KR0119534Y1 - Current control circuits of a monitor - Google Patents

Abstract

The present invention relates to a monitor, and to provide a stable image by controlling the current of the load side for image reproduction in accordance with whether the control signal applied from a predetermined control means in a multi-synchronous monitor.

The present invention is provided with a zener diode which yields when the control signal is not applied from the control means and adjusts the current at the load side for reproducing the image with the reverse current.

Description

Monitor current control circuit

1 and 2 are diagrams illustrating a current control circuit in a conventional monitor.

3 is a configuration diagram of the current control circuit of the monitor according to the present invention.

4 is a characteristic graph of zener diodes.

* Explanation of symbols for main parts of the drawings

10: amplifier 20: negative feedback circuit

30: current loop Q1: transistor

R ₁ , R ₂ , R ₃ : Resistance ZD: Zener Diode

The present invention relates to a monitor, and more particularly to a current control circuit of the monitor to perform a stable operation by controlling the current for the frequency and circuit control in accordance with whether the control signal from the outside in the multi-synchronous monitor.

In general, multi-synchronis monitors, in which a monitor synchronizes video signals and controls vertical and horizontal deflections through a horizontal coil and reproduces a predetermined image, are used to achieve a higher resolution image. A deflection frequency of 31 KHz to 48 KHz or 31 KHz to 64 KHz band is used.

In the conventional monitor, as shown in FIG. 1 of the accompanying drawings, the current control circuit includes an amplifier when a control signal for a frequency voltage is applied to the non-inverting terminal (+) side of the amplifier 10 from a predetermined control means. (10) amplifies to a predetermined level according to the reference voltage of the negative feedback circuit portion 20 set by the resistor (R1) and the capacitor (C) to the inverting terminal (-) and outputs a control signal in a high state to output an NPN type switching transistor. When the base terminal of Q1 is supplied with a bias voltage, the NPN type switching transistor Q1 is turned on by an applied bias voltage. Therefore, since the current at the load side V1 is adjusted to a predetermined state through the resistor R2, an image is realized.

In the current control circuit as described above, since the transistor Q1 remains off in a state where a predetermined control signal from the control means is not applied to the non-inverting terminal (+) of the amplifier 10, the current control circuit is applied to the resistor R ₂ . The current formed is formed with I ₁ = 0. After that, when a predetermined control signal is applied from the control means to the non-inverting terminal (+) of the amplifier (Q1), the transistor (Q1) is turned on so that a sudden current flow occurs in the load (V1), the circuit to be controlled, and the system becomes unstable. In the case of a multi-synchronous monitor using a wide frequency band, there is a problem in that it takes a lot of time due to image reproduction.

In addition, as shown in FIG. 2, when a predetermined control signal is applied from the control means to the non-inverting terminal (+) of the amplifier 10, the amplifier 10 is connected to the inverting terminal (-). R ₁ ) and amplified to a predetermined level according to the reference voltage of the negative feedback circuit portion 20 set by the capacitor C1 are applied to the base terminal of the transistor Q1 in the high state. Transistor Q1 is turned on by the preference of the high state being applied. At this time, the current I _{1 on the} side of the load V1 is the current I _P flowing through the resistor R ₃ of the current loop 30 and the current flowing through the emitter terminal of the transistor Q1 to the resistor R ₂ ( _Branched to I _C1 ), the current on the load V1 side is adjusted to a predetermined state.

Since there is no control signal applied to the non-inverting terminal (+) of the amplifier 10, since the bias voltage applied to the base terminal of the transistor Q1 is formed low, the transistor Q1 maintains the off state. At this time, the current _I 1 on the side of the load V1 is adjusted to the current I _P flowing only through the resistor R ₃ of the current loop 30.

The current control circuit as described above is adjusted to the current I ₁ = IR ₃ (I _P ) on the side of the load V1 which is adjusted at the turn-on of the transistor Q1. Therefore, since the current adjusted to the load V1 is changed according to the on / off of the transistor Q1, accurate current cannot be adjusted and the system is unstable due to unstable current control.

The present invention has been devised in view of the above-described problems, and its purpose is to control the current supplied to the monitor according to the application of the control signal from the outside, and to prevent the sudden operation of the load side even when the control signal is suddenly applied. To do it.

A characteristic of the present invention for achieving the above object is a current control circuit having an amplifying means for amplifying a control signal applied from the control means to a predetermined level, and a switching means switched according to the output signal of the amplifying means. In the present invention, when the switching means is turned off, the reverse current I _P is supplied to the ground side to adjust the current I _{1 on} the load side to a predetermined state, and the reverse current I _P when the switching means is on. And a Zener diode (ZD) for supplying a current (I ₁ ) of the load side to the ground side to block the current supply circuit provides a current control circuit of the monitor.

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

3 is a configuration diagram of a current control circuit of a monitor according to the present invention, and FIG. 4 is a characteristic graph of a zener diode.

As can be seen in FIG. 3, the present invention is composed of an amplifier 10, a negative feedback circuit portion 20, a current loop 30, a transistor Q1, and a zener diode ZD. When a predetermined control signal is applied from the predetermined control means through the non-inverting terminal (+), the control signal applied according to the reference voltage of the negative feedback circuit unit 20 set by the resistor R ₂ and the capacitor C is predetermined. Amplify to the level. The transistor Q1 is an NPN type switching transistor and is switched in accordance with a bias voltage applied from the amplifier 10 to the base end. The current loop 30 is composed of a zener diode ZD and a resistor R ₃ having the characteristics as shown in FIG. 4, and by the current on the load V1 side with the transistor Q1 turned off. It is broken and a predetermined current I _P is applied to the ground side through the resistor R ₃ .

Referring to the operation of the present invention configured as described above as follows.

When a predetermined signal for controlling the current of the multi-synchronous monitor from the predetermined control means is applied to the non-inverting terminal (+) of the amplifier 10, the amplifier 10 is connected to the inverting terminal (-) with a resistor R1 and a capacitor ( A control signal applied according to the reference voltage of the negative feedback circuit unit 20 set to C) is amplified and a control signal in a high state is applied as a bias voltage to the base terminal of the transistor Q1. The transistor Q1 is turned on by the bias voltage in the high state to apply the current I _{1 on} the load V1 side to the ground side through the resistor R ₂ to regulate the current on the load V1 side.

At this time, if a predetermined control signal applied to the non-inverting terminal (+) of the amplifier 10 from the control means is cut off, the amplifier 10 outputs a control signal in a low state and applies it to the base terminal of the transistor Q1. Although Q1 is turned off, the zener diode ZD of the current loop 30 connected to the collector terminal of the transistor Q1 is attached after a predetermined time has elapsed by the current I _P on the side of the load V1 applied. As shown in FIG. 3, a breakdown voltage is generated so that a reverse current is supplied to the ground side through the resistor R ₃ and the resistor R ₂ , so that the current on the load V1 side is adjusted.

Therefore, the supply of the operating power of the load (V1) side of the multi-synchronous monitor is cut off, but the current is regulated in a stable state by the reverse current and is in the standby state.

Then, when a predetermined control signal is applied from the control water to the non-inverting terminal (+) of the amplifier 10, the transistor Q1 is turned on so that the current I ₁ on the load V1 side is a characteristic of the zener diode ZD. Since the path is converted and applied to the ground side through the resistor R ₂ , the regulated current potential on the load V1 side is maintained in a stable state to exclude sudden operation, to prevent damage to the system, and to reproduce the image. The operation time is shortened to provide a stable image.

As described above, in the present invention, the current on the load side is adjusted to the current flowing in the reverse direction by the zener diode's breakdown even when the control signal for the image reproduction is not applied when controlling the current for the image reproduction of the multi-synchronous monitor. The system is stabilized and the image reproduction time is shortened.

Claims (1)

A current control circuit having an amplifying means for amplifying a control signal applied from a control means to a predetermined level, and a switching means for switching in accordance with an output signal of the amplifying means, wherein the current control circuit breaks down when the switching means is turned off, The current I _P is supplied to the ground side to regulate the current I _{1 on} the load side in a stable state, and the current I _{1 on} the load side is cut off to the ground side by cutting off the current I _{P in the} reverse direction when the switching means are turned on. And a zener diode (ZD) for supplying.