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    • 1. 发明申请
    • METHOD FOR DRIVING PLASMA DISPLAY DEVICE
    • 驱动等离子体显示装置的方法
    • US20120281029A1
    • 2012-11-08
    • US13520428
    • 2011-01-19
    • Takahiko OriguchiHirofumi HondaHidehiko ShojiNaoyuki TomiokaKazuhiro Kanai
    • Takahiko OriguchiHirofumi HondaHidehiko ShojiNaoyuki TomiokaKazuhiro Kanai
    • G09G3/28G09G5/00
    • G09G3/293G09G3/2003G09G3/2022G09G2320/0209G09G2360/16
    • The plasma display apparatus suppresses addressing failure, enhancing stability of address discharge, and therefore, enhancing quality of display image on the panel. The present invention attains above through the followings: preparing display combination sets each of which having difference in number of combinations; determining whether or not magnitude of image signals, except for a predetermined color image signal, is greater than a threshold; and according to the determination above, selecting a set for the predetermined color image signal from the display combination sets. A display combination set used for the predetermined color image signal when the image signals except for the predetermined color image signal have magnitude not less than the threshold is smaller in number of combinations than that used for the predetermined color image signal when the image signals except for the predetermined color image signal have magnitude smaller than the threshold.
    • 等离子体显示装置抑制寻址失败,增强寻址放电的稳定性,从而提高面板上显示图像的质量。 以下通过以下实现本发明:准备各组合数不同的显示组合组; 确定除了预定彩色图像信号之外的图像信号的大小是否大于阈值; 并且根据上述判定,从显示组合集合中选择用于预定彩色图像信号的集合。 当除了预定彩色图像信号之外的图像信号具有不小于阈值的幅度时,用于预定彩色图像信号的显示组合组比用于预定彩色图像信号时的图像信号的组合数量小 预定彩色图像信号的幅度小于阈值。
    • 3. 发明申请
    • DRIVING METHOD FOR PLASMA DISPLAY PANEL, AND PLASMA DISPLAY DEVICE
    • 等离子体显示面板的驱动方法和等离子体显示装置
    • US20130278649A1
    • 2013-10-24
    • US13995011
    • 2011-12-22
    • Ayuhiko SaitoTakahiko OriguchiYuya ShiozakiNaoyuki TomiokaHidehiko Shoji
    • Ayuhiko SaitoTakahiko OriguchiYuya ShiozakiNaoyuki TomiokaHidehiko Shoji
    • G09G3/28
    • G09G3/28G09G3/2022G09G3/2927G09G3/2965G09G2310/066
    • In the plasma display apparatus, address discharge is caused stably. For this purpose, one of a forced initializing operation and a selective initializing operation is performed in the initializing period. Then, one field includes a specific-cell initializing subfield having an initializing period in which a forced initializing operation is performed in a specific discharge cell and a selective initializing operation is performed in the other discharge cells. In the address period of the specific-cell initializing subfield, the period in which a scan pulse and an address pulse are simultaneously applied to a discharge cell having undergone the selective initializing operation in the initializing period of the specific-cell initializing subfield is made longer than the period in which a scan pulse and an address pulse are simultaneously applied to a discharge cell having undergone the forced initializing operation in the initializing period of the specific-cell initializing subfield.
    • 在等离子体显示装置中,稳定地产生寻址放电。 为此,在初始化期间进行强制初始化动作和选择初始化动作。 然后,一个场包括特定单元初始化子场,该特定单元初始化子场具有在特定放电单元中进行强制初始化动作的初始化期间,在其他放电单元中进行选择初始化动作。 在特定单元初始化子场的寻址周期中,将扫描脉冲和寻址脉冲同时施加到在特定单元初始化子场的初始化周期中经过选择性初始化操作的放电单元的周期变长 比在特定单元初始化子场的初始化期间同时对已进行强制初始化动作的放电单元施加扫描脉冲和寻址脉冲的期间。
    • 4. 发明申请
    • PLASMA DISPLAY DEVICE AND DRIVE METHOD FOR A PLASMA DISPLAY PANEL
    • 等离子体显示面板的等离子体显示装置和驱动方法
    • US20120113165A1
    • 2012-05-10
    • US13383304
    • 2010-07-14
    • Takahiko OriguchiHidehiko ShojiNaoyuki Tomioka
    • Takahiko OriguchiHidehiko ShojiNaoyuki Tomioka
    • G09G3/10G09G5/10
    • H04N5/70G09G3/293G09G3/294G09G3/296G09G2320/0686G09G2360/16
    • A stable address discharge is caused by preventing an increase in the scan pulse voltage (amplitude) necessary for causing a stable address discharge, and thereby achieves high image display quality. For this purpose, the following operations are performed. The image display area of a plasma display panel is divided into a plurality of regions. In each region, the rate of the number of discharge cells to be lit with respect to the number of all discharge cells in each region is detected, as a partial light-emitting rate of each region, and the partial light-emitting rate is detected in each subfield. The region having the maximum partial light-emitting rate is detected and set as a first region. The regions adjacent to the first region are set as second regions, and a predetermined offset value is added to the partial light-emitting rates of the second regions so as to provide corrected partial light-emitting rates. Magnitude comparison is performed between the partial light-emitting rates and corrected partial light-emitting rates, and the order of address operations on the respective regions is determined based on the result of the magnitude comparison.
    • 通过防止导致稳定的寻址放电所需的扫描脉冲电压(幅度)的增加而产生稳定的寻址放电,从而实现高图像显示质量。 为此,执行以下操作。 等离子体显示面板的图像显示区域被分成多个区域。 在每个区域中,检测相对于每个区域中的所有放电单元的数量的放电单元的数量的比率作为每个区域的部分发光率,并且检测部分发光率 在每个子领域。 检测具有最大部分发光率的区域并将其设置为第一区域。 将与第一区域相邻的区域设置为第二区域,并且将预定偏移值添加到第二区域的部分发光率,以提供校正的部分发光率。 在部分发光率和校正的部分发光率之间进行幅度比较,并且基于幅度比较的结果来确定各个区域上的地址操作的顺序。
    • 5. 发明申请
    • METHOD OF DRIVING PLASMA DISPLAY DEVICE AND PLASMA DISPLAY DEVICE
    • 驱动等离子体显示装置和等离子体显示装置的方法
    • US20130241972A1
    • 2013-09-19
    • US13990014
    • 2011-12-01
    • Takahiko OriguchiYuya ShiozakiNaoyuki TomiokaHidehiko Shoji
    • Takahiko OriguchiYuya ShiozakiNaoyuki TomiokaHidehiko Shoji
    • G09G3/298
    • G09G3/298G09G3/2022G09G3/2927G09G3/2965G09G2310/066
    • In a plasma display apparatus, contrast is enhanced and a stable address discharge is caused. For this purpose, one of a forced initializing operation and a selective initializing operation is performed in initializing periods. A specified-cell initializing subfield and a selective initializing subfield are set in one field. In the specified-cell initializing subfield, the forced initializing operation is performed on specified discharge cells and the selective initializing operation is performed on the other discharge cells. In the selective initializing subfield, the selective initializing operation is performed on all the discharge cells. In the selective initializing period, a down-ramp waveform voltage is applied to the scan electrodes and a positive voltage is applied to the data electrodes. In the selective initializing subfield, based on the load calculated in the address period of the immediately preceding subfield, the minimum voltage of the down-ramp waveform voltage is controlled.
    • 在等离子体显示装置中,对比度增强,并且产生稳定的寻址放电。 为此,在初始化期间进行强制初始化动作和选择初始化动作。 在一个字段中设置指定单元格初始化子字段和选择性初始化子字段。 在指定单元初始化子场中,对规定的放电单元进行强制初始化动作,对其他放电单元进行选择初始化动作。 在选择性初始化子场中,对所有放电单元执行选择性初始化操作。 在选择初始化期间,向扫描电极施加下降斜坡波形电压,向数据电极施加正电压。 在选择性初始化子场中,根据在前一子场的寻址周期中计算的负载,控制下斜坡波形电压的最小电压。
    • 6. 发明申请
    • PLASMA DISPLAY PANEL DRIVING METHOD AND PLASMA DISPLAY DEVICE
    • 等离子显示面板驱动方法和等离子体显示装置
    • US20120280954A1
    • 2012-11-08
    • US13520696
    • 2011-01-19
    • Naoyuki TomiokaTakahiko OriguchiHidehiko Shoji
    • Naoyuki TomiokaTakahiko OriguchiHidehiko Shoji
    • G09G5/00G09G3/28
    • G09G3/296G09G3/2022G09G3/2927G09G3/293G09G2310/0218
    • Stable address discharge is caused even in a plasma display panel where the definition is enhanced and the screen is enlarged. For this purpose, in a driving method of a plasma display panel, the image display region of the panel is divided into a plurality of partial display regions each of which includes a plurality of consecutively arranged scan electrodes. In each partial display region, a sequential address operation of sequentially applying scan pulses to the scan electrodes based on the arranging sequence of the scan electrodes on the panel is performed in the address period. To the scan electrode to which a scan pulse is to be firstly applied in the address period, a scan pulse of which the pulse width is set longer than that of the scan pulse to be applied to the other scan electrodes is applied.
    • 甚至在等离子体显示面板中也引起了稳定的寻址放电,其中定义被增强并且屏幕被放大。 为此,在等离子体显示面板的驱动方法中,将面板的图像显示区域划分为多个部分显示区域,每个部分显示区域包括多个连续排列的扫描电极。 在每个部分显示区域中,在寻址周期中执行基于面板上的扫描电极的布置顺序将扫描脉冲顺序地施加到扫描电极的顺序地址操作。 对于在寻址周期中要首先施加扫描脉冲的扫描电极,施加脉冲宽度被设定为长于施加到其它扫描电极的扫描脉冲的扫描脉冲的扫描脉冲。
    • 7. 发明申请
    • DRIVING METHOD FOR PLASMA DISPLAY PANEL, AND PLASMA DISPLAY DEVICE
    • 等离子体显示面板的驱动方法和等离子体显示装置
    • US20120092394A1
    • 2012-04-19
    • US13378188
    • 2010-06-17
    • Hidehiko ShojiTakahiko OriguchiNaoyuki Tomioka
    • Hidehiko ShojiTakahiko OriguchiNaoyuki Tomioka
    • G09G3/28G09G5/10
    • G09G3/296G09G3/2022G09G3/293G09G2310/0213G09G2330/025G09G2340/16G09G2360/16
    • A stable address discharge is caused by preventing an increase in the necessary scan pulse voltage (amplitude), and thereby achieves high image display quality. For this purpose, the image display area of a plasma display panel is divided into a plurality of regions, and a partial light-emitting rate is detected in each region. The partial light-emitting rate in a current subfield is set as a first partial light-emitting rate. The partial light-emitting rate used for magnitude comparison between the partial light-emitting rates in a subfield identical with the current subfield in a field immediately preceding the field to which the current subfield belongs to is set as a second partial light-emitting rate. The absolute value of the difference between the first partial light-emitting rate and the second partial light-emitting rate is calculated in each region. In the region where the value is equal to or larger than a light-emitting rate threshold value, the first partial light-emitting rate is used for the magnitude comparison between the partial light-emitting rates in the current subfield. In the region where the value is smaller than the light-emitting rate threshold value, the second partial light-emitting rate is used for the magnitude comparison between the partial light-emitting rates in the current subfield.
    • 通过防止必要的扫描脉冲电压(振幅)的增大,可以实现稳定的寻址放电,从而实现高的图像显示质量。 为此,等离子体显示面板的图像显示区域被划分为多个区域,并且在每个区域中检测到部分发光率。 将当前子场中的部分发光率设定为第一部分发光率。 将与当前子场所属的场之前的场中与当前子场相同的子场中的部分发光率之间的幅度比较的部分发光率设定为第二部分发光率。 在各区域中计算出第一部分发光率与第二部分发光率之差的绝对值。 在该值等于或大于发光率阈值的区域中,第一部分发光率用于当前子场中的部分发光率之间的幅度比较。 在该值小于发光率阈值的区域中,将第二部分发光率用于当前子场中的部分发光率之间的幅度比较。
    • 9. 发明申请
    • PLASMA DISPLAY PANEL DRIVING METHOD AND PLASMA DISPLAY DEVICE
    • 等离子显示面板驱动方法和等离子体显示装置
    • US20120105516A1
    • 2012-05-03
    • US13383074
    • 2010-07-07
    • Hidehiko ShojiTakahiko OriguchiNaoyuki TomiokaTakateru Sawada
    • Hidehiko ShojiTakahiko OriguchiNaoyuki TomiokaTakateru Sawada
    • G09G3/28G09G5/10G09G5/00
    • G09G3/296G09G3/2932G09G2310/0213
    • An image display region is divided into a plurality of partial display regions, the scan electrodes included in each partial display region are classified into two scan electrode groups: a scan electrode group formed of the odd-numbered scan electrodes; and a scan electrode group formed of the even-numbered scan electrodes. Scan pulses are sequentially applied to one scan electrode group, and then scan pulses are sequentially applied to the other scan electrode group. The pulse width of the scan pulses applied to the first through predetermined-number-th scan electrodes belonging to the one scan electrode group is set to be longer than the pulse width of the scan pulses applied to the remaining scan electrodes belonging to the one scan electrode group. The pulse width of the scan pulses applied to the first through predetermined-number-th scan electrodes belonging to the other scan electrode group is set to be longer than the pulse width of the scan pulses applied to the remaining scan electrodes belonging to the other scan electrode group.
    • 图像显示区域被分成多个部分显示区域,每个部分显示区域中包括的扫描电极分为两个扫描电极组:由奇数扫描电极形成的扫描电极组; 以及由偶数扫描电极形成的扫描电极组。 将扫描脉冲依次施加到一个扫描电极组,然后扫描脉冲依次施加到另一个扫描电极组。 施加到属于一个扫描电极组的第一至第一预定第
      三扫描电极的扫描脉冲的脉冲宽度被设定为比施加到属于该一个扫描电极组的剩余扫描电极的扫描脉冲的脉冲宽度 电极组。 施加到属于另一扫描电极组的第一至第二预定第扫描电极的扫描脉冲的脉冲宽度被设定为比施加到属于另一扫描电极组的剩余扫描电极的扫描脉冲的脉冲宽度 电极组。