Patent ID: 9564082
Date: 2017-02-07
CPC Classifications: G09G

Claim:
1. An array substrate, comprising a plurality of pixel circuits arranged in a matrix form, wherein each pixel circuit comprises a controlling sub-circuit, a compensating sub-circuit, a driving transistor and a light-emitting element, wherein the controlling sub-circuit is configured to, under the control of a scanning voltage signal and a charging signal, charge the compensating sub-circuit, and under the control of a light-emitting controlling signal, control the driving transistor so as to drive the light-emitting element to emit light, and the compensating sub-circuit is configured to, under the control of the controlling sub-circuit, set a constant potential for a gate electrode of the driving transistor, and pre-store a threshold voltage of the driving transistor, so as to compensate for the threshold voltage of the driving transistor when the driving transistor drives the light-emitting element to emit light, wherein the compensating sub-circuit comprises a first capacitor and a second capacitor, a first end of the first capacitor is coupled to the gate electrode of the driving transistor and the controlling sub-circuit, and a second end thereof is coupled to a source electrode of the driving transistor, a first end of the second capacitor is coupled to a source electrode of the driving transistor, and a second end thereof is coupled to the controlling sub-circuit, and the second capacitor is charged under the control of the controlling sub-circuit, so that a potential for a source electrode of the driving transistor increases to a potential capable of automatically turning off the driving transistor, and the first capacitor pre-stores the threshold voltage capable of automatically turning off the driving transistor, wherein the controlling sub-circuit comprises a charging module, a light-emitting controlling module and a voltage source, the charging module is coupled to a first end of the voltage source, the gate electrode of the driving transistor and the first end of the first capacitor, the light-emitting controlling module is coupled to a second end of the voltage source and the source electrode of the driving transistor, the charging module is configured to receive a voltage source signal and a reference voltage signal for setting the constant potential for the gate electrode of the driving transistor so as to control the voltage source to charge the second capacitor, so that the potential for the source electrode of the driving transistor increases to the potential capable of automatically turning off the driving transistor, and the first capacitor pre-stores the threshold voltage capable of automatically turning off the driving transistor when the potential for the source electrode of the driving transistor increases to the potential capable of automatically turning off the driving transistor, the charging module is further configured to receive a data voltage signal for driving the light-emitting element to emit light, so as to control the first capacitor to store a data voltage, and the light-emitting controlling module is configured to, under the control of the light-emitting controlling signal, receive the voltage source signal and control the driving transistor so as to drive the light-emitting element to emit light, wherein the charging module comprises a first switch transistor, a first gate signal source for outputting the charging signal, a second switch transistor, a second gate signal source for outputting the scanning voltage signal, a data signal source, and a reference signal source, a gate electrode of the first switch transistor is coupled to the first gate signal source, a drain electrode thereof is coupled to a first end of the voltage source, and a source electrode thereof is coupled to a drain electrode of the driving transistor, a second end of the voltage source is coupled to the second end of the second capacitor, and a gate electrode of the second switch transistor is coupled to the second gate signal source, a drain electrode thereof is coupled to the data signal source and the reference signal source, and a source electrode thereof is coupled to the gate electrode of the driving transistor and the first end of the first capacitor, wherein the light-emitting controlling module comprises a third switch transistor and a third gate signal source for outputting the light-emitting controlling signal, and a gate electrode of the third switch transistor is coupled to the third gate signal source, a source electrode thereof is coupled to the second end of the voltage source and the second end of the second capacitor, and a drain electrode thereof is coupled to the source electrode of the driving transistor and the first end of the second capacitor, wherein the first and third switch transistors are of the same type, while the second switch transistor is of a different type from the first and third switch transistors, the second gate signal source is identical to the third gate signal source, and each of the plurality of pixel circuits is of a 4T2C circuit structure, which only consists of the first switch transistor, the second switch transistor, the third switch transistor, the driving transistor, the first capacitor, and the second capacitor.