摘要:
A plasma display panel has address properties stabilized. A priming discharge is performed between auxiliary electrodes (17), which are formed on a front substrate (1) and coupled with scan electrodes (6) and priming electrodes (14) formed on a back substrate (2). Furthermore, a material layer (5) containing at least one of alkali metal oxide, alkaline earth metal oxide and fluoride is provided on regions corresponding to priming discharge spaces (30) (gap parts 13) on the back substrate (2). As a result, the priming discharge has a wider margin, and a supply of priming particles to the discharge cells is stabilized, whereby a discharge delay during the addressing is reduced, and the address properties are stabilized.
摘要:
A plasma display panel has address properties stabilized. A priming discharge is performed between auxiliary electrodes (17), which are formed on a front substrate (1) and coupled with scan electrodes (6) and priming electrodes (14) formed on a back substrate (2). Furthermore, a material layer (5) containing at least one of alkali metal oxide, alkaline earth metal oxide and fluoride is provided on regions corresponding to priming discharge spaces (30) (gap parts 13) on the back substrate (2). As a result, the priming discharge has a wider margin, and a supply of priming particles to the discharge cells is stabilized, whereby a discharge delay during the addressing is reduced, and the address properties are stabilized.
摘要:
A plasma display panel has address properties stabilized. A priming discharge is performed between auxiliary electrodes (18), which are formed on a front substrate (1) and coupled with scan electrodes (6), and priming electrodes (14) formed on a back substrate (2). And on the front substrate (1), a dielectric layer (4) is made thinner in regions corresponding to priming cells (gap parts 13) than in regions corresponding to cell parts (11). As a result, the priming discharge has a wider margin, and a supply of priming particles to the discharge cells is stabilized, whereby a discharge delay during the addressing is reduced, and the address properties are stabilized.
摘要:
The invention is a plasma display panel capable of stabilizing the addressing characteristics. A barrier rib is formed by longitudinal barrier ribs portion orthogonal to the scan electrodes and sustain electrodes on the front substrate, and side barrier rib portions crossing with these longitudinal barrier rib portions, to form cell spaces and form interstice portions between the cell spaces, and priming electrodes for producing a discharge between the front substrate and the rear substrate within the interstice portions are formed. Stable priming discharge is produced with certainty by the scan electrode and the priming electrode, hence decreasing the discharge time lag at the time of addressing and stabilizing the addressing characteristics.
摘要:
Barrier ribs are disposed on a back substrate so as to separate main discharge cells formed of a display electrode pair and a data electrode which face each other and priming discharge cells formed of a clearance between two adjacent scan electrodes. The top parts of the barrier ribs are formed so as to abut on a front substrate. In a driving method, in an odd-numbered line writing time period, scan pulse Va is sequentially applied to odd-numbered scan electrode SCp and voltage Vq is applied to even-numbered scan electrode SCp+1 to cause priming discharge between scan electrode SCp+1 and odd-numbered scan electrode SCp. In an even-numbered line writing time period, scan pulse Va is sequentially applied to even-numbered scan electrode SCp+1 and voltage Vq is applied to odd-numbered scan electrode SCp to cause priming discharge between scan electrode SCp and even-numbered scan electrode SCp+1.
摘要翻译:阻挡肋设置在背面基板上,以分离由彼此面对的显示电极对和数据电极形成的主放电单元,并且由两个相邻的扫描电极之间的间隙形成的起动放电单元。 隔壁的顶部形成为与前基板抵接。 在驱动方法中,在奇数行写入时间段中,将扫描脉冲Va顺序地施加到奇数扫描电极SC< P>,将电压Vq施加到偶数扫描电极SC p + 1 SUB>以引起扫描电极SC< p + 1>和奇数扫描电极SC< P>之间的引发放电。 在偶数行写入时间段中,将扫描脉冲Va顺序地施加到偶数扫描电极SC< p + 1>,并且将电压Vq施加到奇数扫描电极SC< / SUB>,以使扫描电极SC和P2与偶数扫描电极SC< p + 1>之间引起放电。
摘要:
Barrier ribs are disposed on a back substrate so as to separate main discharge cells and priming discharge cells, and the top parts of the barrier ribs are formed so as to abut on a front substrate. In a driving method, in an odd-numbered line writing time period, scan pulse Va is sequentially applied to odd-numbered scan electrode SCp and voltage Vq is applied to even-numbered sustain electrode SUp+1 to cause priming discharge between even-numbered sustain electrode SUp+1 and odd-numbered scan electrode SCp. In an even-numbered line writing time period, scan pulse Va is sequentially applied to even-numbered scan electrode SCp+1 and voltage Vq is applied to odd-numbered sustain electrode SUp to cause priming discharge between odd-numbered sustain electrode SUp and even-numbered scan electrode SCp+1.
摘要翻译:阻挡肋设置在后基板上,以便分离主放电单元和引发放电单元,并且形成障壁的顶部以抵靠在前基板上。 在驱动方法中,在奇数行写入时间周期中,将扫描脉冲Va顺序地施加到奇数扫描电极SC&lt; P&gt;,并且将电压Vq施加到偶数维持电极SU p + 1 SUB>以在偶数维持电极SU&lt; p + 1&gt;和奇数扫描电极SC&lt; P&gt;之间引起引发放电。 在偶数行写入时间段中,扫描脉冲Va顺序地施加到偶数扫描电极SC&lt; p + 1&gt;,并且将电压Vq施加到奇数维持电极SU < / SUB>以使得奇数维持电极SU&lt; P&lt;和偶数扫描电极SC&lt; p + 1&gt;之间的引发放电。
摘要:
Barrier ribs are disposed on a back substrate so as to separate main discharge cells formed of a display electrode pair and a data electrode which face each other and priming discharge cells formed of a clearance between two adjacent scan electrodes. The top parts of the barrier ribs are formed so as to abut on a front substrate. In a driving method, in an odd-numbered line writing time period, scan pulse Va is sequentially applied to odd-numbered scan electrode SCp and voltage Vq is applied to even-numbered scan electrode SCp+1 to cause priming discharge between scan electrode SCp+1 and odd-numbered scan electrode SCp. In an even-numbered line writing time period, scan pulse Va is sequentially applied to even-numbered scan electrode SCp+1 and voltage Vq is applied to odd-numbered scan electrode SCp to cause priming discharge between scan electrode SCp and even-numbered scan electrode SCp+1.
摘要翻译:阻挡肋设置在背面基板上,以分离由彼此面对的显示电极对和数据电极形成的主放电单元,并且由两个相邻的扫描电极之间的间隙形成的起动放电单元。 隔壁的顶部形成为与前基板抵接。 在驱动方法中,在奇数行写入时间段中,将扫描脉冲Va顺序地施加到奇数扫描电极SC&lt; P&gt;,将电压Vq施加到偶数扫描电极SC p + 1 SUB>以引起扫描电极SC&lt; p + 1&gt;和奇数扫描电极SC&lt; P&gt;之间的引发放电。 在偶数行写入时间段中,将扫描脉冲Va顺序地施加到偶数扫描电极SC&lt; p + 1&gt;,并且将电压Vq施加到奇数扫描电极SC&lt; / SUB>,以使扫描电极SC和P2与偶数扫描电极SC&lt; p + 1&gt;之间引起放电。
摘要:
Barrier ribs are disposed on a back substrate so as to separate main discharge cells and priming discharge cells, and the top parts of the barrier ribs are formed so as to abut on a front substrate. In a driving method, in an odd-numbered line writing time period, scan pulse Va is sequentially applied to odd-numbered scan electrode SCp and voltage Vq is applied to even-numbered sustain electrode SUp+1 to cause priming discharge between even-numbered sustain electrode SUp+1 and odd-numbered scan electrode SCp. In an even-numbered line writing time period, scan pulse Va is sequentially applied to even-numbered scan electrode SCp+1 and voltage Vq is applied to odd-numbered sustain electrode SUp to cause priming discharge between odd-numbered sustain electrode SUp and even-numbered scan electrode SCp+1.
摘要翻译:阻挡肋设置在后基板上,以便分离主放电单元和引发放电单元,并且形成障壁的顶部以抵靠在前基板上。 在驱动方法中,在奇数行写入时间周期中,将扫描脉冲Va顺序地施加到奇数扫描电极SC&lt; P&gt;,并且将电压Vq施加到偶数维持电极SU p + 1 SUB>以在偶数维持电极SU&lt; p + 1&gt;和奇数扫描电极SC&lt; P&gt;之间引起引发放电。 在偶数行写入时间段中,扫描脉冲Va顺序地施加到偶数扫描电极SC&lt; p + 1&gt;,并且将电压Vq施加到奇数维持电极SU < / SUB>以使得奇数维持电极SU&lt; P&gt;和偶数扫描电极SC&lt; p + 1&gt;之间的引发放电。
摘要:
The invention is a plasma display panel capable of stabilizing the addressing characteristics. A barrier rib is formed by longitudinal barrier ribs portion orthogonal to the scan electrodes and sustain electrodes on the front substrate, and side barrier rib portions crossing with these longitudinal barrier rib portions, to form cell spaces and form interstice portions between the cell spaces, and priming electrodes for producing a discharge between the front substrate and the rear substrate within the interstice portions are formed. Stable priming discharge is produced with certainty by the scan electrode and the priming electrode, hence decreasing the discharge time lag at the time of addressing and stabilizing the addressing characteristics.
摘要:
An atomic layer deposition apparatus includes: a first chamber which is surrounded by walls including a supply hole for the reactive gas formed thereon; a second chamber which is surrounded by walls including a supply hole for a source gas formed thereon; an antenna array which is provided in the first chamber, the antenna array having a plurality of rod-shaped antenna elements provided in parallel respectively to produce the plasma using the reactive gas; a substrate stage which is provided in the second chamber, the substrate being placed on the substrate stage; and a connecting member which connects the first chamber and the second chamber to supply gas containing reactive gas radical from the first chamber to the second chamber, the reactive gas radical being produced using the antenna array.