IN THE CLAIMS
`
`Claims 1-9 are pending in this application, wherein claims 1 and 2 are being amended
`
`to improve form, as follows:
`
`/
`
`1.
`
`(Currently Amended) An image display device having a plurality of pixels, into each
`
`of which an image voltage is input during a writing period and an inclined wave
`
`voltage which changes a voltage level/ thereof according to time is input during a light
`
`emission period following the writing period, wherein
`
`each of the pixels has
`
`a_light emitting means,
`
`a driving transistor for driving the light emitting means according to the image
`voltage, and
`I
`
`a capacitance device having one end connected to a gate electrode of the
`driving transistor, and wherein
`.
`the image voltage and the inclined wave voltage are input to other end of the
`
`capacitance device during the writing period and the light emission period,
`
`respectively,
`
`the driving transistor operates in a saturation region of the driving transistor3
`
`control light emission intensig of the light emitting means and a length of the light
`
`emission period with the inclined wave voltage, and
`
`th_elight emission intensity of the light emitting means while emitting light
`
`always changes within the light emission period.
`
`2.
`
`(Currently Amended) An image display device, having
`
`a plurality of pixels,
`
`a plurality of signal lines for inputting an image voltage to each of the plurality
`
`of pixels, and
`
`pixel selecting means for selecting from the plurality of pixels a pixel into
`
`which the image voltage is to be written via the plurality of signal lines,
`
`wherein each of the pixels has
`
`a light emitting device of a current driving-type,
`
`a driving transistor for driving the light emitting means according to the image
`
`voltage and connected between a power line and the light emitting device, and
`
`-2.
`
`
`
`Claims 1-9 are pending in this application, wherein claims 1 and 2 are being amended
`
`to improve form, as follows:
`
`/
`
`1.
`
`(Currently Amended) An image display device having a plurality of pixels, into each
`
`of which an image voltage is input during a writing period and an inclined wave
`
`voltage which changes a voltage level/ thereof according to time is input during a light
`
`emission period following the writing period, wherein
`
`each of the pixels has
`
`a_light emitting means,
`
`a driving transistor for driving the light emitting means according to the image
`voltage, and
`I
`
`a capacitance device having one end connected to a gate electrode of the
`driving transistor, and wherein
`.
`the image voltage and the inclined wave voltage are input to other end of the
`
`capacitance device during the writing period and the light emission period,
`
`respectively,
`
`the driving transistor operates in a saturation region of the driving transistor3
`
`control light emission intensig of the light emitting means and a length of the light
`
`emission period with the inclined wave voltage, and
`
`th_elight emission intensity of the light emitting means while emitting light
`
`always changes within the light emission period.
`
`2.
`
`(Currently Amended) An image display device, having
`
`a plurality of pixels,
`
`a plurality of signal lines for inputting an image voltage to each of the plurality
`
`of pixels, and
`
`pixel selecting means for selecting from the plurality of pixels a pixel into
`
`which the image voltage is to be written via the plurality of signal lines,
`
`wherein each of the pixels has
`
`a light emitting device of a current driving-type,
`
`a driving transistor for driving the light emitting means according to the image
`
`voltage and connected between a power line and the light emitting device, and
`
`-2.
`
`
`
`a capacitance device having one end connected to a gate electrode of the
`
`driving transistor, and wherein
`
`the image voltage is input to other end of the capacitance device during the
`
`writing period,
`
`flinclined wave voltage which changes a voltage level thereof according to
`
`time is input to the other end of the capacitance device during a light emission period
`
`following the writing period,
`
`the driving transistor‘operates in a saturation region of the driving transistorQ
`
`control light emission intensifl of the light emitting means and'a length of the light
`
`emission period with the inclined wave voltage, and
`
`the light emission intensity of the light emitting device while emitting light
`
`always changes within the light emission period.
`
`(Original) The image display device according to claim 2, wherein
`
`the pixel selecting means has a plurality of scanning lines,
`
`each of the pixels has a reset transistor connected between the gate electrode
`
`of the driving transistor and an electrode of the driving transistor, the electrode being
`
`connected to the light emitting device, and
`
`the gate electrode of . the reset transistor is connected to a corresponding
`
`scanning line among the plurality of scanning lines.
`
`(Original) The image display device according to claim 2, wherein
`
`the pixel selecting means has a plurality of lighting control lines,
`
`each of the pixels has a lighting transistor connected between the driving
`
`transistor and the light emitting device,
`
`a gate electrode of each lighting transistor is connected to a corresponding
`
`lighting control line among the plurality of lighting control lines.
`
`(Original) The image display device according to claim 4, wherein
`
`the reset transistor of each of the pixels remains on during the__first period and
`
`the second period within the writing period and off during the third period within the
`
`' writing period and the light emission period,
`
`-3-
`
`
`
`the lighting transistor of each of the pixels remains on during the light
`
`emission period and the first period within the writing period and off during the
`
`second period and the third period within the writing period.
`
`(Original) The image display device according to claim 2, further comprising
`
`a plurality of inclined wave voltage input lines for inputting the inclined wave
`
`voltage to each of the pixels,
`
`wherein each of the pixels includes
`
`a first switching transistor for connecting the other end of the capacitance
`
`device to a corresponding signal line among the plurality of signal lines during the
`
`writing period, and
`
`a second switching transistor for connecting the other end of the capacitance
`
`device to a corresponding inclined wave voltage input line among the plurality of
`
`inclined wave voltage input lines during the light emission period.
`
`(Original) The image display device according to claim 6, wherein
`
`the pixel selecting means includes a plurality of switch control lines,
`
`the first switching transistor and the second switching transistor differ from
`
`each other in an electricity conductive type,
`_ a gate electrode of the first switching transistor of each of the pixels and a gate
`
`electrode of the second switching transistor are connected to a corresponding same
`
`switch control line among the plurality of switch control lines,
`
`the first switching transistor and the second switching transistor of each of the
`
`pixels remain on and off, respectively, during the writing period, and
`
`the first switching transistor and the second switching transistor of each of the
`
`pixels remain off and on, respectively, during the light emission period.
`
`(Original) The image display device according to claim 1 wherein the light emitting
`
`device is an organic light emitting diode device.
`
`(Original) The image display device according to claim 2 wherein the light emitting
`
`device is an organic light emitting diode device.
`
`
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