KR100363001B1 - System for power sorce supply control for hot-core for vacuum fluorescent display - Google Patents

Abstract

The hot wire power supply control apparatus of the vacuum fluorescent display of the present invention includes an external load detector, a control unit and a power output unit. The external load detector detects an on / off signal of an external load. The control unit sends a pulse signal of high / low repetition to the input terminal of the integrated circuit according to the off signal sensed by the external load detector so that the effective value for the output of the supplied voltage becomes the minimum allowable value of the power supply required for the heating wire supply. To control. The power output unit receives the supply voltage by the control unit and outputs the supplied voltage to the vacuum fluorescent display. The overheating of the heating wire provided in the vacuum fluorescent display of the vehicle is prevented, so that the appearance of unnecessary heating rays is prevented, especially at night, and it is a useful invention that does not need to use a shielding lens having a deep color density as in the past.

Description

Heated power supply control device of vacuum fluorescent display {SYSTEM FOR POWER SORCE SUPPLY CONTROL FOR HOT-CORE FOR VACUUM FLUORESCENT DISPLAY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply control apparatus, and in particular, a hot wire power source of a vacuum fluorescent display capable of controlling the effective value of an output to be a minimum allowable value of a hot wire supply required power according to an off signal sensed by an external load detector. It relates to a feed control device.

A general power supply control device is shown in FIG. As shown in the drawing, the power supply control device includes a transformer T, a first power supply unit 70, a second power supply unit 71, and a third power supply unit 72. After the AC power (not shown) is rectified, the transformer T causes current to flow through the primary coil by the applied voltage B1 to excite the voltage on the secondary side. The first power supply unit 70 rectifies the voltage excited on the first coil S1 of the secondary side of the transformer T by the diode D1 and the capacitor C1 and outputs the voltage B1 to the monitor. The second power supply 71 rectifies and stabilizes the voltage B2 excited by the second coil S2 of the transformer T through the diode D2, the capacitor C2, and the regulator Reg, and then the microcomputer. Is applied to (Mic). The third power supply unit 72 is configured to apply the voltage B2 excited to the secondary coil 3 of the transformer T to the heater H after rectifying through the diode D3 and the capacitor C3. .

Such a power supply control device operates an external load of a vehicle (not shown) and supplies power to a heating wire of a vacuum fluorescence display (VFD). While the vehicle is driving in this state, the automatic temperature controller stops the operation of the external load by the off operation of the off button (not shown). However, since power is continuously supplied to the hot wire of the vacuum fluorescent display, the hot wire is in a state of being viewed from the outside. In this case, the vacuum fluorescent display is attached to a shielding lens so that it is not visible from the outside, and the shielding lens is made to have a high color density so that the heating wire is not visible from the outside.

Therefore, the present invention is to solve the above problems, the technical problem of the present invention is to provide a hot wire power supply control device of a vacuum fluorescent display that can prevent the overheating of the hot wire during the operation of the external load off.

The present invention provides a heat ray power supply control apparatus of a vacuum fluorescent display, comprising: an external load sensing unit sensing an on / off signal of an external load; In response to the off signal sensed by the external load detector, a pulse signal of high / low repetition is sent to the input terminal of the integrated circuit so that the effective value for the output of the supplied voltage becomes the minimum allowable value of the power supply required power supply. A control unit; And a power output unit receiving the supply voltage by the control unit and outputting the supplied voltage to the vacuum fluorescent display.

1 is a view showing the configuration of a general power supply control device.

2 is a block diagram showing a heat ray power supply control device of a vacuum fluorescent display according to an embodiment of the present invention; And

3 is a flowchart showing a heat ray power supply control apparatus of a vacuum fluorescent display according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

PS: Power supply control device

10: external load detection unit 12: control unit

14 integrated circuit 16 power output unit

18: voltage converter 20: current amplifier

22: output voltage control unit 24: vacuum fluorescent display

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3 as follows.

As shown therein, the heating wire power supply control device PS of the vacuum fluorescent display of the present invention includes an external load sensing unit 10, a control unit 12, and a power output unit 16.

The external load detector 10 detects an on / off signal of an external load. Here, the external load is a generic term for everything that requires power supply, such as an air conditioning control system provided to a vehicle.

The control unit 12 transmits a pulse signal in which high / low is repeated to an input terminal of the integrated circuit 14 according to the off signal sensed by the external load sensing unit 10, so that the effective value for the output of the supplied voltage is heated. Control to be the minimum allowable value of the required power supply.

The power output unit 16 receives the supply voltage by the control unit 12 and outputs the supplied voltage to the vacuum fluorescent display.

The operation of the present invention configured as described above is as follows.

When the power of the external load is supplied, power is supplied to the external load and the vacuum fluorescent display 24 from the heat ray power supply control device PS of the present invention. In this state, the operation button of the thermostat (not shown) is pressed to stop the operation of the air conditioning control system. At the same time, all the segments of the vacuum fluorescent display 24 are turned off. At this time, the input signal of the operation button is sensed by the external load detector 10. The external load sensing unit 10 outputs an input signal of an operation button to the hot wire control port in the control unit 12.

Accordingly, the control unit 12 transmits a pulse signal of high / low repetition to an input terminal (not shown) of the integrated circuit 14 according to the off signal sensed by the external load detector 10. In response to the signal, the control unit 12 receives a power supply, wherein the maximum voltage that can be supplied is approximately 15V, and the voltage range for the vehicle operation is 9-16V. Here, the supply voltage is limited to 12V to prevent damage to the integrated circuit. The control unit 12 receiving such a supply voltage controls the output so that the effective value for the output of the voltage becomes the minimum allowable value required for heating the heating wire. The minimum allowable value ranges from "the output voltage is the voltage of the original supply voltage minus the voltage required for the operation of the external load air conditioning control system".

The output voltage is transmitted to the power output unit 16. The power output unit 16 supplies the previously input voltage to a heating wire (not shown) of the vacuum fluorescent display 24 to heat it.

The heating wire power supply control device PS of the present invention further includes a voltage converter 18. The voltage converter 18 is formed of a capacitor to convert the supply voltage into a square wave DC voltage. In other words, the voltage converter 18 limits the frequency of the square wave output.

The hot wire power supply control device PS of the present invention further includes a current amplifier 20. The current amplifier 20 is composed of a resistor and a transistor. The current amplifier 20 amplifies the output circuit of the supply voltage.

The heating wire power supply control device PS of the present invention further includes an output voltage controller 22. The output voltage controller 22 is composed of a resistor and a capacitor. The output voltage controller 22 allows the output voltage to be increased or decreased according to the resistance value in the current amplifier 20.

As described above, in the present invention, a heat ray power supply control apparatus applied to a vacuum fluorescent display mounted on a vehicle has been described, but the present invention is not limited thereto, and may be applied to other fields in which a vacuum fluorescent display is used.

As described in detail above, according to the hot wire power supply control apparatus of the vacuum fluorescent display of the present invention, when the air conditioner control system is an external load, the signal is effective for the output of the voltage supplied by the external load sensing unit. By controlling the value to be the minimum allowable value of the heating power supply required power, the output voltage is reduced by the external load for the operation of the air conditioning control system and provided to the heating wire of the vacuum fluorescent display, thereby preventing overheating of the heating wire, especially at night. Unnecessary visible rays of the phenomenon is prevented, of course, it is a useful invention that does not need to use a shield lens with a deep color density as in the conventional.

Although the present invention has been described in detail only with respect to the embodiments described above, it will be apparent to those skilled in the art that modifications and variations can be made without departing from the spirit and scope of the present invention. It should be limited by the claims.

Claims (5)

In the hot wire power supply control device of the vacuum fluorescent display, An external load detector 10 detecting an on / off signal of an external load; According to the off signal sensed by the external load detector 10, a pulse signal of high / low repeating is sent to the input terminal of the integrated circuit 14, so that an effective value for the output of the supplied voltage is determined by A control unit 12 for controlling the minimum allowable value; And A power output unit 16 receiving the supply voltage from the control unit 12 and outputting the supplied voltage to the vacuum fluorescent display; Heat wire power supply control device of a vacuum fluorescent display comprising a. 2. The apparatus of claim 1, further comprising a voltage converter (18) for converting a supply voltage into a square wave DC voltage. 2. The apparatus of claim 1, further comprising a current amplifier configured to amplify an output circuit of a supply voltage by using a resistor and a transistor. The apparatus of claim 3, further comprising an output voltage controller (22) formed of a resistor and a capacitor such that an output voltage is changed according to a resistance value in the current amplifier 20. . In the hot wire power supply control device of the vacuum fluorescent display, An external load detector 10 detecting an on / off signal of an external load; A voltage converter 18 for converting the supply voltage into a DC voltage in the form of a square wave; In response to the off signal sensed by the external load detector 10, a pulse signal of high / low repeats is sent to the input terminal of the integrated circuit 14 to the output of the converted DC voltage from the voltage converter 18. A control unit 12 for controlling the effective value of the control unit to be a minimum allowable value of the required power supply for the hot wire supply; A current amplifier 20 comprising a resistor and a transistor to amplify the output circuit of the supply voltage; An output voltage controller 22 made of a resistor and a capacitor such that the output voltage is changed according to the resistance value in the current amplifier 20; And A power output unit 16 for supplying the voltage received from the output voltage controller 22 to the vacuum fluorescent display; Heat wire power supply control device of a vacuum fluorescent display comprising a.