 21 is connected to the damper diode 22, the impedance elements 23 and 24 representing the deflection yoke impedance, and the horizontal output circuit section 20 to which the flyback transformer 26 is connected.

According to the action of such a horizontal output circuit unit 20;

(a) When the horizontal output transistor 21 is in a non-conductive state, since a reverse bias is applied to the damper diode 22, no current flows in the horizontal output circuit section 20. (t1 in FIG. 2 (a) term).

(b) Subsequently, when a positive pulse is applied to the horizontal output transistor 21 and the horizontal output transistor 21 is turned on, a collector current which increases linearly in time flows through the deflection coil 23, and the current is coiled. The smaller the inductance of and the higher the power supply voltage, the larger (t1 → t2 in Fig. 2 (b)).

(c) If the input of the horizontal output transistor 21 is converted to a negative pulse and the horizontal output transistor 21 is in a non-conducting state, the collector current becomes 0, but the coil current continues to flow and the resonance capacitor Gradually decreases to 0 while charging (from t2 to t3 in FIG. 2C).

(d) After that, discharge is started toward the deflection coil 24 on the resonant capacitor side, and reverse current flows through the deflection coil 23 (t3? t4 in Fig. 2C).

(e) In the LC-only resonant circuit, the deflection coil current begins to charge the resonant capacitor in a reverse polarity to the process of (c) above, but the voltage between the terminals of the deflection coil 23 is damped by the damper diode 22. Since (22) is the forward bias, the current of the deflection coil 24 does not flow through the resonant capacitor, but flows to the diode 22 while charging the power to absorb the resonance phenomenon (t5? T1 'in FIG. 1 (d)). )

(f) When the current of the damper diode 22 becomes zero, a positive pulse is applied to the base of the horizontal output transistor 21 again to the state of (b), and the above process is repeatedly executed. A sawtooth wave current always flows through the deflection coil 24.

However, if the synchronization of the horizontal frequency signal applied to the horizontal output transistor 21 is disturbed and the frequency of the horizontal synchronization signal becomes high, the retrace time during the horizontal scanning period is shortened and the scanning time is reduced. As a result, the current flowing through the horizontal output transistor 21 is increased, and the horizontal output transistor 21 is easily damaged, thereby causing adverse effects such as no raster appearing on the screen of the television.

Accordingly, the present invention has been made in view of the above circumstances, and when an abnormality occurs in the horizontal output frequency applied to the horizontal output transistor and the current is detected as an overcurrent condition in which the current is higher than the reference value, the commercial AC power supply is cut off and the horizontal output transistor is overcurrent. It is an object of the present invention to provide a horizontal output transistor protection circuit to protect against.

In order to achieve the above object, according to a preferred embodiment of the present invention, a horizontal deflection circuit section for performing a horizontal deflection of a television, a horizontal output circuit section having a horizontal output transistor for performing a horizontal output, and supplying operating power for the television A television comprising a power supply circuit section, wherein the power supply circuit section compares an output level of an output terminal of the horizontal output transistor with an output level according to a reference horizontal frequency, and detects an overcurrent state of the horizontal output transistor by the comparator. When the commercial AC power is controlled to block the control, and a horizontal output transistor protection circuit further comprises a switching transistor for blocking the supply path of the commercial AC power under the control of the microcomputer.

According to the horizontal output transistor protection circuit according to the present invention configured as described above, when the horizontal output circuit unit is detected as an overcurrent state by comparing the current level output from the horizontal output transistor with a horizontal frequency of 15.734KHz set as the reference frequency in the microcomputer By switching the switching transistor under control and switching off the commercial AC power supply, the adverse effect of the horizontal output transistor due to the overcurrent is prevented.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 is a diagram showing the configuration of the power supply circuit unit 30 for protecting the horizontal output transistor 21 from the overcurrent state by cutting off the commercial AC power in the overcurrent state of the horizontal output transistor 21. The first transformer 40 for transforming the commercial AC power supply to a constant level, the first rectifier 41 for rectifying the voltage transformed by the transformer 40 and the capacitor 42 for smoothing the rectified voltage, The standby power system comprising a power regulator 43 for reducing the rectified voltage to a constant voltage (for example, 5V) has a microcomputer 46 which performs overall function control of the television and overcurrent protection of the horizontal output transistor 21. ) Is connected and rectified through the second rectifier 47 and the smoothing elements 48 and 49, and the second rectifier 47 and the smoothing elements 48 and 49 rectifying the commercial AC power source. Once applied to the high-SMPS (Switching Mode Power Supply) circuit 50, which of the flyback transformer 28 shows the smoothed voltage to the first is also connected.

The microcomputer 46 is provided with a crystal oscillator 46A for generating a horizontal frequency of 15.734 KHz and a divider 46B for dividing the horizontal frequency generated from the crystal oscillator 46A. In addition, in the apparatus of the present invention, the horizontal output frequency from the emitter side of the horizontal output transistor 21 shown in FIG. 1 is applied through the non-inverting terminal (+), and the microcomputer is received through the inverting terminal (-). A comparator 54 for receiving and comparing a horizontal frequency of 15.734 KHz from the divider 46B of 46 is provided.

Here, the output signal according to the comparison result from the comparator 54 of the microcomputer 46 is input to the first input terminal I1 and recognized, and the AC power path is connected through the first output terminal O1. A switching transistor for outputting a control path for interruption, and switching the drive signal to the first output terminal (O1) by a control signal for interrupting the power supply to block a relay 53 having a contact formed on the commercial AC power path. 52 is connected.

The operation of the present invention made as described above will be described in detail with reference to the accompanying drawings.

First, the commercial AC power is transformed to a constant level by the first transformer 40, and then rectified by the first rectifier 41, and the rectified voltage is supplied by the power regulator 43 to a constant level of voltage (for example, 5V) is applied to the microcomputer 46 as a standby power source.

In this state, when a power-on signal is applied to the microcomputer 46, the microcomputer 46 controls a high-level control signal for switching connection of the power path to the switching transistor 52 through the resistor 51. Therefore, the switching transistor 52 controls the power path to the commercial AC power source by driving the relay 53 having a contact interposed on the commercial AC power path.

Therefore, the commercial AC power is applied to and rectified by the second rectifier 47 through the contact of the relay 53, and then the operating voltage B + or the smoothing elements 48 and 49 and the SMPS circuit unit 50 are rectified. Vcc) to a subsequent circuit, that is, to the horizontal deflection circuit section 10 and the horizontal output circuit section 20 shown in FIG. Accordingly, the horizontal output circuit unit 20 operates by the processes of (a) to (f) described with reference to FIG. 1 so that a sawtooth current flows through the deflection coil 23 and also by the flyback transformer 26. For example, a high pressure for driving a CRT apparatus (not shown) is obtained so that an operation of a normal television is executed.

During such operation, when overcurrent flows through the horizontal output transistor 21 of the horizontal output circuit unit 20, the comparator 54 non-inverts the horizontal frequency according to the overcurrent from the horizontal output transistor 21. The frequency level of the overcurrent received from the terminal (+) is oscillated by the crystal oscillator 46A of the microcomputer 46 inputted to the second input terminal (-) of the horizontal frequency of 15.734 KHz divided by the divider 46B. When the output level is higher than the output level, the high level output signal is output, and the microcomputer 46 receives the high level output signal from the comparator 54 through the first input terminal I1. As a result, the overcurrent state applied to the horizontal output transistor 21 is recognized, and a low level control signal is output to the switching transistor 52 for the blocking control of the commercial AC power supply.

Therefore, since the switching transistor 52 is controlled in a non-conductive state, the relay 53 having a contact on the commercial AC power path is controlled to be in an inactive state, so that the power path for the commercial AC power is opened. Power to the horizontal output circuit unit 20 is cut off to protect the horizontal output transistor 21 from overcurrent.

As described above, according to the horizontal output transistor protection circuit of the television according to the present invention, the overcurrent state is compared by comparing the current flowing through the horizontal output transistor of the horizontal output circuit unit with the level signal according to the horizontal frequency as a reference frequency generated by the microcomputer. If detected, the commercial AC power is cut off under the control of the microcomputer to protect the horizontal output transistor from an overcurrent state, thereby preventing adverse effects due to malfunction of the horizontal output transistor.

Claims (1)

A horizontal output circuit section 20 having a horizontal deflection circuit section 10 for performing a horizontal deflection of the television, a horizontal output transistor 21 for outputting a horizontal output, and a power supply circuit section 30 for supplying operation power of the television. In the television configured, the power supply circuit section 30 includes a comparator 54 for comparing the output level of the output terminal of the horizontal output transistor 21 with an output level according to a reference horizontal frequency, and the comparator 54 provides the comparator 54 with the output level. When the overcurrent state of the horizontal output transistor 21 is detected, the microcomputer 46 performs the blocking control of the commercial AC power supply, and the switching transistor 52 blocks the supply path of the commercial AC power under the control of the microcomputer 46. Horizontal output transistor protection circuit further comprising a.