KR100634696B1 - Driving Apparatus and Method for Plasma Display Panel - Google Patents

Abstract

The present invention relates to a driving apparatus and method for controlling a plasma display panel by adjusting a subfield mapping method in consideration of APL (Auto Power Limit) and driving the plasma display panel with the adjusted subfield mapping data. In addition, there is an effect of improving the image quality by preventing the gray scale linearity of the plasma display panel.

The driving device of the plasma display panel according to the present invention is a driving device of a plasma display panel which expresses an image in a frame composed of a combination of a plurality of subfields, the reference subfield generating a reference subfield mapping code with preset frame data. A mapping code generator, an APL subfield mapping code generator for generating a subfield mapping code according to APL with pre-set APL (Auto Power Limit) data, a reference subfield mapping code generator and an APL subfield mapping code generator A comparator for comparing the generated subfield mapping codes with each other and the subfield mapping codes generated by the APL subfield mapping code generator among the subfield mapping codes generated by the reference subfield mapping code generator with the information compared by the comparator Inconsistent gradation detector for detecting subfield mapping codes And a use gray level setting unit configured to set a gray level corresponding to the subfield mapping code detected by the inconsistent gray level detection unit to an unused gray level, and output data of the used gray level.

Plasma Display Panel, Gray, Gray Linearity, APL, Subfield, Gray Used, Gray Not Used

Description

Driving apparatus and method for plasma display panel {Driving Apparatus and Method for Plasma Display Panel}

1 is a diagram showing the structure of a typical plasma display panel.

2 is a view showing a driving waveform of a conventional plasma display panel.

3 is a diagram illustrating a method of implementing image gradation of a conventional plasma display panel.

4 is a diagram illustrating a general APL (Auto Power Limit).

5 is a view for explaining a driving device of the plasma display panel of the present invention;

6 is a view for explaining a method of driving a plasma display panel of the present invention.

<Explanation of symbols for the main parts of the drawings>

50: mapping code generation unit 51: APL subfield mapping code generation unit

52: reference subfield mapping code generation unit

53: comparison unit 54: discrepancy gray scale detection unit

55: gray level setting unit

The present invention relates to a plasma display panel, and more particularly, to adjust a subfield mapping method in consideration of APL (Auto Power Limit), and to drive the plasma display panel with the adjusted subfield mapping data. A driving apparatus and method for a plasma display panel.

In general, a plasma display panel is a partition wall formed between a front panel and a rear panel to form one unit cell, and each cell includes neon (Ne), helium (He), or a mixture of neon and helium (Ne + He) and An inert gas containing the same main discharge gas and a small amount of xenon is filled. When discharged by a high frequency voltage, the inert gas generates vacuum ultraviolet rays and emits phosphors formed between the partition walls to realize an image. Such a plasma display panel has a spotlight as a next generation display device because of its thin and light configuration.

1 illustrates a structure of a general plasma display panel.

As shown in FIG. 1, a plasma display panel includes a front panel in which a plurality of sustain electrode pairs formed by pairing a scan electrode 102 and a sustain electrode 103 are arranged on a front glass 101 that is a display surface on which an image is displayed. The rear panel 110 on which the plurality of address electrodes 113 are arranged so as to intersect the plurality of sustain electrode pairs on the back glass 111 forming the back surface 100 and the rear surface is coupled in parallel with a predetermined distance therebetween. .

The front panel 100 is made of a scan electrode 102 and a sustain electrode 103, that is, a transparent electrode (a) formed of a transparent ITO material and a metal material to mutually discharge and maintain light emission of the cells in one discharge cell. The scan electrode 102 and the sustain electrode 103 provided as the bus electrode b are included in pairs. The scan electrode 102 and the sustain electrode 103 are covered by one or more upper dielectric layers 104 that limit the discharge current and insulate the electrode pairs, and to facilitate the discharge conditions on the upper dielectric layer 104 top surface. A protective layer 105 on which magnesium oxide (MgO) is deposited is formed.

The rear panel 110 is arranged such that a plurality of discharge spaces, that is, barrier ribs 112 of a stripe type (or well type) for forming discharge cells are maintained in parallel. In addition, a plurality of address electrodes 113 which perform address discharge to generate vacuum ultraviolet rays are arranged in parallel with the partition wall 112. On the upper side of the rear panel 110, R, G, and B phosphors 114 which emit visible light for image display during address discharge are coated. A lower dielectric layer 115 is formed between the address electrode 113 and the phosphor 114 to protect the address electrode 113.

A driving waveform for driving the plasma display panel is shown in FIG. 2.

2 illustrates a driving waveform of a conventional plasma display panel.

As shown in Fig. 2, the plasma display panel erases the reset period for initializing all the cells, the address period for selecting the cells to be discharged, the sustain period for maintaining the discharge of the selected cells, and the wall charges in the discharged cells. It is divided into an erase period for driving.

In the reset period, the rising ramp waveform Ramp-up is applied to all the scan electrodes at the same time in the setup period. This rising ramp waveform causes weak dark discharge within the full discharge cells. By this setup discharge, positive wall charges are accumulated on the address electrode and the sustain electrode, and negative wall charges are accumulated on the scan electrode.

During the set-down period, after the rising ramp waveform is supplied, the falling ramp waveform (Ramp-down) starts to fall from the positive voltage lower than the peak voltage of the rising ramp waveform and falls to a specific voltage level below the ground (GND) level voltage. By generating a weak erase discharge in the inside, the wall charges excessively formed in the scan electrode are sufficiently erased. By this set-down discharge, wall charges such that the address discharge can stably occur remain uniformly in the cells.

In the address period, the negative scan pulses are sequentially applied to the scan electrodes, and the positive data pulses are applied to the address electrodes in synchronization with the scan pulses. As the voltage difference between the scan pulse and the data pulse and the wall voltage generated in the reset period are added, address discharge is generated in the discharge cell to which the data pulse is applied. In the cells selected by the address discharge, wall charges are formed such that a discharge can occur when the sustain voltage Vs is applied. The sustain electrode is supplied with a positive polarity voltage Vz during the set down period and the address period so as to reduce the voltage difference with the scan electrode so as to prevent mis-discharge with the scan electrode.

In the sustain period, sustain pulses Su are alternately applied to the scan electrodes and the sustain electrodes. In the cell selected by the address discharge, as the wall voltage and the sustain pulse in the cell are added, a sustain discharge, that is, a display discharge, occurs between the scan electrode and the sustain electrode every time the sustain pulse is applied.

After the sustain discharge is completed, in the erase period, a voltage of an erase ramp waveform Ramp-ers having a small pulse width and a low voltage level is supplied to the sustain electrode to erase the wall charge remaining in the cells of the full screen.

A method of implementing image gradation in a plasma display panel driven by such a driving waveform is shown in FIG. 3.

3 is a diagram illustrating a method of implementing image grayscale of a conventional plasma display panel.

As shown in FIG. 3, in the conventional method of expressing a gray level of a plasma display panel, a frame is divided into several subfields having different number of light emission times, and each subfield is again configured as a reset period (RPD) for initializing all cells. ) Is divided into an address period APD for selecting a cell to be discharged and a sustain period SPD for implementing gradation according to the number of discharges. For example, when displaying an image with 256 gray levels, a frame period (16.67 ms) corresponding to 1/60 second is divided into eight subfields SF1 to SF8 as shown in FIG. 3, and eight subfields. Each of the SFs SF1 to SF8 is divided into a reset period, an address period, and a sustain period.

The reset period and the address period of each subfield are the same for each subfield. The address discharge for selecting the cell to be discharged is caused by the voltage difference between the address electrode and the transparent electrode which is the scan electrode. The sustain period is increased at a rate of 2 ⁿ ( ^where n = 0, 1, 2, 3, 4, 5, 6, 7) in each subfield. In this way, since the sustain period is different in each subfield, the gray scale of the image is expressed by adjusting the sustain period of each subfield, that is, the number of sustain discharges.

In the conventional plasma display panel which implements image gradation in this manner, an auto power limit (APL) is used to reduce power consumption. Looking at the APL as shown in Figure 4 below.

4 is a diagram for explaining a general APL.

Referring to FIG. 4, the number of sustain pulses increases as APL decreases. That is, the number of sustain pulses increases as the power reaches maximum (peak luminance, APL minimum, display area minimum). In contrast, the number of sustain pulses decreases as APL increases, i.e., as the power reaches the lowest (lowest luminance, APL maximum, display area maximum). In this way, the number of sustain pulses applied to one discharge cell is reduced when an image is displayed in a relatively large portion of the plasma display panel, and on the contrary, when discharge is generated in a relatively small area, By increasing the number of sustain pulses applied to the discharge cells, the power consumption is reduced while preventing the absolute latitude of the image displayed on the screen.

However, in the plasma display panel which implements an image using the APL method, the same subfield mapping method is used for the APL step, thereby causing a problem of gray level inversion in a specific gray level portion.

In order to solve this problem, the present invention provides a device and method for driving a plasma display panel that adjusts a subfield mapping method according to the APL and prevents deterioration of image quality by driving the plasma display panel with the adjusted mapping data. There is a purpose.

The driving apparatus of the plasma display panel according to the present invention for achieving the above object is a driving apparatus of a plasma display panel which expresses an image with a frame composed of a combination of a plurality of subfields, and generates a reference subfield mapping code with preset frame data. A reference subfield mapping code generation unit, an APL subfield mapping code generation unit generating a subfield mapping code according to the APL with pre-set APL (Auto Power Limit) data, a reference subfield mapping code generation unit and an APL subfield A subfield generated by the APL subfield mapping code generator, among the subfield mapping codes generated by the reference subfield mapping code generator based on the comparison unit for comparing the subfield mapping codes generated by the mapping code generator with each other; Detect subfield mapping code that does not match the mapping code And a gray level setting unit for setting the gray level corresponding to the subfield mapping code detected by the inconsistent gray level detection unit and the inconsistent gray level detection unit to an unused gray level, and outputting data of the used gray level.

The APL subfield mapping code generation unit may generate all of the subfield mapping codes that vary according to the number of sustain pulses according to each APL step.

The comparator may convert the subfield mapping codes generated by the reference subfield mapping code generator and the APL subfield mapping code generator into decimal numbers, respectively, and compare the converted subfield mapping codes with each other.

In addition, the driving method of the plasma display panel according to the present invention for achieving the above object is a driving method of the plasma display panel which expresses an image by a frame composed of a combination of a plurality of subfields, the reference subfield mapping code being a predetermined frame data. A subfield mapping code generation step for generating an APL subfield mapping code with preset APL (Auto Power Limit) data, and an APL subfield mapping code and a reference subfield mapping code generated in a subfield mapping code generation step. Are compared with each other, and the result of the comparison in the comparison step corresponds to a code detected in the discrepancy gray level detection step and the discrepancy gray level detection step for detecting a code that does not match the APL subfield mapping code among the reference subfield mapping codes. Use gradation setting stage to set gradation to unused gradation In that it comprises the features.

Here, the subfield mapping code generating step generates all the subfield mapping codes that are varied by the number of sustain pulses according to each APL step, and generates a reference subfield mapping code for each subfield weight with preset frame data. It is characterized by.

In the comparison step, the reference subfield mapping code and the APL subfield mapping code may be converted into decimal numbers, and the converted subfield mapping codes may be compared with each other.

Hereinafter, a driving apparatus and method of a plasma display panel of the present invention will be described in detail with reference to the accompanying drawings.

5 is a view for explaining a driving apparatus of the plasma display panel of the present invention.

As shown in FIG. 5, the driving apparatus of the plasma display panel according to the present invention includes a subfield mapping code generator 50, a comparator 53, a mismatch gradation detector 54 and a use gradation setting unit 55. do.

Here, the subfield mapping code generation unit 50 includes an auto power limit (APL) subfield mapping code generation unit 51 and a reference subfield mapping code generation unit 52.

Here, the APL subfield mapping code generation unit 51 generates each subfield mapping code for each APL step. As described above with reference to FIG. 4, the APL reduces the amount of power consumed by reducing the number of sustain pulses as the ratio of displaying images on the screen of the plasma display panel is high, that is, as the area of the screen displaying images is large. As the area where the image is displayed is smaller, the number of sustain pulses is increased to suppress a decrease in absolute luminance. In this way, when the steps of the APL change, the number of sustain pulses in the sustain period of each subfield changes. As the number of sustain pulses changes, the total sum of the weights of the subfields determined by the number of sustain pulses changes. When the sum of the weights of the subfields changes, the gradation level changes. As described above, the subfield mapping code for each step of the APL is generated for each subfield mapping code for the gray level that changes according to the number of sustain pulses that change according to the APL.

Here, the reference subfield mapping code generation unit 52 receives frame data from the outside and generates a reference subfield mapping code for each subfield weight of the frame.

In this way, the comparison unit 53 compares the APL subfield mapping code generated by the subfield mapping code generation unit 50 with the reference subfield mapping code, and the reference generated by the reference subfield mapping code generation unit 52 described above. In the subfield mapping code, a gray level value of a code not included in the above-described APL subfield mapping code, that is, a code currently used but not present in the APL subfield mapping code, is compared and searched. When the subfield mapping codes are compared with each other in this manner, the comparator 53 compares each of the subfield mapping codes generated by the reference subfield mapping code generator 52 and the APL subfield mapping code generator 51 respectively. It is more preferable to convert to decimal and to compare the converted subfield mapping codes with each other.

The driving method of the plasma display panel performed by the driving apparatus of the plasma display panel as described above is as follows.

6 is a view for explaining a method of driving a plasma display panel of the present invention.

As shown in FIG. 6, in the method of driving the plasma display panel of the present invention which expresses an image in a frame composed of a combination of a plurality of subfields, first, reference subfield mapping is performed according to weights of each subfield with preset frame information. A code is generated and a subfield mapping code is generated for each APL step with preset APL information (S60).

The reference subfield mapping code generated in step S60 described above and the APL subfield mapping code are compared with each other (S61).

Here, it is more preferable to convert the above-described reference subfield mapping code and APL subfield mapping code into a decimal number and compare the converted subfield mapping code with each other. This is because it is easier to carry out.

After the above-described step S61, as a result of comparing the reference subfield mapping code and the APL subfield mapping code generated in the above-described step S60 with each other, a code that does not match the APL subfield mapping code is added to the reference subfield mapping code. Detect. The gradation corresponding to the code that does not match the APL subfield mapping code in the reference subfield mapping code is a gradation value not currently used, and may cause a problem of gradation inversion when such gradation is used for image realization. Accordingly, the gray level is set to an unused gray level in step S63 (S63).

An image is realized by subfield mapping image data input from the outside with the information on the use gray level thus set. For example, after step S63, subfield mapping data is generated according to the result set in step S63 (S64).

This prevents the deterioration of image quality due to the gray level inversion.

As such, the technical configuration of the present invention described above can be understood by those skilled in the art that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the foregoing detailed description, and the meaning and scope of the claims are as follows. And all changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

As described in detail above, the apparatus and method for driving the plasma display panel according to the present invention classify the used grayscales and the non-graded grayscales according to the APL, and sets the used grayscales with the separated information, thereby suppressing deterioration in image quality of the plasma display panel. It is effective.

Claims (6)

A driving apparatus for a plasma display panel which expresses an image by a frame composed of a combination of a plurality of subfields, A reference subfield mapping code generator for generating a reference subfield mapping code from preset frame data; An APL subfield mapping code generation unit configured to generate a subfield mapping code according to the APL using pre-set APL (Auto Power Limit) data; A comparison unit comparing the subfield mapping codes generated by the reference subfield mapping code generation unit and the APL subfield mapping code generation unit with each other; Inconsistency gray level detection unit for detecting a subfield mapping code that does not match the subfield mapping code generated by the APL subfield mapping code generation unit among the subfield mapping codes generated by the reference subfield mapping code generation unit based on the comparison information. ; And A usage gray level setting unit configured to set a gray level corresponding to the subfield mapping code detected by the mismatch gray level detection unit to an unused gray level and output data of the gray level used; Driving device for a plasma display panel comprising a. The method of claim 1, The APL subfield mapping code generator And all subfield mapping codes that are varied by the number of sustain pulses according to each APL step. The method of claim 1, The comparison unit The subfield mapping code generated by the reference subfield mapping code generator and the APL subfield mapping code generator is converted into a decimal number, and the converted subfield mapping codes are compared with each other. drive. A driving method of a plasma display panel which expresses an image by a frame composed of a combination of a plurality of subfields, A subfield mapping code generation step of generating a reference subfield mapping code from preset frame data and generating an APL subfield mapping code from preset Auto Power Limit (APL) data; A comparison step of comparing the APL subfield mapping code and the reference subfield mapping code generated in the subfield mapping code generation step with each other; A mismatch gradation detection step of detecting a code that does not match the APL subfield mapping code among the reference subfield mapping codes as a result of the comparison in the comparing step; And Use gradation setting step of setting the gradation corresponding to the code detected in the mismatch gradation detection step as an unused gradation Method of driving a plasma display panel comprising a. The method of claim 4, wherein The subfield mapping code generation step Drive all of the subfield mapping codes that are varied by the number of sustain pulses according to each APL step, and generate the reference subfield mapping code for each subfield weight using preset frame data. Way. The method of claim 4, wherein In the comparison step And converting the reference subfield mapping code and the APL subfield mapping code into a decimal number and comparing the converted subfield mapping code with each other.

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