Patent ID: 7876292

Claim:
An Active Matrix Organic Light Emitting Diode (AMOLED) driving circuit using current feedback, comprising: a current Digital-to-Analog Converter (DAC) outputting a current corresponding to input digital data; a first differential amplifier connected to the current Digital-to-Analog Converter (DAC) and adapted to perform a control operation to cause current of input data to be identical to a driving current of a driving transistor of a pixel circuit, wherein the first differential amplifier is implemented using an operational amplifier, an inverting input terminal of which is disposed between the DAC and an output terminal of the current mirror, a non-inverting input terminal of which is connected to a predetermined constant voltage, and an output terminal of which is coupled to a gate terminal of the driving transistor of the pixel circuit; a current mirror mirroring a driving current of a light emitting device of the pixel circuit to an input side of the first differential amplifier, wherein the current mirror comprises a first transistor, a drain terminal and a gate terminal of which are coupled to each other, and a source terminal of which is coupled to an output terminal of the second differential amplifier, the first transistor receiving the driving current of the light emitting device of the pixel circuit and a second transistor, a drain terminal of which is coupled to an output terminal of the current DAC, and a gate terminal and a source terminal of which are coupled to the gate terminal and the source terminal of the first transistor, respectively; and a second differential amplifier connected to the current mirror and adapted to control charge and discharge speeds of a parasitic capacitance of the pixel circuit, wherein the second differential amplifier is implemented using an operational amplifier, an inverting input terminal of which is coupled to the current mirror, a non-inverting input terminal of which is coupled to a predetermined constant voltage, and an output terminal of which is connected to the current mirror; a plurality of compensation capacitors connected in parallel with each other between an inverting input terminal and an output terminal of the first differential amplifier, and required to divide an entire range of data current into a plurality of intervals; a plurality of switches connected in series with the compensation capacitors, respectively; and a switch controller controlling a switching operation of the switches.