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Electric lamp and discharge devices: systems – Plural power supplies – Plural cathode and/or anode load device

Reexamination Certificate

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C345S077000

Reexamination Certificate

active

06507156

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a thin film electroluminescent device for providing a gray scale display.
Traditional thin film electroluminescent displays (TFEL) are typically constructed of a laminar stack comprising a set of transparent front electrodes, which are typically made of indium tin oxide, formed on a transparent substrate (glass), and a transparent electroluminescent phosphor layer sandwiched between front and rear dielectric layers situated behind the front electrodes. Disposed behind the rear dielectric is layer are rear electrodes orientated perpendicular to the front electrodes. To illuminate an entire display, each row electrode is sequentially scanned and selected column electrodes are simultaneously energized with voltage pulses to illuminate selected pixels in a row. All rows are scanned in turn until the entire display has been illuminated thereby writing a frame of video data. This is sometimes referred to as frame time addressing.
For monochrome and color displays a gray scale is a desirable feature in order to display video and graphic images with better screen clarity and definition. Current techniques to achieve a gray scale for thin film electroluminescent displays can be broadly categorized as those calling for modulation of the amount of charge flow through the phosphor layer. The present modulation techniques may be further divided into two subcategories, namely, amplitude modulation and pulse width modulation. These techniques have been used with traditional electroluminescent displays to achieve a gray scale.
Amplitude modulation is the modulation of the magnitude of the voltage pulses imposed across the electroluminescent layer. Different voltage pulse magnitudes within the operating range of the electroluminescent layer, which is typically 160 volts to 250 volts, cause different pixel brightness. Within certain limits a higher voltage pulse causes a greater amount of light to be emitted than a lower voltage pulse. Pulse width modulation is a single voltage pulse of a selected time duration imposed across the electroluminescent layer during each frame to control the amount of light emitted from the pixel, which increases with increased duration of the voltage pulse. Both of these techniques are readily applied to an entire display by applying a voltage pulse to a row electrode and using varied magnitudes or duration of voltage pulses applied to the column electrodes thereby creating a gray scale display in a row by row manner.
Both of these modulation techniques control the charge transported through the electroluminescent layer to achieve a gray scale display, but the resulting optical performance and accuracy obtainable is not sufficient for the high number of luminescent levels desired in a true high resolution gray scale display. The electroluminescent layer has a nonlinear voltage versus luminescence curve that makes it difficult to obtain a desired luminescent output from the electroluminescent layer with different applied voltage pulse levels. Even if the applied voltage pulse levels are modified in some manner to compensate for such non-linearities, the voltage versus luminescence curve tends to shift from location to location within a display and also varies from display to display. Additionally, individual pixels within the display may exhibit a voltage coupling to other pixels, which changes the actual voltage at a particular pixel, thereby changing the luminescence of the selected pixel. Furthermore, the voltage coupling varies with the particular pattern of voltages supplied to the entire display at any particular moment. The voltage coupling and the nonlinear voltage versus luminescence curve are especially prominent at low and intermediate voltage levels. These problems make it difficult to design displays with a high gray scale which requires accurate luminescence levels.
The refresh rates obtainable with traditional thin film electroluminescent displays are limited by the time required to address and illuminate each row within the display in a sequential manner by providing a single voltage pulse to a row electrode and a voltage pulse to selected column electrodes. After an entire display is refreshed by addressing and illuminating each selected pixel in a row by row manner, the process is repeated. The illumination rate (the rate at which voltage pulses are applied across the electroluminescent layer of the entire display to illuminate each pixel) is limited by the time required to address each pixel in a row-by-row manner, because the illumination and addressing functions of the display are combined. A typical display is refreshed at 60 Hz. Thus, frequency modulation techniques are not easily adaptable to conventional drive techniques because if the refresh rate falls too low, flickering will result and higher frame rates are limited by the RC time constants of the display.
Khormaei, et al., U.S. Pat. No. 5,652,600, disclose a time multiplexed gray scale approach for an active matrix electroluminescent display, described in detail later. Khormaei, et al. suggest a gray scale technique that includes illuminating the display during different subframe time periods, where the predetermined characteristics of the illumination signal are changed between the different subframe time periods. Khormaei, et al. also suggest an initial pulse of a reduced amplitude to increase the number of subframe time periods obtainable within a predetermined time period. Unfortunately, when using the reduced amplitude pulse the brightness of the display tends to vary from display to display and changes within the same display over time. The variable brightness when using the reduced amplitude initial pulse is simply unacceptable for a high performance gray scale display.
SUMMARY OF THE INVENTION
The present invention overcomes the aforementioned drawbacks of the prior art by providing a method of illuminating an active matrix electroluminescent device to provide a gray scale display. The device comprises a first electrode layer including a plurality of individually addressable pixel electrodes, a second electrode layer, and a stack including at least a phosphor layer which produces light upon the application of an electric field across the phosphor layer and a dielectric layer. The stack is disposed between the first and second electrode layers. The gray scale is provided by selecting a set of selected ones of the pixel electrodes with data signals during a first subframe time period of a frame. The second electrode layer is driven during the first subframe time period with a first illumination signal having a first amplitude. At least one of the set of the selected ones of the pixel electrodes is selected with data signals during a subsequent subframe time period of the frame. The second electrode layer is driven during the subsequent subframe time period with a subsequent illumination signal having a second amplitude, where the subsequent amplitude is different than the first amplitude. At least one of the set of the selected ones of the pixel electrodes is selected with data signals during a further subsequent subframe time period of the frame. The second electrode layer is driven during the further subsequent subframe time period with a further subsequent illumination signal having a third amplitude, where the third amplitude is different than the first amplitude and the second amplitude.


REFERENCES:
patent: 5635110 (1997-06-01), Chadha et al.
patent: 5652600 (1997-07-01), Khormaei et al.
patent: 5952789 (1999-09-01), Stewart et al.
patent: 6034659 (2000-03-01), Wald et al.
patent: 6191535 (2001-02-01), Saitou
patent: 6243072 (2001-06-01), McKnight
patent: 6278423 (2001-08-01), Wald et al.
patent: 6356029 (2002-03-01), Hunter
patent: 6373454 (2002-04-01), Knapp et al.

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