KR100531794B1 - Driving apparatus of ink jet printer for manufacturing display device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving apparatus of an inkjet printer for manufacturing a display element. In particular, an inkjet printer for manufacturing a display element suitable for compensating for a difference in head driving voltage applied between the heads and supplying the same, thereby improving the uniformity of the head. It relates to a driving device of. The driving apparatus of the conventional inkjet printer for manufacturing a display device has a difference in voltage applied to each head due to a difference in characteristics and uses of each head even when the same driving voltage is applied, resulting in a decrease in brightness and uniformity after printing. There was a problem. In view of the above problems, the present invention provides a driving device of an inkjet printer for manufacturing a display device having a head driving unit for outputting a head driving voltage through an array resistor, wherein the external input signal for the operation of the head is applied to the head. A head voltage controller configured to receive a head driving voltage and control the voltage provided to the head driving unit to output the head driving voltage differently according to the state of the head driving voltage fed back from the external input signal. In this configuration, the uniformity can be improved by compensating the voltage difference between the heads, and the reliability and durability of the heads can be improved.

Description

Drive device for inkjet printer for display element manufacturing {DRIVING APPARATUS OF INK JET PRINTER FOR MANUFACTURING DISPLAY DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a driving apparatus of an inkjet printer for manufacturing a display element. In particular, an inkjet printer for manufacturing a display element suitable for compensating for a difference in head driving voltage applied between the heads and supplying the same, thereby improving the uniformity of the head. It relates to a driving device of.

As the development and spread of information processing systems increase, the importance of display devices as visual information transmission means is increasing. In particular, the conventional CRT (Cathod Ray Tube) has various problems such as large size, high operating voltage, and display distortion, so that the recent trend of increasing screen size and flatness is not suitable. Research into flat panel displays is actively underway.

Plasma display panel (PDP), which is one of the flat panel display devices, displays an image including text or graphics by emitting phosphors by ultraviolet rays generated when the He + Xe or Ne + Xe inert mixed gas is discharged. In addition, the display quality is excellent and the response speed is fast. In addition, since it can be thinned, it is also attracting attention as a wall-mounted display with a liquid crystal display (LCD).

 In general, a printing method or another photographic process is used to apply a phosphor or an electrode when manufacturing such a PDP, but such a method is expensive and has a limitation in resolution.

In order to overcome these limitations and to lower the price and improve the precision, some companies have shown a movement to use the inkjet method. The driving device for driving the conventional inkjet printer will be described as follows.

1 is a block diagram showing a configuration of a driving apparatus of a conventional inkjet printer for manufacturing a display element. As illustrated, the timing controller 10 receives a predetermined signal IN from the outside and outputs a timing control signal, the timing control signal output from the timing controller 10 and a predetermined driving voltage V _h. ) Is configured as a head driver 20 for outputting a drive pulse and an array resistor 30 for receiving a drive pulse output from the head driver 20 and outputting a signal having a predetermined level of voltage to the head. do.

An operation of the driving apparatus of a conventional inkjet printer for manufacturing a display element having such a configuration will be described with reference to FIG. When a predetermined signal IN for driving the head is input from the outside, the timing controller 10 receives the signal and outputs a timing control signal for driving the head.

The head driving unit 20 receives a timing control signal output from the timing controller 10 and a predetermined driving voltage V _h input from the outside, and as shown in FIG. 2, the input driving voltage V _h ) A drive pulse having a level is output.

While the driving pulse output from the head driver 20 passes through the array resistor 30, the driving pulse is converted into predetermined values by the resistance value and the capacitor value of the head connected to the array resistor 30 and input to each head. .

However, in the driving apparatus of the inkjet printer for manufacturing a conventional display element, even if the same driving voltage is applied to the head driving unit 20, the difference in the characteristics of each head and the difference in the use cause a difference in the voltage value actually applied to the head. .

As such, when the voltage value applied to each head is different, the ejection speed of the ink ejected from the head is changed by the difference in the voltage value, which causes the ink ejection amount to be changed according to each head, so that the brightness of the panel after printing There is a difference in degradation and uniformity. For example, as shown in FIG. 2, the voltage applied to the head 1 is 40V, the voltage applied to the head 2 is 45V, and the voltage applied to the head 3 is 35V by the driving voltage V _h applied in the same manner. In this case, as shown, the pattern by the head 2 is the darkest, and the pattern by the head 3 is blurred, resulting in a difference in uniformity.

As described above, even when the same driving voltage is applied, the driving device of the conventional inkjet printer for manufacturing a display device may have a difference in voltage applied to each head due to the difference in the characteristics and usage of each head, which causes a decrease in brightness and uniformity after printing. There was a problem that occurred.

Accordingly, the present invention in consideration of such a problem includes a head voltage controller for controlling a voltage applied to the head driving unit so that a predetermined head driving voltage is applied to the head through feedback control of the head driving voltage applied to the head. The present invention relates to a drive device for an inkjet printer for manufacturing a display element which can compensate for voltage differences between heads and improve uniformity.

In addition, the present invention comprises a head voltage control unit for applying a predetermined priming voltage to the head driving unit to prevent the clogging of ink or malfunction during the actual operation when the inkjet printer is not driven, the reliability of the head The present invention relates to a drive device for an inkjet printer for manufacturing a display element capable of improving the durability and persistence.

The present invention for achieving the above object is a drive device for an inkjet printer for manufacturing a display device having a head drive for outputting a drive voltage to the head through an array resistor, the operation (on or off) of the head The head driving unit receives an external input signal and a head driving voltage applied to the corresponding head, and provides the head driving unit to apply a predetermined driving voltage to the head in the same manner as other heads according to the state of the head driving voltage fed back to the external input signal. And a head voltage controller configured to control the voltage.

The head voltage controller may include: an input signal detector configured to receive the external input signal and output a different voltage according to the external input signal state; A second comparing unit receiving a voltage output from the input signal detecting unit and a preset second reference voltage Vref2 and outputting a predetermined voltage corresponding to the difference between the two input voltages; A first comparing unit receiving a predetermined voltage down through the head driving voltage and a preset first reference voltage Vref1 and outputting a predetermined voltage corresponding to the difference between the two input voltages; A booster for boosting and outputting a predetermined input voltage; A control voltage output configured to receive predetermined voltages output from the boosting unit, the first comparing unit, and the second comparing unit, and to provide the head driving unit with a predetermined voltage controlled to output a predetermined head driving voltage differently from the head driving unit; An additional feature is provided.

The control voltage output unit may further include: a second variable resistor whose one side is grounded and whose value is set by a predetermined voltage output from the first comparison unit; A first variable resistor having one side connected to the other side of the second variable resistor having a side different from the output terminal of the control voltage output unit, and whose value is set by a predetermined voltage output from the second comparator; A predetermined terminal is connected to a contact point of the first variable resistor and the second variable resistor, and receives a predetermined voltage output from the boosting unit to receive a predetermined voltage controlled by the first variable resistor and the second variable resistor. It is characterized in that the adjustment regulator provided to the head drive unit is provided.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of a driving apparatus of an inkjet printer for manufacturing a display element having the above characteristics will be described with reference to the accompanying drawings.

Fig. 3 is a block diagram showing the configuration of an embodiment of a driving apparatus of the inkjet printer for manufacturing a display element of the present invention. As shown in the drawing, the timing controller 10 receives a predetermined signal IN from the outside and outputs a timing control signal, and the timing control signal and the predetermined voltage Vout output from the timing controller 10. A head drive unit 20 that receives an input and outputs a drive pulse of the input voltage level Vout, and a drive pulse output from the head drive unit 20 are input, and have a signal having a predetermined voltage (hereinafter, referred to as head drive). An array resistor 30 for outputting a voltage) to the head, an external input signal IN for the operation of the head and a head driving voltage applied to the head, and a head fed back with the external input signal IN. The head driver 20 is configured to control the voltage Vout provided to the head driver 20 so that the head driver 20 differently outputs a predetermined head driving voltage according to the driving voltage.

In addition, the head voltage control unit 100 boosts and outputs a predetermined voltage V _{in that} is input from the outside, and the predetermined voltage at which the head driving voltage is down by the feedback resistor 90. And the first reference voltage Vref1 and the first comparator 80 outputting a predetermined voltage corresponding to the difference between the two input voltages, and an input signal IN applied to the timing controller 10. The input signal detector 60 outputs a predetermined voltage differently according to the state of?), A predetermined voltage output from the input signal detector 60, and the second reference voltage Vref2, and the input signal detector 60 is input. The second comparator 70 for outputting a predetermined voltage corresponding to the difference between the two voltages, and the voltages output from the booster 40, the first comparator 80, and the second comparator 70 A predetermined voltage Vou controlled to receive the head driving voltage differently from the head driving unit 20. A control voltage output unit 50 for providing t to the head driver 20 is provided. Here, the first reference voltage and the second reference voltage may be obtained through experiments and measurements at fixed values. Hereinafter, when the state of the external input signal IN, that is, the external input signal IN is present, the preset voltage output from the input signal detector 60 is Von and the input signal is not present when the external input signal IN is not present. It is assumed that the predetermined voltage output from the sensing unit 60 is Voff.

4 is a block diagram showing a detailed configuration of the control voltage output unit 50. As shown in FIG. As shown, a second variable resistor 50c whose one side is grounded and whose resistance value is controlled by the output voltage of the first comparator 80, and one side thereof are the output terminals of the control voltage output unit 50. The other side is connected to the other side of the second variable resistor 50c, the first variable resistor 50b whose resistance value is controlled by the output voltage of the second comparator 70, and the predetermined terminal is The first variable resistor 50b and the second variable resistor are connected to the contacts of the first variable resistor 50b and the second variable resistor 50c and receive the predetermined voltage output from the booster 40. The regulating regulator 50a is provided to provide the head driver 20 with a predetermined voltage Vout controlled by the value 50c).

Control of the variable resistors 50b and 50c by the output voltages of the first comparator 80 and the second comparator 70 may be performed using a switching element or current control.

The operation of the present invention having such a configuration will be described separately with and without an external input signal (signal for inkjet printer driving) IN. In addition, when the external input signal IN is present, the head driving voltage is divided into a case where the head driving voltage is higher than the preset head driving voltage and the case where the external input signal IN is divided.

The operation of the present invention will now be described with respect to the case where there is an external input signal. When a predetermined signal IN for driving the printer is input from the outside, the timing controller 10 receives the external input signal and outputs a timing control signal for head driving.

The head control unit 20 receives a timing control signal output from the timing controller 10 and a predetermined control voltage Vout input from the outside, and outputs a driving pulse having the input voltage Vout level.

The head driving voltage having the predetermined voltage converted while the driving pulse output from the head driving unit 20 passes through the array resistor 30 is input to the head.

The head driving voltage applied to the head is predetermined down through the feedback resistor 90, and the down predetermined voltage is input to the first comparator 80.

The first comparator 80 receives a predetermined voltage and a first reference voltage Vref1 input through the feedback resistor 90, and outputs a predetermined voltage for the difference between the two input voltages.

The input signal detector 60 receives the external input signal IN and outputs a Von voltage which is a preset voltage, and the second comparator 70 outputs the Von voltage and the second output from the input signal detector 60. The reference voltage Vref2 is input to output a predetermined voltage for the difference between the two input voltages.

The booster 40 outputs a predetermined input voltage Vin (for example, 30V) by a predetermined boost (for example, 100V), and the control voltage output unit 50 boosts in the booster 40. The predetermined voltage Vout controlled to output a predetermined head driving voltage by the head driver 20 by receiving the output voltage and predetermined voltages output from the first comparator 80 and the second comparator 70. ) Is output to the head driver 20.

Here, the control voltage Vout output from the control voltage output unit 50 to the head driver 20 will be described in detail with reference to FIG. 4.

Prior to the detailed description, the output voltage (Vout) output from the control voltage output unit 50 to the head drive unit 20 is expressed as an equation using the detailed view of FIG.

Here, Vref is a zener diode (not shown) voltage value present in the regulation regulator 50a, and is generally 1.25V, and R1 is a first variable resistor determined by controlling the voltage output from the second comparator 70. Is a value of 50b, and R2 is a value of the second variable resistor 50c that is determined through control of the voltage output from the first comparator 80.

As can be seen from the above equation, the control voltage Vout supplied to the head driver 20 may be controlled by the values of the first variable resistor 50b and the second variable resistor 50c. In other words, when the value of R2 (50c) is fixed, the head driving voltage can be controlled by controlling the value of R1 (50b), and when the value of R1 (50b) is fixed, the head driving is controlled through the control of the value of R2 (50c). The voltage can be controlled. In addition, the head driving voltage may be controlled by controlling both R1 (50b) and R2 (50c).

However, the value of R1 (50b) has two values with and without the external input signal IN, that is, the voltage output from the second comparator 70 is the voltage due to the difference between the second reference voltage and the Von voltage. Since the value of R1 (50b) is determined by the voltage difference between the second reference voltage and the Voff voltage, the control voltage applied to the head driving unit 20 is mainly achieved by controlling the value of R2 (50c).

Next, the operation of the present invention for the case where the head drive voltage is lower than the predetermined predetermined head drive voltage (for example, 40V) and high is described.

For example, assuming that the preset head drive voltage is 40 V, the description will be given with the case of Head 2 (when higher than the preset head driving voltage) and Head 3 (when lower than the preset head driving voltage) shown in FIG. do.

In the case of Head 2, the voltage of 5V must be reduced because the head driving voltage is higher than the predetermined head driving voltage of 40V at 45V. That is, in the first comparator 80, the voltage of 45 V, which is the head driving voltage, is converted into a second variable resistor through a predetermined voltage corresponding to the difference between the predetermined voltage down through the feedback resistor 90 and the first reference voltage. The value of 50c is made small. When the value of the second variable resistor 50c decreases, the control voltage Vout applied to the head driving unit 20 is lowered by the above equation, thereby lowering the head driving voltage applied to the head 2. Then, by repeating this process, the head driving voltage applied to the head 2 may be applied to 40 V, which is a predetermined head driving voltage.

On the other hand, in the case of the head 3, the head driving voltage is lower than the predetermined head driving voltage 40V to 35V, so the voltage of 5V must be increased. That is, in the first comparator 80, the voltage of 35 V, which is the head driving voltage, is changed by the second variable resistor through a predetermined voltage corresponding to the difference between the predetermined voltage down through the feedback resistor 90 and the first reference voltage. (50c) Increase the value. When the value of the second variable resistor 50c is increased, the control voltage Vout applied to the head driving unit 20 is increased by the above equation, thereby increasing the head driving voltage applied to the head 3. Then, by repeating this process, the head driving voltage applied to the head 3 may be applied to 40 V, which is a predetermined head driving voltage.

As described above, when the head driving voltage applied to the head 1, the head 2, and the head 3 is increased or decreased to compensate for the preset head driving voltage, as shown in FIG. The voltage difference between them is eliminated, which results in a constant pattern by each head.

On the other hand, when there is no external input signal IN (standby mode), the input signal detector 60 outputs a Voff voltage, and the second comparator 70 receives the Voff voltage and the second reference voltage to receive a predetermined voltage. Output voltage.

Of course, a predetermined voltage is output from the first comparator 80 to control the value of the second variable resistor 50c, but in the standby mode, the first variable resistor 50b is generated by the voltage output from the second comparator 70. The control voltage Vout applied to the head driver 20 is determined by controlling the value of. That is, if the predetermined head driving voltage applied to the head in the standby mode, for example, 20V, the value of the first variable resistor 50b is increased by the predetermined voltage output from the second comparator 70. As a result, the control voltage output to the head driver 20 is lowered. In this case, the predetermined head driving voltage applied to the head in the standby mode means a value (priming voltage) that is enough to rotate ink without ejecting ink from the head.

In addition, when the head is operated (operation mode) or is not operated (standby mode), different preset head driving voltages, first reference voltages and second reference voltages applied to the heads may be determined by the manufacturer.

As described in detail above, the present invention includes a head voltage controller capable of controlling a voltage applied to the head driving unit so that a predetermined head driving voltage is applied to the head through feedback control of the head driving voltage applied to the head. In this configuration, the uniformity can be improved by compensating the voltage difference between the heads.

In addition, the present invention comprises a head voltage control unit for applying a predetermined priming voltage to the head driving unit to prevent the clogging of ink or malfunction during the actual operation when the inkjet printer is not driven, the reliability of the head And the effect is to improve the persistence.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing a configuration of a driving apparatus of a conventional ink jet printer for producing display elements.

Figure 2 is an exemplary diagram showing a signal and a pattern applied to each head according to the prior art.

Fig. 3 is a block diagram showing the configuration of an embodiment of a drive device for an inkjet printer for manufacturing a display element of the present invention.

4 is a block diagram showing the detailed configuration of the control voltage output unit shown in FIG.

5 is an exemplary diagram showing a signal and a pattern applied to each head according to the present invention.

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

10: timing control unit 20: head drive unit

30: array resistance 40: booster

50: control voltage output 50a: regulating regulator

50b: first variable resistor 50c: second variable resistor

60: input signal detection unit 70: second comparison unit

80: first comparison 90: feedback resistance

100: head voltage control unit

Claims (3)

In the driving apparatus of the inkjet printer for manufacturing a display element having a head driver for outputting a driving voltage to the head through the array resistor, Receives an external input signal for the operation (on or off) of the head and a head driving voltage applied to the head, and according to the state of the head driving voltage fed back with the external input signal, And a head voltage control unit configured to control a voltage provided to the head driving unit so that a set driving voltage is applied. The electronic device of claim 1, wherein the head voltage controller comprises: an input signal detector configured to receive the external input signal and output a different voltage according to a state of the external input signal; A second comparing unit receiving a voltage output from the input signal detecting unit and a preset second reference voltage Vref2 and outputting a predetermined voltage corresponding to the difference between the two input voltages; A first comparing unit receiving a predetermined voltage down through the head driving voltage and a preset first reference voltage Vref1 and outputting a predetermined voltage corresponding to the difference between the two input voltages; A booster for boosting and outputting a predetermined input voltage; A control voltage output configured to receive predetermined voltages output from the boosting unit, the first comparing unit, and the second comparing unit, and to provide the head driving unit with a predetermined voltage controlled to output a predetermined head driving voltage differently from the head driving unit; An ink jet printer driving device for manufacturing a display element, characterized in that the configuration is provided. 3. The apparatus of claim 2, wherein the control voltage output unit comprises: a second variable resistor whose one side is grounded and whose value is set by a predetermined voltage output from the first comparator; A first variable resistor having one side connected to the other side of the second variable resistor having a side different from the output terminal of the control voltage output unit, and whose value is set by a predetermined voltage output from the second comparator; A predetermined terminal is connected to a contact point of the first variable resistor and the second variable resistor, and receives a predetermined voltage output from the boosting unit to receive a predetermined voltage controlled by the first variable resistor and the second variable resistor. An apparatus for driving an inkjet printer for manufacturing a display element, characterized in that an adjustment regulator provided to the head driving unit is provided.