KR20040092804A - Apparatus for controlling high voltage of field emission display - Google Patents

Abstract

PURPOSE: An apparatus for controlling a high voltage of a field emission display(FED) panel is provided to stabilize the quality of the image and to prevent unnecessary noise by applying the high voltage to the FED panel when input signal is only normal. CONSTITUTION: An apparatus for controlling a high voltage of an electric field emission display panel includes a monostable multivibrator(20), a high voltage switch(40), an input signal detection unit(60), a high voltage generation unit(50), an output voltage detection unit(70) and a duty control unit(10). The monostable multivibrator(20) outputs the pulse type frequency having a predetermined duty cycle. The high voltage switch(40) performs on/off by the frequency signal. The input signal detection unit(60) outputs the off signal to the high voltage switch(40) as a ground voltage when the vertical synchronization signal does not exist. The high voltage generation unit(50) converts the high pulse type voltage into the direct high voltage and outputs the converted high voltage to the anode electrode of the FED device. The output voltage detection unit(70) detects the direct high frequency outputted from the high voltage generation unit(50). And, the duty control unit(10) outputs a predetermined duty control signal to the single stable multi-vibrator(20) by receiving the predetermined voltage outputted from the output voltage detection unit(70).

Description

High voltage control device for field emission display device {APPARATUS FOR CONTROLLING HIGH VOLTAGE OF FIELD EMISSION DISPLAY}

The present invention relates to a field emission display device, and more particularly, to a high voltage control device for a field emission display device for stably applying a high voltage to an anode electrode of a device to protect the device and to display a stable screen by preventing unnecessary noise. .

Recently, various flat panel displays have been developed to reduce weight and volume, which are disadvantages of cathode ray tubes (CRT). Among such flat panel displays, there is a field emission display (FED), which emits electrons by applying a predetermined electric field to the upper and lower electrodes of the cathode of the FED, and emits the electrons. It is a device for displaying predetermined information using.

1 and 2 show a cross-sectional view of a typical FED cell and a plan view of a FED panel composed of the FED cell. As shown, an anode electrode 7 for applying a high voltage to the cell 8, a high voltage terminal 9 for applying a high voltage to the anode 7, and a predetermined image Comprising a phosphor layer 6 for displaying, the lower glass 1 has a scan electrode 2 as a source for emitting electrons e, and a data electrode as a trigger electrode for generating electrons. (4), an insulating layer (3) for insulating the scan electrode (2) and the data electrode (4), and a spacer for keeping the gap between the upper glass (8) and the lower glass (1) constant. (5).

Looking at the operation of the FED configured as described above are as follows. When a predetermined voltage is applied between the data electrode 4 and the scan electrode 2, electrons are emitted from the scan electrode 2, and the electrons are insulated from the insulating layer 3 and the data electrode by a quantum mechanical tunnel effect. It is discharged through (4).

The emitted electrons e are accelerated toward the anode to which the phosphor layer 6 is applied by a larger anode voltage (hundreds of V to several KV) applied to the anode electrode 7 through the high voltage terminal 9, When the accelerated electrons collide with the phosphor layer 6, electrons of a specific element in the phosphor are excited by the impacted energy and fall off to generate light to display an image.

However, in the conventional FED panel, when a vertical sync signal (V sync) or a vertical blank signal (V blank) that drives the panel is not input or is not connected, the image is not displayed and the image is driven in the previous state. There is a problem that noise occurs in the panel by the charges charged in the.

In addition, since the high voltage applied to the conventional FED panel is applied irrespective of the input signal, there is a problem that the entire system is unstable because the FED cell provided in the panel may be destroyed or destroyed by the applied high voltage.

Therefore, in view of the above problems, the present invention checks the presence or absence of a vertical synchronization signal of an externally input panel and applies a high voltage to the FED panel only for a normally input signal, thereby protecting the device and stabilizing image quality. It is an object of the present invention to provide a high voltage control device for a field emission display device which can prevent the display of unnecessary noise.

1 is a cross-sectional view showing a cell structure of a typical FED.

Figure 2 is a plan view showing the overall connection structure of the FED panel.

3 is a block diagram showing a configuration of a high voltage control device of the field emission display device of the present invention;

4 illustrates an output signal for the input signal of FIG.

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

10: Duty control unit 20: Monostable multivibrator

30: buffer 40: high voltage switch

50: high voltage generation unit 50a: high voltage conversion unit

50b: rectifier 60: input signal detector

60a: low pass filter (LPF) 60b: comparator

70: output voltage detector SW1: switching means

The present invention for achieving the above object is a monostable multivibrator for outputting a pulse signal having a predetermined duty cycle and receives a vertical sync signal (V sync) and a predetermined duty control signal from the outside, A high voltage switch turned on / off by a pulse type frequency signal output from the monostable multivibrator, and a ground voltage is detected by the high voltage switch when there is no vertical sync signal. An input signal detector for outputting an off signal and a high voltage for converting a high voltage in a pulse form generated by the on / off of the high voltage switch into a direct current high voltage, and outputting the converted direct current high voltage to an anode of the field emission display device. And a DC high voltage output from the high voltage generator to detect a predetermined voltage. And an output voltage detector for outputting a duty controller for receiving a predetermined voltage output from the output voltage detector and outputting a predetermined duty control signal to the monostable multivibrator.

The input signal detector is configured to compare a predetermined voltage output from the low pass filter (LPF) and the predetermined voltage output from the low pass filter with a preset voltage and receive a vertical synchronizing signal input from the outside. And a switching means controlled by an on or off switching signal output from the comparator and outputting a ground voltage to the high voltage switch when the on switching signal is received.

The high voltage generator includes a high voltage converter for outputting a high voltage in a pulse form by the operation of the high voltage switch, and a rectifier for converting the high voltage of the pulse type output from the high voltage converter into a DC high voltage and outputting the DC voltage to the anode. It is characterized by the configuration.

A preferred embodiment of the high voltage control device of the field emission display device according to the present invention having the above characteristics will be described with reference to the accompanying drawings.

3 is a block diagram showing the configuration of the high voltage control device of the field emission display device of the present invention. As shown in the figure, the external unit receives a vertical sync signal V sync or a vertical blank signal V blank IN and a predetermined duty control signal to output a frequency signal in the form of a pulse having a predetermined duty cycle. A stable multivibrator 20, a buffer (for example, an emitter follow) 30 which receives and outputs a pulse-like frequency signal output from the monostable multivibrator 20, and a vertical synchronization signal input from the outside An input signal detector 60 for detecting the presence of IN and outputting an off signal that is a ground voltage to the buffer 30 when the vertical synchronization signal is not input, and a pulse type output from the buffer 30. The high voltage switch 40 turned on or off by the frequency signal, and the high voltage in the form of pulse generated by the on / off of the high voltage switch 40 is converted into a direct current high voltage, and the converted direct current high voltage is applied to the electric field. A high voltage generator 50 for outputting to the anode electrode 7 of the light emitting display element; an output voltage detector 70 for detecting a DC high voltage output from the high voltage generator 50 and outputting a predetermined voltage; The duty controller 10 receives a predetermined voltage output from the output voltage detector 70 and outputs a predetermined duty control signal to the monostable multivibrator 20.

In addition, the input signal detection unit 60 receives a vertical synchronizing signal IN input from the outside, converts it into a predetermined voltage, and outputs the low pass filter (LPF) 60a and the low pass filter 60a. When the output voltage is controlled by the comparator 60b comparing the predetermined voltage outputted with the preset voltage and outputting an on or off switching signal, and the on or off switching signal output from the comparator 60b, and receiving the on switching signal. It is characterized by comprising a switching means (SW1) for outputting a ground voltage to the buffer (30). At this time, when no signal is applied to the LPF 60a, the comparator 60b outputs an on switching signal to the switching means SW1.

In addition, the high voltage generator 50 may output a high voltage in the form of a pulse by the operation of the high voltage switch 40, and a high voltage in the form of a pulse output from the high voltage converter 50a. A rectifier 50b for converting to DC high voltage Vout and outputting to the anode electrode 7 of the field emission display device is provided.

An operation of the present invention having such a configuration will be described with reference to FIG. 4 by dividing the case where the vertical synchronization signal is input (FIG. 4A) and the case where it is not input (FIG. 4B).

First, as shown in FIG. 4A, when the vertical sync signal V sync or the vertical blank signal V blank is input, the monostable multivibrator 20 has a pulse having a constant duty cycle compared to its oscillation frequency. Output the frequency of the form.

On the other hand, the LPF 60a of the input signal detector 60 receives the input signal, converts it to a predetermined voltage, and outputs the converted signal. That is, the pulse type signal is converted into a predetermined voltage and output by the integrating circuit.

The comparator 60b receives the predetermined voltage output from the LPF 60a and compares it with a preset voltage to output an off switching signal, and SW1 is floating by the off switching signal output from the comparator 60b. It becomes a state. That is, no voltage is output to the buffer 30.

The buffer 30 receives a frequency in the form of a pulse having a predetermined duty cycle output from the monostable multivibrator 20 and outputs it to the high voltage switch 40, and the high voltage switch 40 is driven by the frequency in the form of the pulse. On / off is applied to the high voltage converter 50a.

The high voltage converter 50a operates by an on / off signal output from the high voltage switch 40 to output a high voltage in pulse form, and the high voltage in pulse form passes through the rectifier 50b to provide a high voltage in direct current form. Vout) and applied to the anode electrode 7 of the field emission display device. In this case, the output DC high voltage Vout is divided by predetermined resistors R ₁ and R ₂ , and the output voltage detecting unit 70 receives the voltage divided by the resistor R ₂ to set the voltage to a predetermined voltage. A predetermined voltage is output in comparison with. Here, the predetermined voltage output from the output voltage detector 70 depends on the value (level) of the DC high voltage output from the rectifier 60b, and is negative when the DC high voltage value is larger than the steady state value. ) Outputs a voltage and, if it is small, outputs a positive voltage.

The duty controller 10 receives a predetermined voltage (positive voltage or negative voltage) output from the output voltage detector 70 and outputs a duty control signal for changing the duty cycle of the pulse to the monostable multivibrator 20. . That is, when the DC high voltage output from the rectifier 60b is large, the duty cycle of the pulse output from the monostable multivibrator 20 is reduced to reduce the high voltage output, and when the DC high voltage output from the rectifier 60b is small. The duty cycle of the pulse output from the monostable multivibrator 20 is increased to increase the high voltage output. Through this process, a stable direct current high voltage is applied to the anode electrode 7 of the field emission display device while the vertical synchronization signal is input, thereby preventing damage to the FED device caused by unstable high voltage.

On the other hand, as shown in Figure 4b, when there is no signal input from the outside, since there is no signal applied from the LPF (60a) outputs a voltage of 0V, the comparator (60b) outputs from the LPF (60b) The on switching signal is output by comparing the voltage with a preset voltage.

SW1 receives the on switching signal output from the comparator 60b and outputs a ground voltage to the buffer 30, and the buffer 30 turns off the high voltage switch 40 by the ground voltage. Then, when the high voltage switch 40 is turned off, the operation of the high voltage generator 50 is shut down, and no high voltage is applied to the anode electrode 7. In other words, when no signal is input from the outside, the high voltage applied to the anode electrode 7 of the FED can be turned off to remove noise generated in the conventional panel.

As described in detail above, the present invention checks the presence or absence of the vertical synchronization signal of the externally input panel and applies a high voltage to the FED panel only for the normally input signal, thereby protecting the device to stabilize the image quality. Therefore, there is an effect that can prevent the display of unnecessary noise.

Claims (3)

A monostable multivibrator which receives an externally input vertical sync signal (V sync) and a predetermined duty control signal and outputs a frequency signal in the form of a pulse having a predetermined duty cycle; A high voltage switch turned on / off by a pulsed frequency signal output from the monostable multivibrator; An input signal detector for detecting the presence or absence of the vertical synchronization signal input from the outside and outputting an off signal of ground voltage to the high voltage switch when the vertical synchronization signal is not present; A high voltage generator for converting a high voltage in a pulse form generated by the on / off of the high voltage switch into a direct current high voltage and outputting the converted direct current high voltage to an anode of the field emission display device; An output voltage detector for detecting a DC high voltage output from the high voltage generator and outputting a predetermined voltage; And a duty controller for receiving a predetermined voltage output from the output voltage detector and outputting a predetermined duty control signal to the monostable multivibrator. The display device of claim 1, wherein the input signal detector comprises: a low pass filter (LPF) for receiving a vertical synchronization signal input from the outside and converting the signal into a predetermined voltage; A comparator configured to compare a predetermined voltage output from the low pass filter with a preset voltage and output an on or off switching signal; And a switching means which is controlled by an on or off switching signal output from the comparator and outputs a ground voltage to the high voltage switch when receiving the on switching signal. 2. The apparatus of claim 1, wherein the high voltage generator comprises: a high voltage converter for outputting a high voltage in a pulse form by the operation of the high voltage switch; And a rectifier for converting the pulse-type high voltage output from the high voltage converter into a direct current high voltage and outputting the high voltage to the anode electrode.