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    • 1. 发明申请
    • Method of manufacturing plasma display panel
    • 等离子体显示面板的制造方法
    • US20060166585A1
    • 2006-07-27
    • US10533138
    • 2004-06-17
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi AokiAkihiro Matsuda
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi AokiAkihiro Matsuda
    • H01J9/24H01J9/00
    • H01J9/445G09G3/298G09G2320/0228
    • In a plasma display panel including scan electrodes, sustain electrodes, and address electrodes, first pulse voltage for the address electrodes or second pulse voltage for the address electrodes is applied to the address electrodes, in an aging step in which aging discharge is performed by alternately applying pulse voltage for the scan electrodes and pulse voltage for the sustain electrodes at least across the scan electrodes and the sustain electrodes. The first pulse voltage has rising edge timing synchronizing with rising edge timing of the pulse voltage for the scan electrodes and a pulse width smaller than that of the pulse voltage for the scan electrodes. The second pulse voltage has rising edge timing synchronizing with rising edge timing of the pulse voltage for the sustain electrodes and a pulse width smaller than that of the pulse voltage for the sustain electrodes.
    • 在包括扫描电极,维持电极和寻址电极的等离子体显示面板中,在寻址电极中施加用于寻址电极的第一脉冲电压或寻址电极的第二脉冲电压,在老化步骤中,通过交替地进行老化放电 至少对扫描电极和维持电极两端施加用于扫描电极的脉冲电压和维持电极的脉冲电压。 第一脉冲电压具有与扫描电极的脉冲电压的上升沿定时同步的上升沿定时,并且具有小于扫描电极的脉冲电压的脉冲宽度的脉冲宽度。 第二脉冲电压具有与维持电极的脉冲电压的上升沿定时同步的上升沿定时,并且具有小于维持电极的脉冲电压的脉冲宽度的脉冲宽度。
    • 2. 发明授权
    • Method of manufacturing plasma display panel
    • 等离子体显示面板的制造方法
    • US07288012B2
    • 2007-10-30
    • US10533138
    • 2004-06-17
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi AokiAkihiro Matsuda
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi AokiAkihiro Matsuda
    • H01J9/00H01J9/44
    • H01J9/445G09G3/298G09G2320/0228
    • A plasma display panel is provided that includes scan electrodes, sustain electrodes, and address electrodes. A first pulse voltage for the address electrodes or a second pulse voltage for the address electrodes is applied to the address electrodes in an aging step in which aging discharge is performed by alternately applying pulse voltage for the scan electrodes and pulse voltage for the sustain electrodes at least across the scan electrodes and the sustain electrodes. The first pulse voltage has a rising edge timing synchronized with a rising edge timing of the pulse voltage for the scan electrodes and a pulse width smaller than that of the pulse voltage for the scan electrodes. The second pulse voltage has a rising edge timing synchronized with a rising edge timing of the pulse voltage for the sustain electrodes and a pulse width smaller than that of the pulse voltage for the sustain electrodes.
    • 提供了包括扫描电极,维持电极和寻址电极的等离子体显示面板。 用于寻址电极的第一脉冲电压或寻址电极的第二脉冲电压在老化步骤中被施加到寻址电极,在老化步骤中,通过交替地对扫描电极施加脉冲电压和维持电极的脉冲电压来进行老化放电 至少跨越扫描电极和维持电极。 第一脉冲电压具有与扫描电极的脉冲电压的上升沿定时同步的上升沿定时,并且脉冲宽度小于扫描电极的脉冲电压的脉冲宽度。 第二脉冲电压具有与维持电极的脉冲电压的上升沿定时同步的上升沿定时以及比维持电极的脉冲电压的脉冲宽度小的脉冲宽度。
    • 3. 发明申请
    • Plasma display panel aging method
    • 等离子显示屏老化方法
    • US20060284795A1
    • 2006-12-21
    • US10566156
    • 2005-05-24
    • Koji AkiyamaMasaaki YamauchiTakashi AokiKoji Aoto
    • Koji AkiyamaMasaaki YamauchiTakashi AokiKoji Aoto
    • G09G3/28
    • H01J9/445
    • Disclosed here is a method of aging a plasma display panel. The aging method of the present invention contains a first aging period and a second aging period. In the first aging period, applying voltage Vd1 to at least any one of the scan electrodes, the sustain electrodes, and the address electrodes suppress self-erase discharge that occurs in the wake of aging voltage generated by application of voltage in which the scan electrodes take a voltage level higher than the sustain electrodes. In the second aging period, applying voltage Vd2 to at least any one of the scan electrodes, the sustain electrodes, and the address electrodes suppress self-erase discharge that occurs in the wake of aging voltage generated by application of voltage in which the sustain electrodes take a voltage level higher than the scan electrodes. The above aging method offers a power-efficient aging process with the aging time accelerated.
    • 这里公开了使等离子体显示面板老化的方法。 本发明的老化方法包含第一老化期和第二老化期。 在第一老化期间,对扫描电极,维持电极和寻址电极中的至少一个施加电压Vd1,抑制在通过施加电压而产生的老化电压的后期发生的自擦除放电 电极取高于维持电极的电压电平。 在第二老化期间,对扫描电极,维持电极和寻址电极中的至少任一个施加电压Vd 2,抑制在通过施加电压而产生的老化电压的后期发生的自擦除放电, 电极的电压高于扫描电极。 上述老化方法提供了老化时间加快的功率老化过程。
    • 4. 发明授权
    • Plasma display panel aging method
    • 等离子显示屏老化方法
    • US07629947B2
    • 2009-12-08
    • US10566156
    • 2005-05-24
    • Koji AkiyamaMasaaki YamauchiTakashi AokiKoji Aoto
    • Koji AkiyamaMasaaki YamauchiTakashi AokiKoji Aoto
    • G09G3/28
    • H01J9/445
    • Disclosed here is a method of aging a plasma display panel. The aging method of the present invention contains a first aging period and a second aging period. In the first aging period, applying voltage Vd1 to at least any one of the scan electrodes, the sustain electrodes, and the address electrodes suppress self-erase discharge that occurs in the wake of aging voltage generated by application of voltage in which the scan electrodes take a voltage level higher than the sustain electrodes. In the second aging period, applying voltage Vd2 to at least any one of the scan electrodes, the sustain electrodes, and the address electrodes suppress self-erase discharge that occurs in the wake of aging voltage generated by application of voltage in which the sustain electrodes take a voltage level higher than the scan electrodes.The above aging method offers a power-efficient aging process with the aging time accelerated.
    • 这里公开了使等离子体显示面板老化的方法。 本发明的老化方法包含第一老化期和第二老化期。 在第一老化期间,向扫描电极,维持电极和寻址电极中的至少一个施加电压Vd1,抑制在通过施加电压而产生的老化电压的后期发生的自擦除放电,其中扫描电极 取高于维持电极的电压电平。 在第二老化期间,向扫描电极,维持电极和寻址电极中的至少任一个施加电压Vd2,抑制在通过施加电压而产生的老化电压的后期发生的自擦除放电,其中维持电极 取高于扫描电极的电压电平。 上述老化方法提供了老化时间加快的功率老化过程。
    • 5. 发明申请
    • Aging method and aging apparatus for plasma display panel
    • 等离子体显示面板的老化方法和老化装置
    • US20060228972A1
    • 2006-10-12
    • US10552396
    • 2004-07-16
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi Aoki
    • Koji AkiyamaKoji AotoMasaaki YamauchiTakashi Aoki
    • H01J9/24H01J61/52H01J17/49H01J9/00
    • H01J11/12H01J9/445
    • An aging method and an aging device are provided by which a plasma display panel that reduces the generation of irregular color and that has a high display quality can be obtained. An aging method and an aging apparatus for plasma display panels are disclosed which enable to obtain a plasma display panel with high display quality wherein color irregularities are suppressed. The aging apparatus for plasma display panels comprises a plurality of fans. When air is blown to a plasma display panel using the fans during aging of the plasma display panel, at least the direction or the amount of air blow by at least one of the fans is changed so that the temperatures of image display regions in the plasma display panel can be uniform, thereby suppressing color irregularities.
    • 提供了一种老化方法和老化装置,通过该方法可以获得减少不规则颜色的产生并且具有高显示质量的等离子体显示面板。 公开了一种用于等离子体显示面板的老化方法和老化装置,其能够获得具有高显示质量的等离子体显示面板,其中抑制了颜色不规则。 等离子体显示面板的老化装置包括多个风扇。 当在等离子体显示面板老化期间使用风扇将空气吹到等离子体显示面板时,至少由风扇中的至少一个风扇吹出的方向或吹入量至少使得等离子体中的图像显示区域的温度 显示面板可以均匀,从而抑制颜色不规则。
    • 6. 发明授权
    • Plasma display panel and method of aging the same
    • 等离子显示屏和老化方法相同
    • US07303456B2
    • 2007-12-04
    • US11594737
    • 2006-11-09
    • Masaaki YamauchiTakashi AokiAkihiro MatsudaKoji Akiyama
    • Masaaki YamauchiTakashi AokiAkihiro MatsudaKoji Akiyama
    • H01J9/00
    • H01J9/445H01J2217/492
    • In an aging process in which a voltage having an alternate voltage component is applied to at least between a scan electrode and a sustain electrode so as to form a discharge dent (sputter dent) on a protecting layer, the aging discharge dent is formed so as to satisfy any one of the following. First, the discharge dent on the scan electrode-side has a width which is narrower than the discharge dent on the side of sustain electrode. Second, the discharge dent on the side of sustain electrode is formed so that the depth of the discharge dent in the area away from a scan electrode paired with a sustain electrode as a display electrode is shallower than the depth of the discharge dent in the area close to counterpart scan electrode.
    • 在具有交替电压分量的电压至少在扫描电极和维持电极之间施加电压以在保护层上形成放电凹陷(溅射凹陷)的老化过程中,老化放电凹陷形成为 以满足以下任何一个。 首先,扫描电极侧的放电凹陷的宽度比维持电极一侧的放电凹部窄。 第二,维持电极一侧的放电凹陷形成为使得与作为显示电极的维持电极配对的扫描电极的区域中的放电凹陷的深度比该区域中的放电凹陷的深度浅 靠近对应扫描电极。
    • 9. 发明申请
    • Plasma display panel and its aging method
    • 等离子显示面板及其老化方法
    • US20050162085A1
    • 2005-07-28
    • US10510977
    • 2004-02-18
    • Masaaki YamauchiTakashi AokiAkihiro MatsudaKoji Akiyama
    • Masaaki YamauchiTakashi AokiAkihiro MatsudaKoji Akiyama
    • H01J9/44H01J17/49
    • H01J9/445H01J2217/492
    • In the aging process in which a voltage having an alternate voltage component is applied to at least between scan electrode (5) and sustain electrode (6) so as to form a discharge dent (sputter dent) on the protecting layer, the aging discharge dent is formed so as to satisfy any one of the followings. Firstly, the discharge dent on the scan electrode-side has a width narrower than the discharge dent on the side of sustain electrode (6). Secondly, the discharge dent on the side of sustain electrode (6) is formed so that the depth of the discharge dent in the area away from scan electrode (5) paired with sustain electrode (6) as a display electrode is shallower than the depth of the discharge dent in the area close to counterpart scan electrode (5).
    • 在具有交替电压分量的电压至少在扫描电极(5)和维持电极(6)之间施加电压以在保护层上形成放电凹陷(溅射凹陷)的老化过程中,老化放电凹槽 形成为满足以下任何一个。 首先,扫描电极侧的放电凹陷的宽度比维持电极(6)一侧的放电凹部窄。 其次,形成维持电极(6)一侧的放电凹陷,使得与作为显示电极的维持电极(6)配对的扫描电极(5)的区域中的放电凹陷的深度比深度 在靠近对方扫描电极(5)的区域中的放电凹陷。
    • 10. 发明授权
    • Plasma display panel and its aging method
    • 等离子显示面板及其老化方法
    • US07270585B2
    • 2007-09-18
    • US10510977
    • 2004-02-18
    • Masaaki YamauchiTakashi AokiAkihiro MatsudaKoji Akiyama
    • Masaaki YamauchiTakashi AokiAkihiro MatsudaKoji Akiyama
    • H01J9/00
    • H01J9/445H01J2217/492
    • In an aging process in which a voltage having an alternate voltage component is applied to at least between a scan electrode and a sustain electrode so as to form a discharge dent (sputter dent) on a protecting layer, the aging discharge dent is formed so as to satisfy any one of the following. First, the discharge dent on the scan electrode-side has a width which is narrower than the discharge dent on the side of sustain electrode. Second, the discharge dent on the side of sustain electrode is formed so that the depth of the discharge dent in the area away from a scan electrode paired with a sustain electrode as a display electrode is shallower than the depth of the discharge dent in the area close to counterpart scan electrode.
    • 在具有交替电压分量的电压至少在扫描电极和维持电极之间施加电压以在保护层上形成放电凹陷(溅射凹陷)的老化过程中,老化放电凹陷形成为 以满足以下任何一个。 首先,扫描电极侧的放电凹陷的宽度比维持电极一侧的放电凹部窄。 第二,维持电极一侧的放电凹陷形成为使得与作为显示电极的维持电极配对的扫描电极的区域中的放电凹陷的深度比该区域中的放电凹陷的深度浅 靠近对应扫描电极。