Pixel circuits for AMOLED displays
First Claim
1. A system for controlling an array of pixels in a display in which each pixel includes a light-emitting device, the system comprisinga pixel circuit in each of said pixels, said circuit includingsaid light-emitting device,a drive transistor for driving current through the light emitting device according to a driving voltage across the drive transistor during an emission cycle, said drive transistor having a gate, a source, a drain and a threshold voltage,a storage capacitor coupled to said drive transistor for controlling said driving voltage,a reference voltage source coupled to a reference voltage transistor that controls the coupling of said reference voltage source to said drive transistor, said reference voltage having a magnitude that turns off said light-emitting device,a switching transistor coupled to the gate of said drive transistor for supplying a control voltage to the gate of said drive transistor while said reference voltage is coupled to said drive transistor, said control voltage causing said drive transistor to transfer to a node common to said drive transistor and said light-emitting device, a voltage that is a function of the threshold voltage and mobility of said drive transistor, anda supply voltage source coupled to an emission transistor arranged to couple, during said emission cycle, said supply voltage source to said drive transistor such that current is conveyed through said light emitting device via said drive transistor, said current being controlled by a voltage stored in said storage capacitor.
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Accused Products
Abstract
A system is provided for controlling an array of pixels in a display in which each pixel includes a light-emitting device and a reference voltage source that controllably supplies a reference voltage having a magnitude that turns off the light-emitting device. While the reference voltage is coupled to a drive transistor, a control voltage is supplied to the gate of the drive transistor to cause the drive transistor to transfer to a node common to the drive transistor and the light-emitting device, a voltage that is a function of the threshold voltage and mobility of the drive transistor. During an emission cycle, the current conveyed through the light emitting device via the drive transistor is controlled by a voltage stored in the storage capacitor, which is a function of the threshold voltage and mobility of the drive transistor so that the current supplied to the light-emitting device remains stable.
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Citations
10 Claims
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1. A system for controlling an array of pixels in a display in which each pixel includes a light-emitting device, the system comprising
a pixel circuit in each of said pixels, said circuit including said light-emitting device, a drive transistor for driving current through the light emitting device according to a driving voltage across the drive transistor during an emission cycle, said drive transistor having a gate, a source, a drain and a threshold voltage, a storage capacitor coupled to said drive transistor for controlling said driving voltage, a reference voltage source coupled to a reference voltage transistor that controls the coupling of said reference voltage source to said drive transistor, said reference voltage having a magnitude that turns off said light-emitting device, a switching transistor coupled to the gate of said drive transistor for supplying a control voltage to the gate of said drive transistor while said reference voltage is coupled to said drive transistor, said control voltage causing said drive transistor to transfer to a node common to said drive transistor and said light-emitting device, a voltage that is a function of the threshold voltage and mobility of said drive transistor, and a supply voltage source coupled to an emission transistor arranged to couple, during said emission cycle, said supply voltage source to said drive transistor such that current is conveyed through said light emitting device via said drive transistor, said current being controlled by a voltage stored in said storage capacitor.
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8. A system for controlling an array of pixels in a display in which each pixel includes a light-emitting device, the system comprising
a pixel circuit in each of said pixels, said circuit including said light-emitting device, a drive transistor for driving current through the light emitting device according to a driving voltage across the drive transistor during a drive cycle, said drive transistor having a gate, a source, a drain and a threshold voltage, a storage capacitor coupled to said drive transistor for controlling said driving voltage, a reset line coupled to a reset transistor that controls the coupling of said reset line to the gate of said drive transistor, a monitor line coupled to a monitor transistor that controls the coupling of a calibration voltage to a node common to said storage capacitor, said light-emitting device and said drive transistor for turning on said drive transistor without turning on said light-emitting device, while said reset line is coupled to said drive transistor, thereby charging said node to a voltage that is a function of the threshold voltage, mobility and other parameters of said drive transistor and thus compensates for changes in said threshold voltage, mobility and other parameters over time, a supply voltage source coupled to said drive transistor such that current is conveyed through said light-emitting device via said drive transistor during a drive cycle, said current being controlled by a voltage stored in said storage capacitor, and a switching transistor coupled to the gate of said drive transistor for supplying a programming voltage to said storage capacitor while said calibration transistor and said reset transistor are turned off.
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10. A system for controlling an array of pixels in a display in which each pixel includes a light-emitting device, the system comprising
a pixel circuit in each of said pixels, said circuit including said light-emitting device, a drive transistor for driving current through the light emitting device according to a driving voltage across the drive transistor during a drive cycle, said drive transistor having a gate, a source, a drain and a threshold voltage, a storage capacitor coupled to said drive transistor for controlling said driving voltage, a supply voltage source coupled to said drive transistor such that current is conveyed through said light-emitting device via said drive transistor during a drive cycle, said current being controlled by a voltage stored in said storage capacitor, a monitor line coupled to a monitor transistor that controls the coupling of a calibration voltage to a node common to said storage capacitor, said light-emitting device and said drive transistor for turning on said drive transistor without turning on said light-emitting device, while said supply voltage source is coupled to said drive transistor, thereby charging said node to a voltage that is a function of the threshold voltage, mobility and other parameters of said drive transistor and thus compensates for changes in said threshold voltage, mobility and other parameters over time, and a switching transistor coupled to the gate of said drive transistor for supplying a programming voltage to said storage capacitor while said calibration transistor and said monitor transistor are turned off.
Specification