JP2002207449A5 - - Google Patents

Description

[Claims]
[Claim 1]
In a method of driving a plasma display panel that displays using subfields that have at least an address period.
When the temperature is the first temperature, an address pulse of the first width is applied to the address electrode during the address period.
When the temperature is a second temperature higher than the first temperature, an address pulse having a second width shorter than the first width is applied to the address electrode during the address period. How to drive the plasma display panel.
2.
In a method of driving a plasma display panel that displays using subfields that have at least an address period.
When the temperature is the first temperature, a scan pulse of the first width is applied to the display electrode during the address period.
When the temperature is a second temperature higher than the first temperature, a scan pulse having a second width shorter than the first width is applied to the display electrode during the address period. How to drive the plasma display panel.
3.
In the method for driving a plasma display panel according to claim 1,
When the temperature is the first temperature, a scan pulse having a width corresponding to the address pulse having the first width is applied to the display electrode during the address period.
A method for driving a plasma display panel, which comprises applying a scan pulse having a width corresponding to an address pulse having the second width to the display electrode during an address period when the temperature is the second temperature.
4.
The method for driving the plasma display panel according to claim 2.
When the temperature is the first temperature, an address pulse having a width corresponding to the scan pulse having the first width is applied to the address electrode during the address period.
A method for driving a plasma display panel, which comprises applying an address pulse having a width corresponding to the scan pulse having the second width to the address electrode during the address period when the temperature is the second temperature.
5.
In the method for driving a plasma display panel according to any one of claims 1 to 4.
When the temperature is the first temperature, the length of the address period is defined as the first length.
A method for driving a plasma display panel, which comprises setting the length of the address period to a second length shorter than the first length when the temperature is the second temperature.
6.
In the method for driving a plasma display panel according to any one of claims 1, 3 to 5.
When the temperature is the first temperature, the width of the address pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the address pulse is set to a second width shorter than the first width.
A method for driving a plasma display panel, which comprises setting the width of the address pulse to a third width shorter than the second width when the temperature is a third temperature higher than the second temperature.
7.
In the method for driving a plasma display panel according to any one of claims 2 to 6.
When the temperature is the first temperature, the width of the scan pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the scan pulse is set to a second width shorter than the first width.
A method for driving a plasma display panel, which comprises setting the width of the scan pulse to a third width shorter than the second width when the temperature is a third temperature higher than the second temperature.
8.
In the method for driving a plasma display panel according to any one of claims 1 to 7.
A method for driving a plasma display panel, which comprises applying a reset pulse including a positive pulse whose voltage value increases with the passage of time to the display electrode during the reset period.
9.
In the method for driving a plasma display panel according to any one of claims 1 to 8.
A method for driving a plasma display panel, which comprises applying a reset pulse including a negative pulse whose voltage value decreases with the passage of time to the display electrode during the reset period.
10.
In the method for driving a plasma display panel according to any one of claims 2 to 9.
A method for driving a plasma display panel, characterized in that the reaching potential of a scan pulse applied to the display electrode during the address period is lower than the reaching potential of a negative reset pulse applied to the display electrode during the reset period.
11.
In the method for driving a plasma display panel according to any one of claims 2 to 10.
A method for driving a plasma display panel, characterized in that a constant potential is applied to the display electrode when a cell is not selected during the address period.
12.
In a method of driving a plasma display panel that displays using subfields that have at least an address period.
The address period when the temperature is the first temperature is defined as the first address period.
When the address period when the temperature is the second temperature higher than the first temperature is defined as the second address period,
A method for driving a plasma display panel, wherein the second address period is shorter than the first address period.
13.
In the method for driving a plasma display panel according to claim 12,
When the temperature is the first temperature, an address pulse having a first width is applied to the address electrode during the address period.
A method for driving a plasma display panel, which comprises applying an address pulse having a second width shorter than the first width to the address electrode during the address period when the temperature is the second temperature.
14.
In the method for driving a plasma display panel according to claim 12,
When the temperature is the first temperature, a scan pulse having a first width is applied to the display electrode during the address period.
A method for driving a plasma display panel, which comprises applying a scan pulse having a second width shorter than the first width to the display electrode during an address period when the temperature is the second temperature.
15.
In the method for driving a plasma display panel according to claim 13,
When the temperature is the first temperature, a scan pulse having a width corresponding to the address pulse having the first width is applied to the display electrode during the address period.
A method for driving a plasma display panel, which comprises applying a scan pulse having a width corresponding to an address pulse having a second width to the display electrode during an address period when the temperature is the second temperature.
16.
In the method for driving a plasma display panel according to claim 14,
When the temperature is the first temperature, an address pulse having a width corresponding to the scan pulse having the first width is applied to the address electrode during the address period.
A method for driving a plasma display panel, which comprises applying an address pulse having a width corresponding to a scan pulse having a second width to the address electrode during an address period when the temperature is the second temperature.
17.
The method for driving a plasma display panel according to any one of claims 12, 14 to 16.
When the temperature is the first temperature, the width of the address pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the address pulse is set to a second width shorter than the first width.
A method for driving a plasma display panel, which comprises setting the width of the address pulse to a third width shorter than the second width when the temperature is a third temperature higher than the second temperature.
18.
The method for driving a plasma display panel according to any one of claims 13 to 16.
When the temperature is the first temperature, the width of the scan pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the scan pulse is set to a second width shorter than the first width.
A method for driving a plasma display panel, which comprises setting the width of the scan pulse to a third width shorter than the second width when the temperature is a third temperature higher than the second temperature.
19.
In the method for driving a plasma display panel according to any one of claims 13 to 18.
A method for driving a plasma display panel, characterized in that the reaching potential of a scan pulse applied to the display electrode during the address period is lower than the reaching potential of a negative reset pulse applied to the display electrode during the reset period.
20.
In the method for driving a plasma display panel according to any one of claims 13 to 18.
A method for driving a plasma display panel, characterized in that a constant potential is applied to the display electrode when a cell is not selected during the address period.
21.
In a plasma display panel that displays using subfields that have at least an address period
An address electrode formed on the first substrate and extending in the first direction,
A display electrode formed on a second substrate facing the first substrate and extending in a second direction intersecting the first direction,
A first drive unit that applies a pulse to the address electrode and
A second drive unit that applies a pulse to the display electrode and
Equipped with a temperature detector that detects the temperature,
When the temperature is the first temperature, the first driving unit applies an address pulse having a first width to the address electrode during the address period, and the temperature is higher than the first temperature. A plasma display panel, characterized in that an address pulse having a second width shorter than the first width is applied to the address electrode during the address period.
22.
In a plasma display panel that displays using subfields that have at least an address period
An address electrode formed on the first substrate and extending in the first direction,
A display electrode formed on a second substrate facing the first substrate and extending in a second direction intersecting the first direction,
A first drive unit that applies a pulse to the address electrode and
A second drive unit that applies a pulse to the display electrode and
Equipped with a temperature detector that detects the temperature,
When the temperature is the first temperature, the second driving unit applies a scan pulse having a first width to the display electrode during the address period, and the temperature is higher than the first temperature. A plasma display panel, characterized in that a scan pulse having a second width shorter than the first width is applied to the display electrode during the address period.
23.
In the plasma display panel according to claim 21,
When the temperature is the first temperature, the second drive unit applies a scan pulse having a first width corresponding to the address pulse having the first width to the display electrode during the address period to obtain a temperature. A plasma display panel comprising applying a second width scan pulse corresponding to a second width address pulse to the display electrode during the address period when is the second temperature.
24.
In the plasma display panel according to claim 22,
When the temperature is the first temperature, the first driving unit applies an address pulse having a first width corresponding to the scan pulse having the first width to the address electrode during the address period to obtain a temperature. A plasma display panel comprising applying a second width address pulse corresponding to a second width scan pulse to the address electrode during the address period when is the second temperature.
25.
In the plasma display panel according to any one of claims 21 to 24.
When the temperature is the first temperature, the length of the address period is defined as the first length.
A plasma display panel characterized in that when the temperature is the second temperature, the length of the address period is set to a second length shorter than the first length.
26.
In the plasma display panel according to any one of claims 21, 23 to 25.
When the temperature is the first temperature, the width of the address pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the address pulse is set to a second width shorter than the first width.
A plasma display panel characterized in that when the temperature is a third temperature higher than the second temperature, the width of the address pulse is set to a third width shorter than the second width.
27.
In the plasma display panel according to any one of claims 22 to 26.
When the temperature is the first temperature, the width of the scan pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the scan pulse is set to a second width shorter than the first width.
A plasma display panel characterized in that when the temperature is a third temperature higher than the second temperature, the width of the scan pulse is set to a third width shorter than the second width.
28.
In the plasma display panel according to any one of claims 21 to 27.
The second driving unit is a plasma display panel characterized in that, during a reset period, a reset pulse including a positive pulse whose voltage value increases with the passage of time is applied to the display electrode.
29.
In the plasma display panel according to any one of claims 21 to 28.
The second driving unit is a plasma display panel characterized in that, during a reset period, a reset pulse including a negative pulse whose voltage value decreases with the passage of time is applied to the display electrode.
30.
In the plasma display panel according to any one of claims 22 to 29.
A plasma display panel characterized in that the reaching potential of a scan pulse applied to the display electrode during an address period is lower than the reaching potential of a negative reset pulse applied to the display electrode during a reset period.
31.
In the plasma display panel according to any one of claims 22 to 30,
A plasma display panel characterized in that a constant potential is applied to the display electrode when a cell is not selected during the address period.
32.
In a plasma display panel that displays using subfields that have at least an address period
An address electrode formed on the first substrate and extending in the first direction,
A display electrode formed on a second substrate facing the first substrate and extending in a second direction intersecting the first direction,
A first drive unit that applies a pulse to the address electrode and
A second drive unit that applies a pulse to the display electrode and
Equipped with a temperature detector that detects the temperature,
When the address period when the temperature is the first temperature is the first address period and the address period when the temperature is the second temperature higher than the first temperature is the second address period,
A plasma display panel characterized in that the second address period is shorter than the first address period.
33.
In the plasma display panel according to claim 32,
When the temperature is the first temperature, the first driving unit applies an address pulse having a first width to the address electrode during the address period, and when the temperature is the second temperature. Is a plasma display panel characterized in that an address pulse having a second width shorter than the first width is applied to the address electrode during an address period.
34.
In the plasma display panel according to claim 32,
When the temperature is the first temperature, the second driving unit applies a scan pulse of the first width to the display electrode during the address period, and the temperature is the second temperature. The plasma display panel comprises applying a scan pulse having a second width shorter than the first width to the display electrode during the address period.
35.
In the plasma display panel according to claim 33.
When the temperature is the first temperature, the second driving unit applies a scan pulse having a width corresponding to the address pulse having the first width to the display electrode during the address period, and the temperature becomes the temperature. A plasma display panel characterized in that a scan pulse having a width corresponding to an address pulse having a second width is applied to the display electrode during an address period when the temperature is the second temperature.
36.
In the plasma display panel according to claim 34.
When the temperature is the first temperature, the first driving unit applies an address pulse having a width corresponding to the scan pulse having the first width to the address electrode during the address period, and the temperature becomes the temperature. A plasma display panel characterized in that an address pulse having a width corresponding to a scan pulse having a second width is applied to the address electrode during an address period when the temperature is the second temperature.
37.
In the plasma display panel according to any one of claims 33, 35 to 36.
When the temperature is the first temperature, the width of the address pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the address pulse is set to a second width shorter than the first width.
A plasma display panel characterized in that when the temperature is a third temperature higher than the second temperature, the width of the address pulse is set to a third width shorter than the second width.
38.
In the plasma display panel according to any one of claims 34 to 37.
When the temperature is the first temperature, the width of the scan pulse is set as the first width.
When the temperature is higher than the first temperature, the width of the scan pulse is set to a second width shorter than the first width.
A plasma display panel characterized in that when the temperature is a third temperature higher than the second temperature, the width of the scan pulse is set to a third width shorter than the second width.
39.
In the plasma display panel according to any one of claims 34 to 38.
A plasma display panel characterized in that the reaching potential of a scan pulse applied to the display electrode during an address period is lower than the reaching potential of a negative reset pulse applied to the display electrode during a reset period.
40.
In the plasma display panel according to any one of claims 34 to 39.
A plasma display panel characterized in that a constant potential is applied to the display electrode when a cell is not selected during the address period.