KR100943899B1 - Apparatus and Method for Adjusting Driving Voltage of PDP Module - Google Patents

Abstract

The present invention relates to a drive voltage adjusting device and a method of adjusting the drive voltage of the PD module to more accurately adjust the various driving voltage of the PD module, the transformer; An A / D converter for converting a driving voltage output from the secondary side of the transformer into a digital value; The user inputs the reference voltage of the driving voltage and outputs it, and compares the digital driving voltage value output from the A / D converter with the input reference voltage if it is not the same so as to readjust the input reference voltage. Micom to reprint; A D / A converter converting the reference voltage output from the microcomputer into an analog value; A control IC controlling a drive voltage output level of the transformer in accordance with an output of the D / A converter; And, since it comprises a wireless signal transmission means for transmitting the output of the D / A converter to the control IC, in adjusting the drive voltage of the module according to the reference voltage level input by the operator to adjust the drive voltage itself This allows more accurate and quicker adjustments and improves productivity.

PD module / driving voltage

Description

Apparatus and Method for Adjusting Driving Voltage of PDP Module

1 is a block diagram showing the configuration of a typical PD module

2 is a diagram showing a power supply unit configured to manually adjust a driving voltage of a PD module.

3 is a circuit diagram showing a configuration of a driving voltage adjusting device of a PD module according to the related art.

Figure 4 is a circuit diagram showing the configuration of the drive voltage adjusting device of the PD module according to the present invention

5 is a flowchart illustrating a method of driving a driving voltage of a PD module according to the present invention.

Explanation of symbols for main parts of the drawings

31: photocoupler 32: control IC

33: transformer 40: micom

50: D / A Converter 60: A / D Converter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a PD module, and more particularly, to an apparatus for adjusting a drive voltage of a PD module and a method for adjusting the PD voltage more accurately.

In general, PD forms a Y electrode and a Z electrode on the same surface of the front substrate, forms an X electrode on the rear substrate of the upper structure, and cross-talks between cells adjacent to the X electrodes. In order to prevent the barrier rib, the barrier rib is formed, and the barrier rib and the X electrode have a phosphor layer formed around the phosphor. When a driving voltage is applied between the X electrode and the Y electrode, a counter discharge occurs between the X electrode and the Y electrode, and wall charges are generated. The discharge voltages having opposite polarities are continuously applied to the Y electrode and the Z electrode, and the X electrode is continuously applied. When the driving voltage applied to the circuit is cut off, a surface discharge is caused by a predetermined potential difference between the Y electrode and the Z electrode by wall charge. As a result, ultraviolet rays are generated from the inert gas in the discharge region. The phosphor layer is excited by the ultraviolet rays, and color display is performed by the emitted phosphor layer.

Therefore, the PD module is provided with a circuit for driving the PD panel on the back of the PD panel as described above.

Such PD module can be manufactured considerably thinner than conventional CRT and its brightness is superior to LCD, and it is mainly used in computer monitors and TVs. have.

A typical PDTV can be classified into a TV module that tunes a channel according to a user's selection and a TV module that receives a broadcast signal and transmits the broadcast signal to the PD module. Referring to FIG. The explanation is as follows.

As shown, an X board 11 for outputting an address voltage to an X electrode of a PD panel (not shown), a Y board 12 for outputting a scan voltage to a Y electrode of a PD module, and a Z electrode of a PD module Controlling the addressing and scanning timing according to the control program so that the video signal (R / G / B) output from the Z board 13 and the TV module for outputting the sustain voltage is synchronized with the synchronization signal and can be implemented through PD. The video scan board 15 generates a time sequence for the X board 11, the Y board 12, and the Z board 13 according to the time sequence transmitted through the video scan board 15. And a control board 14 for controlling the power supply timing, and a power supply unit 16 for supplying driving power to the entire configuration.

The operation of the PDTV configured as described above is as follows.

When the user selects a predetermined channel, the TV module receives the broadcast signal of the corresponding channel, and processes the video signal among the video signals so that the image can be output from the PD module. To send).

At this time, since the voice signal of the broadcast signal is processed and output by the TV module itself, detailed description thereof will be omitted.

Subsequently, the video scan board 15 generates a time sequence according to a control program and transmits the time signal to the control board 14 so that the image signal supplied from the TV module can be synchronized with the synchronization signal to be implemented on the PD screen. 16) supplies driving power in each configuration.

The control board 14 controls the address voltage supply timing of the X board 11, the scan voltage supply timing of the Y board 12, and the sustain power supply timing of the Z board 13 in accordance with the time sequence.

Subsequently, the X board 11, the Y board 12, and the Z board 13 use a driving power supplied from the power supply unit 16 to control driving pulses suitable for image data according to timing control of the control board 14. It generates and outputs to the corresponding electrode of the PDP panel.

Therefore, as the electrode of the PD panel is driven, the above-described surface discharge occurs and accordingly, the fluorescent layer emits light to implement the screen.

In the above described PD module, various driving voltages (Va, Vs, -Vy, Vsetup, etc.) that require adjustment depending on the model are different depending on the type of the module, and even the same type of module may be different depending on the characteristics. Therefore, as shown in FIG. 2, the module drive voltage is adjusted by adjusting the corresponding drive voltage setting variable resistors such as Va, Vs, -Vy, Vsetup using the adjusting means 16a to 16d provided in the power supply unit 16. As shown in FIG. Will be adjusted.

Accordingly, each module is marked with a driving voltage (hereinafter referred to as a reference voltage) which is a reference suitable for itself, and an operator manually drives the driving voltage using the variable resistors 16a to 16d with reference to the reference voltage. Because of this adjustment, a configuration for manually adjusting the driving voltage is included in the PD module.

That is, referring to FIG. 3, the control IC 22 is connected to the primary side of the transformer 23 to control the driving voltage output level of the secondary side through the switching time control of the transformer 23.

In this case, a photo transistor of the photo coupler 21 is connected to the control IC 22, and photodiodes and zener diodes ZD1 and ZD2 of the photo coupler 21 are connected to the secondary side of the transformer 23. The variable resistor VR1 and the resistors R7, R8, and R9 are connected in parallel with them.

Therefore, when the operator adjusts the variable resistor VR1, the output of the photodiode accordingly controls the on / off of the phototransistor so that the output change of the photocoupler 21 is recognized by the control IC 22 so that the transformer It is possible to adjust the drive voltage output level of (23).

In general, a circuit configured as shown in FIG. 3 is provided for each driving voltage such as Va, Vs, -Vy, and Vsetup, and the adjustment for each driving voltage is performed by adjusting the variable resistance of the corresponding circuit.

However, in the above-described conventional method, since the driving voltage of the PDP module is manually adjusted by an operator, it takes considerable time to adjust two to four driving voltages, and the passive resistor has its own horseshoe. If the accuracy is reduced in the adjustment and the driving voltage is not adjusted to the correct reference voltage, there is a problem that the normal screen display is impossible due to the distortion of the screen itself.

Accordingly, the present invention has been made to solve the above-described problems, the object of the present invention is to adjust the drive voltage of the PD module module so that the drive voltage adjustment operation according to the characteristics of the module can be made more quickly and accurately and its adjustment The purpose is to provide a method.

The drive voltage promoter of the PD module according to the present invention for achieving the above object is a transformer; An A / D converter for converting a driving voltage output from the secondary side of the transformer into a digital value; The user inputs the reference voltage of the driving voltage and outputs it, and compares the digital driving voltage value output from the A / D converter with the input reference voltage if it is not the same so as to readjust the input reference voltage. Micom to reprint; A D / A converter converting the reference voltage output from the microcomputer into an analog value; A control IC controlling a drive voltage output level of the transformer in accordance with an output of the D / A converter; And a wireless signal transmission means for transmitting the output of the D / A converter to the control IC.

In addition, the method for adjusting the drive voltage of the PD module according to the present invention for achieving the above object comprises the steps of: a user inputting a reference voltage of the module driving voltage through a predetermined input means; Adjusting a corresponding module driving voltage according to a reference voltage input from a user; Adjusting the module driving voltage and comparing the currently output module driving voltage with the input reference voltage; And re-adjusting the module driving voltage according to the reference voltage when the current module driving voltage and the reference voltage do not match.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, a driving voltage adjusting device and a method of adjusting the PD module according to the present invention will be described with reference to the accompanying drawings.

4 is a circuit diagram illustrating a configuration of a drive voltage adjusting device of a PD module according to the present invention, and FIG. 5 is a flowchart illustrating a method of driving a drive voltage of the PD module according to the present invention.

First, a driving voltage adjusting apparatus of a PD module according to the present invention will be described with reference to FIG. 4.

As shown, the driving voltage adjusting device of the PD module according to the present invention comprises: a transformer 33; An A / D converter 60 for converting a driving voltage output from the secondary side of the transformer 33 into a digital value; The user inputs the reference voltage of the driving voltage and outputs it, and compares the digital driving voltage value output from the A / D converter 60 with the input reference voltage so that it can be readjusted if it is not the same. A microcomputer 40 for outputting a reference voltage again; A D / A converter 50 for converting the reference voltage output from the microcomputer 40 into an analog value; A control IC 32 for controlling the drive voltage output level of the transformer 33 in accordance with the output of the D / A converter 50; And a radio signal transmitting means 31 for transmitting the output of the D / A converter 50 to the control IC 32.

At this time, the wireless signal transmission means 31 is a photodiode driving in accordance with the output of the D / A converter 50, a photo connected to the control IC 32 on / off in accordance with the driving of the photodiode A photo coupler made of transistors is used.

In addition, the reason for using the photo coupler 31 without directly transferring the output of the D / A converter 50 to the control IC 32 is that the analog output value may vary due to the characteristics of the D / A converter 50. Therefore, by connecting the resistor R13 in parallel with the photodiode, an appropriate voltage range can be determined, and the influence of noise can be eliminated by insulating the primary side and the secondary side of the transformer 33.

The illustrated A / D converter 60, the microcomputer 40, and the D / A converter 50 are included in the video scan board configuration of the PD module, and the rest are included in the power supply configuration.

The driving voltage adjusting method of the PD module according to the present invention configured as described above will be described with reference to FIG. 5.

First, the control IC 32 controls the voltage conversion operation of the transformer 33 to meet a preset condition. That is, the transformer 33 transforms the commercial power applied to the primary side and outputs a driving voltage of a predetermined level through the secondary side.

At this time, the user or the operator inputs the reference voltage for the driving voltage to be adjusted through a predetermined input means or a predetermined menu, the microcomputer 40 recognizes the reference voltage input from the user to the D / A converter 50 Output (S30).

Subsequently, the D / A converter 50 receives the reference voltage output from the microcomputer 40 and converts the reference voltage into an analog value and transmits it to the control IC 32 through the photo coupler 31 (S31 to S32). ).

At this time, the analog voltage level converted by the D / A converter 50 is output to the 'A' point to control the output change of the photo transistor through the photodiode of the photo coupler 31.

Therefore, the control IC 32 adjusts the driving voltage output level of the transformer 33 in accordance with the output change of the photo coupler 31 (S33).

After the above-described adjustment process, the driving voltage level output from the secondary side of the transformer 33 is converted into a digital value by the A / D converter 60, and the microcomputer 40 converts the A / D converter ( In operation S34, the driving voltage converted into the digital value is read.

In this case, it is determined whether the read driving voltage level is the same as the reference voltage level input by the user (S35).

As a result of the determination (S35), if the read driving voltage is not the same as the reference voltage level, the process returns to step S30 and the driving voltage adjustment for the reference voltage input by the user is performed again.

That is, the A / D converter 60 checks whether the driving voltage is adjusted correctly and readjusts it.                     

When the driving voltage output from the secondary side of the transformer 33 and the reference voltage level input by the operator are the same, the video scan operation for normal screen display is controlled.

The drive voltage adjusting device and the method of adjusting the PD module according to the present invention described above are more precise and quicker adjustments as the drive voltage is adjusted by the system itself according to the reference voltage level input by the operator in adjusting the drive voltage of the module. Not only does the work take place, but there is an effect that can improve the productivity.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (3)

Transformer; An A / D converter for converting a driving voltage output from the secondary side of the transformer into a digital value; When the user inputs the reference voltage of the driving voltage, it outputs it and compares the digital driving voltage value output from the A / D converter with the input reference voltage to reset it if it is not the same. A microcomputer to output; A D / A converter converting the reference voltage output from the microcomputer into an analog value; A control IC controlling a drive voltage output level of the transformer in accordance with an output of the D / A converter; And, And a wireless signal transmitting means for transmitting the output of the D / A converter to the control IC. According to claim 1, The wireless signal transmission means And a photo coupler comprising a photo diode driven according to the output of the D / A converter and a photo transistor connected to the control IC and turned on / off according to the driving of the photo diode. In the PD module, A user inputting a reference voltage of the module driving voltage through a predetermined input means; Adjusting a corresponding module driving voltage according to a reference voltage input from a user; Adjusting the module driving voltage and comparing the currently output module driving voltage with the input reference voltage; And, And re-adjusting the module driving voltage according to the reference voltage when the current module driving voltage and the reference voltage do not coincide with each other.

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