System and methods for extraction of threshold and mobility parameters in AMOLED displays
First Claim
1. An organic light emitting device (OLED) based display device, comprising:
- a plurality of pixel circuits, each pixel circuit including;
an organic light emitting device (OLED),a drive device to provide a programmable drive current to the light emitting device,a programming input to provide a programming signal, anda storage device to store the programming signal;
a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective drive device, and including;
a charge-pump amplifier having a current input and a voltage output, the charge-pump amplifier including an operational amplifier in negative feedback configuration, wherein the feedback is provided by a capacitor connected between the output and the inverting input of the operational amplifier, a common-mode voltage source to drive the non-inverting input of the operational amplifier, and an electronic switch coupled across the capacitor to reset the capacitor, anda switch module including the input coupled to the output of the respective pixel circuit and an output coupled to the input of respective charge-pump amplifier, the switch module including a plurality of electronic switches to steer current in and out of the pixel circuit, provide a discharge path between the pixel circuit and the charge-pump amplifier, and isolate the charge-pump amplifier from the pixel circuit; and
a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage.
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Accused Products
Abstract
A system to improve the extraction of transistor and OLED parameters in an AMOLED display includes a pixel circuit having an organic light emitting device, a drive device to provide a programmable drive current to the light emitting device, a programming input to provide the programming signal, and a storage device to store the programming signal. A charge-pump amplifier has a current input and a voltage output. The charge-pump amplifier includes an operational amplifier in negative feedback configuration. The feedback is provided by a capacitor connected between the output and the inverting input of the operational amplifier. A common-mode voltage source drives the non-inverting input of the operational amplifier. An electronic switch is coupled across the capacitor to reset the capacitor. A switch module including the input is coupled to the output of the pixel circuit and an output is coupled to the input of the charge-pump amplifier.
592 Citations
12 Claims
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1. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective drive device, and including; a charge-pump amplifier having a current input and a voltage output, the charge-pump amplifier including an operational amplifier in negative feedback configuration, wherein the feedback is provided by a capacitor connected between the output and the inverting input of the operational amplifier, a common-mode voltage source to drive the non-inverting input of the operational amplifier, and an electronic switch coupled across the capacitor to reset the capacitor, and a switch module including the input coupled to the output of the respective pixel circuit and an output coupled to the input of respective charge-pump amplifier, the switch module including a plurality of electronic switches to steer current in and out of the pixel circuit, provide a discharge path between the pixel circuit and the charge-pump amplifier, and isolate the charge-pump amplifier from the pixel circuit; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage. - View Dependent Claims (2, 3)
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4. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device comprising a drive transistor to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, a select transistor coupled between the programming input and a gate of the drive transistor, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective drive device; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of providing a select signal to the gate of the select transistor for operating the select transistor as an electronic switch and capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage, wherein each pixel circuit further comprises a monitor transistor coupled between the input of the readout circuit and the source or drain terminal of the drive transistor, and wherein the controller is capable of providing the select signal to the gate of the monitor transistor for operating the monitor transistor as an electronic switch.
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5. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device comprising a drive transistor to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective drive device; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage, wherein the parameter comprises a threshold voltage of the drive transistor, wherein the controller is capable of pre-charging an internal capacitance of each pixel to a level that does not turn the respective OLED on, whereby the stored charge discharges through the respective readout circuit until the gate-to-source drive-voltage of the respective drive transistor is equal to its threshold voltage, and wherein each readout circuit output voltage is a function of the respective threshold voltage, respective feedback capacitor, the respective OLED capacitance, and the respective programming input voltage.
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6. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device comprising a drive transistor to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective drive device; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage, wherein the parameter is the mobility of the drive transistor, wherein the controller is capable of pre-charging an internal capacitance of each pixel to a level that does not turn the respective OLED on, whereby a stored charge of the respective internal capacitance partially discharges through the respective readout circuit over a shorter integration time, and wherein each readout circuit output voltage is a function of the respective drive transistor'"'"'s mobility, respective integration time, respective feedback capacitor, and the respective programming signal input voltage.
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7. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device comprising a drive transistor to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of parameters of the respective drive device; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage, wherein the parameters are threshold voltage and mobility of the drive transistor, wherein the controller is capable of setting the programming signal voltage to a level to turn each drive transistor on, whereby current of the drive transistor is steered into the respective readout circuit to be directly integrated for a certain amount of time, and wherein each readout circuit output voltage is a value of the respective threshold voltage and mobility as a function of a feedback capacitor of the readout circuit, length of integration time, and the programming signal voltage.
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8. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective OLED, and including; a charge-pump amplifier having a current input and a voltage output, each charge-pump amplifier including an operational amplifier in negative feedback configuration, wherein the feedback is provided by a capacitor connected between the output and the inverting input of the operational amplifier, a common-mode voltage source to drive the non-inverting input of the operational amplifier, and an electronic switch coupled across the capacitor to reset the capacitor, and a switch module including the input coupled to the output of the respective pixel circuit and an output coupled to the input of the respective charge-pump amplifier, each switch module including a plurality of electronic switches to steer current in and out of the respective pixel circuit, provide a discharge path between the respective pixel circuit and the respective charge-pump amplifier, and isolate the respective charge-pump amplifier from the respective pixel circuit; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage. - View Dependent Claims (9, 10)
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11. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device comprising a drive transistor to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective OLED; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage, wherein each drive transistor is connected to an input of the respective readout circuit through the source or drain terminal of the drive transistor, wherein the parameter is the turn-on voltage of the OLED, wherein the controller is capable of pre-charging the OLED capacitance to a level higher than the turn-on voltage of the OLED, whereby the charge on the OLED capacitance is then discharged through the OLED until it reaches the turn-on voltage of the OLED, and whereby the remaining charge on the OLED capacitance is transferred to the readout circuit, and wherein the readout circuit output is a value of the turn-on voltage of the OLED as a function of a feedback capacitance of the readout circuit, and the OLED capacitance.
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12. An organic light emitting device (OLED) based display device, comprising:
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a plurality of pixel circuits, each pixel circuit including; an organic light emitting device (OLED), a drive device comprising a drive transistor to provide a programmable drive current to the light emitting device, a programming input to provide a programming signal, and a storage device to store the programming signal; a plurality of readout circuits, each readout circuit coupled to one of the pixel circuits and capable of generating an output voltage which is a function of a parameter of the respective OLED; and a controller coupled to the pixel circuits, and the readout circuits, the controller capable of controlling input signals to the pixel circuits, and the readout circuit in a predetermined sequence to produce the output voltage value, and capable of adjusting the programming signal for each pixel based on the output voltage, wherein each drive transistor is connected to an input of the respective readout circuit through the source or drain terminal of the drive transistor, wherein the parameter is the turn-on voltage of the OLED, wherein the controller is capable of setting the programming signal voltage to a level to operate each drive transistor as a switch, whereby the current of the respective OLED is steered into the respective readout circuit to be directly integrated for a certain amount of time, and wherein each readout circuit output voltage is a value of the OLED'"'"'s turn-on voltage as a function of a feedback capacitor of the readout circuit, length of integration time, and a common-mode voltage set at a non-inverting input of the readout circuit.
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Specification