Emission driver and display device comprising same

What is claimed is: 1 . A display device comprising: a display panel including a plurality of pixels; and an emission driver including a plurality of stage circuits, the plurality of stage circuits configured to apply emission signals to the plurality of pixels through a plurality of emission lines, wherein each of the plurality of stage circuits includes: an EQ node controller configured to control a voltage at an EQ node by applying one of a start signal, a carry signal, or a high-potential driving voltage to the EQ node responsive to a first clock signal received by the EQ node controller; an EQB node controller configured to control a voltage at an EQB node by applying the high-potential driving voltage or a low-potential driving voltage that is less that the high-potential driving voltage to the EQB node responsive to the first clock signal, the EQB node controller comprising: a first buffering transistor connected to the EQ node and a gate of a fifth transistor; and a second buffering transistor connected to the EQ node and a gate of a sixth transistor; an output buffer connected to the EQ node and the EQB node, the output buffer configured to output the high-potential driving voltage or the low-potential driving voltage as an emission signal of the stage circuit to a corresponding emission line from the plurality of emission lines responsive to a voltage at the EQ node and a voltage of the EQB node; and a pump controller connected to the EQ node and receiving a second clock signal and the start signal or the carry signal, the pump controller configured to change the voltage at the EQ node a plurality of times according to the second clock signal while the emission signal is output at a turn-on level that turns on one of the plurality of pixels that is connected to the corresponding emission line responsive to the start signal or the carry signal. 2 . The display device of claim 1 , wherein each of the plurality of stage circuits further includes: at least one transistor having a gate electrode that receives the voltage at the EQ node; and at least one buffering transistor connected to the EQ node and the gate electrode of the at least one transistor, the at least one buffering transistor configured to transmit the voltage at the EQ node to the gate electrode of the at least one transistor in response to the start signal or the carry signal. 3 . The display device of claim 2 , wherein the start signal or the carry signal is a pulse signal having a turn-on level and a turn-off level that alternate, the turn-off level different from the turn-on level. 4 . The display device of claim 1 , wherein each of the plurality of stage circuits further includes: at least one transistor having an electrode that is directly connected to an input terminal of the high-potential driving voltage, wherein the at least one transistor includes a plurality of sub-transistors that are connected in series. 5 . The display device of claim 1 , wherein the EQ node controller includes: a first transistor connected to the EQ node and an input node at which the start signal or the carry signal is input to the first transistor, the first transistor having a gate electrode that is connected to an input terminal of the first clock signal; and a second transistor connected to an input terminal of the high-potential driving voltage and the first transistor at the EQ node, the second transistor having a gate electrode that is connected to the EQB node. 6 . The display device of claim 1 , wherein the EQB node controller further includes: a third transistor connected to an input terminal of the low-potential driving voltage and the EQB node, the third transistor having a gate electrode that is connected to a EQB′ node; and a fourth transistor connected to the input terminal of the low-potential driving voltage, the EQB′ node, and the gate electrode of the third transistor, the fourth transistor having a gate electrode that is connected to an input terminal of the first clock signal, wherein the fifth transistor is connected to an input terminal of the high-potential driving voltage, the EQB′ node, the gate electrode of the third transistor, and the fourth transistor, the fifth transistor having a gate electrode that receives the voltage at the EQ node, wherein the first buffering transistor has a gate electrode connected to an input node at which the start signal or the carry signal is applied to the gate electrode of the first buffering transistor, and wherein the first buffering transistor is configured to transmit the voltage of the EQ node to the gate electrode of the fifth transistor responsive to the start signal or the carry signal. 7 . The display device of claim 6 , wherein the sixth transistor is connected to an input terminal of the high-potential driving voltage and the EQB node, the sixth transistor having a gate electrode that receives the voltage at the EQ node wherein the second buffering transistor has a gate electrode connected to the input node, and wherein the second buffering transistor is configured to transmit the voltage of the EQ node to the gate electrode of the sixth transistor responsive to the start signal or the carry signal. 8 . The display device of claim 1 , wherein the pump controller includes: a pump capacitor; a pump transistor connected to the EQB node and a first capacitor electrode of the pump capacitor, the pump transistor having a gate electrode connected to the first capacitor electrode of the pump capacitor; a clock transistor connected to a second capacitor electrode of the pump capacitor and an input terminal of the second clock signal, the clock transistor having a gate electrode that is connected an input node at which the start signal or the carry signal is input; and a feedback transistor connected to the gate electrode of the pump transistor and an input terminal of the low-potential driving voltage, the feedback transistor having a gate electrode that is connected to the corresponding emission line. 9 . The display device of claim 8 , wherein the pump controller further includes: a reset transistor connected to an input terminal of the high-potential driving voltage, the gate electrode of the pump transistor, and the first capacitor electrode of the pump capacitor, the reset transistor having a gate electrode that is connected to the EQB node. 10 . The display device of claim 1 , wherein the output buffer includes: a first pull-up transistor connected to an input terminal of the low-potential driving voltage and the corresponding emission line, the first pull-up transistor having a gate electrode that is connected to the EQ node; and a first pull-down transistor connected to an input terminal of the high-potential driving voltage and the corresponding emission line, the first pull-down transistor having a gate electrode that is connected to the EQB node. 11 . The display device of claim 10 , wherein the output buffer further includes: a second pull-up transistor connected to the input terminal of the low-potential driving voltage and an output terminal of the carry signal, the second pull-up transistor having a gate electrode connected to the EQ node; and a second pull-down transistor connected to the input terminal of the high-potential driving voltage and the output terminal of the carry signal, the second pull-down transistor having a gate electrode connected to the EQB node. 12 . The display device of claim 1 , wherein each of the plurality of stage circuits further includes: a signal input circuit configured to apply the start signal or the carry signal to the EQ node controller, the EQ