JP2000029431A5 - - Google Patents

Description

[Claims]
[ Claim 1 ]
It is a driving method of a plasma display device composed of a plurality of discharge cells and displaying an image of one field by a plurality of subfields.
A plasma display characterized in that at least one of the plurality of subfields has a reset period, and when the ratio of emitting pixels to all pixels changes, the voltage of the reset pulse in the reset period changes. How to drive the device.
2.
The method for driving a plasma display device according to claim 1, wherein when the ratio is large, the voltage of the reset pulse is higher than when the ratio is small.
3.
The method for driving a plasma display device according to claim 1, wherein when the ratio is 0%, the voltage of the reset pulse is lower than when the ratio is larger than 0%. Driving method.
4.
The method for driving a plasma display device according to claim 3, wherein when the ratio is 0%, the voltage of the reset pulse is lower than when the ratio is 50% or more. Driving method.
5.
A method for driving a plasma display device, which is composed of a plurality of discharge cells and displays an image by generating a discharge in the discharge cell according to an input video signal.
A reset step in which a reset pulse for initializing the discharge cell is applied, and
An address step that selects a discharge cell that emits light according to the input image, and
The discharge cell selected in the address step is provided with a sustain step that causes a maintenance discharge.
A method for driving a plasma display, characterized in that the voltage of the reset pulse changes when the number of lighting cells that are lit by the maintenance discharge changes.
6.
The plasma display device according to claim 5, wherein when the number of lighting cells is large, the voltage of the reset pulse is higher than when the number of lighting cells is small. Driving method.
7.
In the driving method of the plasma display device according to claim 5, when the input image is an all-black display image, the voltage of the reset pulse is lowered as compared with the case where the all-white display image is displayed. A characteristic driving method of a plasma display device.
8.
The method for driving the plasma display device according to claim 7, wherein the all-black display image is an image in which all discharge cells are not lit, and the all-white display image is an image in which all discharge cells are lit. A method of driving a plasma display device, which is characterized by being an image.
9.
It is a driving method of a plasma display device composed of a plurality of discharge cells and displaying an image of one field by a plurality of subfields.
At least one of the plurality of subfields has a reset period, during which a reset pulse is applied to initialize the discharge cells and the reset is based on the number of emitted discharge cells. A method of driving a plasma display device, characterized in that the voltage of a pulse changes.
10.
The method for driving a plasma display device according to claim 9, wherein the voltage of the reset pulse is higher when the number of light emitting discharge cells is large than when the number is small.
11.
A method of driving a plasma display device composed of a plurality of discharge cells, in which an image of one field is displayed by a plurality of subfields, and at least one of the plurality of subfields has a reset period.
In the reset period, the first reset pulse is applied when the number of emitting discharge cells is the first value, and when the number of emitting discharge cells is a second value different from the first value. , A method of driving a plasma display device, characterized in that a second reset pulse different from the first reset pulse is applied.
12.
The method for driving a plasma display device according to claim 11, wherein in the reset period, when the number of discharge cells that emit light is the first value, a reset pulse having the first voltage value is applied and the light is emitted. A plasma display device characterized in that when the number of discharge cells is a second value larger than the first case, a reset pulse having a second voltage value larger than the first voltage value is applied. Drive method.
13.
A plasma display device having a plurality of discharge cells and displaying an image of one field by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. hand,
A drive circuit that generates a reset pulse during the reset period,
A plasma display device including a control circuit that controls a drive circuit so that a voltage of the reset pulse changes when the ratio of light emitting pixels to all pixels changes.
14.
The plasma display device according to claim 13, wherein the control circuit controls the drive circuit so that the voltage of the reset pulse is higher when the ratio is large than when the ratio is small. Plasma display device.
15.
The plasma display device according to claim 13, wherein the control circuit controls the drive circuit so that the voltage of the reset pulse is lower when the ratio is 0% than when the ratio is larger than 0%. A plasma display device characterized by
16.
The plasma display device according to claim 15, wherein the control circuit controls the drive circuit so that the voltage of the reset pulse is lower when the ratio is 0% than when the ratio is 50% or more. A plasma display device characterized by
17.
A plasma display device having a plurality of discharge cells and displaying an image of one field by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. hand,
A drive circuit that generates a reset pulse during the reset period,
A detection circuit that detects the ratio of light emitting pixels to all pixels from the input digital data,
A plasma display device comprising a control circuit that controls the drive circuit so as to change the voltage of the reset pulse based on the ratio detected by the detection circuit.
18.
In a plasma display device having a plurality of discharge cells, an image of one field is displayed by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. There,
A drive circuit that generates a reset pulse during the reset period,
A plasma display device comprising a control circuit that controls the drive circuit so that the voltage of the reset pulse changes when the number of lighting cells to be lit in one field changes.
19.
The plasma display device according to claim 18, wherein the control circuit controls the drive circuit so that the voltage of the reset pulse is higher when the number of lighting cells is large than when the number of lighting cells is small. A featured plasma display device.
20.
The plasma display device according to claim 18, wherein the control circuit lowers the voltage of the reset pulse when the input image is an all-black display image than when the input image is an all-white display image. A plasma display device characterized by controlling the drive circuit.
21.
The plasma display device according to claim 20, wherein the all-black display image is an image in which all discharge cells are not lit, and the all-white display image is an image in which all discharge cells are lit. A plasma display device characterized by this.
22.
A plasma display device having a plurality of discharge cells, in which an image of one field is displayed by a plurality of subfields, and at least one of the subfields has a reset period for initializing the discharge cells. ,
A drive circuit that generates a reset pulse during the reset period,
A plasma display device comprising a control circuit that controls the drive circuit so as to change the voltage of the reset pulse based on the number of discharge cells that emit light.
23.
The plasma display device according to claim 22, wherein the control circuit controls the drive circuit so that the voltage of the reset pulse is higher when the number of light emitting discharge cells is large than when the number is small. Plasma display device.
24.
A plasma display device having a plurality of discharge cells and displaying an image of one field by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. hand,
A drive circuit that generates a reset pulse during the reset period,
The first reset pulse is applied when the number of emitting discharge cells is the first value, and the first reset is performed when the number of emitting discharge cells is a second value different from the first value. A plasma display device comprising a control circuit that controls the drive circuit so that a second reset pulse different from the pulse is applied.
25.
The plasma display device according to claim 24, wherein a reset pulse having a first voltage value is applied to the control circuit when the number of light emitting discharge cells is the first value, and the light emitting discharge cell is applied. The drive circuit is controlled so that when the number of is a second value larger than the first case, a second reset pulse having a second voltage value larger than the first voltage value is applied. A plasma display device characterized by this.

[0023]
[Means for solving problems]
In order to achieve the above object, the present invention is configured as follows.
(1) A method for driving a plasma display device, which is composed of a plurality of discharge cells and displays an image of one field by a plurality of subfields.
At least one of the plurality of subfields has a reset period, and when the ratio of emitting pixels to all pixels changes, the voltage of the reset pulse in the reset period changes.
(2) A method for driving a plasma display device, preferably in (1) above, wherein when the ratio is large, the voltage of the reset pulse is higher than when the ratio is small.

(3) Preferably, in the above (1), when the ratio is 0%, the voltage of the reset pulse is lower than when the ratio is larger than 0%.
(4) Preferably, in the above (3), when the ratio is 0%, the voltage of the reset pulse is lower than when the ratio is 50% or more.

(5) A method of driving a plasma display device that is composed of a plurality of discharge cells and displays an image by generating a discharge in the discharge cell according to an input video signal, and initializing the discharge cell. A reset step in which a reset pulse is applied to perform the operation, an address step in which a discharge cell that emits light is selected according to an input image, and a sustain step in which a discharge cell selected in the address step is subjected to a maintenance discharge. When the number of lighting cells to be lit by the maintenance discharge changes, the voltage of the reset pulse changes.
(6) Preferably, in the above (5), when the number of lighting cells is large, the voltage of the reset pulse is made higher than when the number of lighting cells is small.

(7) Preferably, in the above (5), when the input image is an all-black display image, the voltage of the reset pulse is lowered as compared with the case where the all-white display image is displayed.
(8) Preferably, in the above (7), the all-black display image is an image in which all discharge cells are not lit, and the all-white display image is an image in which all discharge cells are lit.

(9) A method of driving a plasma display device that is composed of a plurality of discharge cells and displays an image of one field by a plurality of subfields, and at least one of the plurality of subfields has a reset period. In the reset period, a reset pulse is applied to initialize the discharge cells, and the voltage of the reset pulse changes based on the number of light emitting discharge cells.
(10) Preferably, in the above (9), when the number of discharging cells emitting light is large, the voltage of the reset pulse is made higher than when the number of discharging cells is small.

(11) A method for driving a plasma display device composed of a plurality of discharge cells, in which an image of one field is displayed by a plurality of subfields, and at least one of the plurality of subfields has a reset period. In the reset period, when the number of emitting discharge cells is the first value, the first reset pulse is applied, and when the number of emitting discharge cells is a second value different from the first value. A second reset pulse different from the first reset pulse is applied to.
(12) Preferably, in the above (11), when the number of discharge cells that emit light is the first value in the reset period, a reset pulse having the first voltage value is applied, and the number of discharge cells that emit light is applied. When is a second value greater than the first case, a reset pulse having a second voltage value greater than the first voltage value is applied.

(13) A plasma display having a plurality of discharge cells, in which an image of one field is displayed by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. A drive circuit that generates a reset pulse during the reset period, and a control circuit that controls the drive circuit so that the voltage of the reset pulse changes when the ratio of light emitting pixels to all pixels changes. Has.
(14) Preferably, in the above (13), the control circuit controls the drive circuit so that the voltage of the reset pulse is higher when the ratio is large than when the ratio is small.

(15) Preferably, in the above (13), the control circuit controls the drive circuit so that the voltage of the reset pulse is lower when the ratio is 0% than when the ratio is larger than 0%. ..
(16) Preferably, in the above (15), the control circuit controls the drive circuit so that the voltage of the reset pulse is lower when the ratio is 0% than when the ratio is 50% or more. ..

(17) A plasma display having a plurality of discharge cells, in which an image of one field is displayed by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. A drive circuit that is a device and generates a reset pulse during the reset period,
A detection circuit that detects the ratio of light emitting pixels to all pixels from the input digital data, and a control that controls the drive circuit so as to change the voltage of the reset pulse based on the ratio detected by the detection circuit. Has a circuit.

(18) A plasma having a plurality of discharge cells, one field of video is displayed by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. A drive circuit for generating a reset pulse during the reset period, and a control circuit for controlling the drive circuit so that the voltage of the reset pulse changes when the number of lighting cells lit in one field changes. Has.
(19) Preferably, in the above (18), the control circuit controls the drive circuit so that the voltage of the reset pulse is higher when the number of lit cells is large than when the number of lit cells is small.
(20) Preferably, in the above (18), the control circuit makes the voltage of the reset pulse lower when the input image is an all-black display image than when it is an all-white display image. The drive circuit is controlled.
(21) Preferably, in the above (20), the all-black display image is an image in which all discharge cells are not lit, and the all-white display image is an image in which all discharge cells are lit.
(22) A plasma display device having a plurality of discharge cells, in which an image of one field is displayed by a plurality of subfields, and at least one of the subfields has a reset period for initializing at least the discharge cells. It has a drive circuit that generates a reset pulse during the reset period, and a control circuit that controls the drive circuit so as to change the voltage of the reset pulse based on the number of discharging cells that emit light.
(23) Preferably, in the above (22), the control circuit controls the drive circuit so that the voltage of the reset pulse is higher when the number of light emitting discharge cells is large than when the number is small.
(24) A plasma display having a plurality of discharge cells, in which an image of one field is displayed by a plurality of subfields, and at least one of the plurality of subfields has a reset period for initializing the discharge cells. In the device, a drive circuit that generates a reset pulse during the reset period and a first reset pulse are applied when the number of light emitting discharge cells is the first value, and the number of light emitting discharge cells is the second. It has a control circuit that controls the drive circuit so that a second reset pulse different from the first reset pulse is applied in the case of a second value different from the first case.
(25) Preferably, in the above (24), the control circuit is applied with a reset pulse having the first voltage value when the number of light emitting discharge cells is the first value, and the light emitting discharge cells are subjected to the reset pulse. The drive circuit is controlled so that when the number is a second value larger than the first case, a second reset pulse having a second voltage value larger than the first voltage value is applied.