Active matrix electroluminescent display device
First Claim
1. An active matrix electroluminescent display device, comprising:
- an array of display pixels, each display pixel including an electroluminescent display element and a driving device for controlling the current through said electroluminescent display element in a drive period based on a drive signal applied to said electroluminescent display pixel during an address period preceding the drive period and stored as a charge on a storage capacitance associated with said driving device, and electro-optic discharging means coupled to the storage capacitance for controlling the amount of light output from said display pixel in the drive period, said electro-optic discharging means being responsive to light produced by said electroluminescent display element during the drive period and arranged to leak charge from the storage capacitance at a rate dependent on an output level of light of said electroluminescent display element in the drive period, wherein said electro-optic discharging means rapidly discharges the storage capacitance and curtails light output from said electroluminescent display element at a point in the drive period which is controlled by, and dependent on, an operation of said electroluminescent display element, and wherein a controlled point at which said electro-optic discharging means operates to rapidly discharge the storage capacitance is determined by an operational characteristic of said display pixel indicative of the light output of said electroluminescent display element reaching a certain low level.
5 Assignments
0 Petitions
Accused Products
Abstract
An active matrix electroluminescent display device in which the drive current through an electroluminescent display element (20) in each pixel (10) in a drive period is controlled by a driving device (22) based on a drive signal applied during a preceding address period and stored as a voltage on an associated storage capacitor (36). In order to counteract the effects of display element ageing, through which the light output for a given drive signal level diminishes over time, the pixel includes electro-optic discharging means (40) coupled to the storage capacitor and responsive to the display element'"'"'s light output to leak stored charge and to control the integrated light output of the display element in the drive period. For improved control, the discharging means is arranged to rapidly discharge the capacitor at a controlled point in the drive period, upon the drive of the display element falling to a low level. A photoresponsive transistor can conveniently be utilised for this purpose.
-
Citations
10 Claims
-
1. An active matrix electroluminescent display device, comprising:
-
an array of display pixels, each display pixel including an electroluminescent display element and a driving device for controlling the current through said electroluminescent display element in a drive period based on a drive signal applied to said electroluminescent display pixel during an address period preceding the drive period and stored as a charge on a storage capacitance associated with said driving device, and electro-optic discharging means coupled to the storage capacitance for controlling the amount of light output from said display pixel in the drive period, said electro-optic discharging means being responsive to light produced by said electroluminescent display element during the drive period and arranged to leak charge from the storage capacitance at a rate dependent on an output level of light of said electroluminescent display element in the drive period, wherein said electro-optic discharging means rapidly discharges the storage capacitance and curtails light output from said electroluminescent display element at a point in the drive period which is controlled by, and dependent on, an operation of said electroluminescent display element, and wherein a controlled point at which said electro-optic discharging means operates to rapidly discharge the storage capacitance is determined by an operational characteristic of said display pixel indicative of the light output of said electroluminescent display element reaching a certain low level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
wherein said driving device includes a transistor connected in series with said electroluminescent display element, and wherein an operation of said switching device is controlled by a voltage across said driving device. -
6. The active matrix electroluminescent display device of claim 4, wherein said driving device and said switching device include TFTs.
-
7. The active matrix electroluminescent display device of claim 6, wherein said electro-optic discharging means includes a photo-responsive element connected across the storage capacitance and responsive to light output from said electroluminescent display element to leak charge from the storage capacitance.
-
8. The active matrix electroluminescent display device of claim 7 wherein said photoresponsive element includes a reverse biased photodiode.
-
9. The active matrix electroluminescent display device of claim 4,
wherein said electro-optic discharging means includes a photo-responsive transistor through which charge on the storage capacitance is leaked by photocurrent generated therein by light from said electroluminescent display element, and wherein a gate of the photo-responsive transistor is coupled to a source of potential dependent on current flow through said electroluminescent display element. -
10. The active matrix electroluminescent display device of claim 9,
wherein said gate of said photo-responsive transistor is further coupled to a node between said electroluminescent display element and said driving device.
-
Specification