Inkjet printing system

What is claimed is: 1 . An inkjet printing system, comprising: an inkjet head unit including a nozzle for ejecting ink; a driving unit configured to generate and output a driving voltage for discharging the ink from the nozzle; a first impedance adjusting unit disposed between an input terminal of the inkjet head unit and an output terminal of the driving unit and including a pair of diodes; and a self-sensing circuit connected to the input terminal of the inkjet head unit to receive a self-sensing voltage from the nozzle and determine whether the nozzle is normally operating. 2 . The inkjet printing system of claim 1 , wherein: the pair of diodes of the first impedance adjusting unit include a forward diode and a reverse diode. 3 . The inkjet printing system of claim 2 , wherein: each of the forward diode and the reverse diode is one of a PN junction diode, a Schottky diode, and a Zener diode. 4 . The inkjet printing system of claim 2 , wherein: the driving driver unit is provided in plurality, and the nozzle is provided in plurality, the inkjet head unit is connected to one of the driving units and includes the plurality of nozzles, and the inkjet head unit further includes a plurality of switches connected to the plurality of nozzles, respectively. 5 . The inkjet printing system of claim 2 , wherein: the self-sensing circuit unit includes a differential amplifier for receiving the self-sensing voltage from the input terminal of the inkjet head unit, and the differential amplifier further receives a reference voltage and generates a final self-sensing voltage by subtracting the reference voltage from the self-sensing voltage. 6 . The inkjet printing system of claim 5 , wherein: the reference voltage is input from the output terminal of the driving unit. 7 . The inkjet printing system of claim 6 , further comprising: a second impedance adjusting unit connected to the output terminal of the driving unit and an input terminal of the differential amplifier; and the reference voltage is input to the differential amplifier through the output terminal of the driving unit and the second impedance adjusting unit. 8 . The inkjet printing system of claim 7 , wherein: the second impedance adjusting unit includes an equivalent impedance adjusting unit having a configuration corresponding to the pair of diodes of the first impedance adjusting unit. 9 . The inkjet printing system of claim 8 , wherein: the second impedance adjusting unit further includes an equivalent capacitor unit corresponding to the nozzle included in the inkjet head unit. 10 . The inkjet printing system of claim 5 , further comprising: another inkjet head unit positioned adjacent to the inkjet head unit and including a plurality of nozzles and a plurality of switches connected to the plurality of nozzles, respectively, the reference voltage is input from an input terminal of the another inkjet head unit, and the reference voltage is transmitted in a state in which all of the plurality of switches included in the another inkjet head unit are open. 11 . The inkjet printing system of claim 5 , wherein: the self-sensing circuit unit further includes a signal processing unit, which uses a filter to improve a signal-to-noise ratio. 12 . The inkjet printing system of claim 11 , wherein: the self-sensing circuit unit further includes a data determination unit configured to determine a state of the nozzle using the final self-sensing voltage. 13 . An inkjet printing system, comprising: an inkjet head unit including a nozzle for ejecting ink; a driving unit configured to generate and output a driving voltage for discharging the ink from the nozzle; a first impedance adjusting unit disposed between an input terminal of the inkjet head unit and an output terminal of the driving unit and including a forward diode; and a self-sensing circuit unit connected to the input terminal of the inkjet head unit and configured to receive a self-sensing voltage from the nozzle to determine whether the nozzle is operating normally, and a forward direction of the forward diode is a direction from the output terminal of the driving unit to the input terminal of the inkjet head unit. 14 . The inkjet printing system of claim 13 , wherein: the forward diode is one of a PN junction diode, a Schottky diode, and a Zener diode, respectively. 15 . The inkjet printing system of claim 13 , wherein: the driving driver unit is provided in plurality, and the nozzle is provided in plurality, the inkjet head unit is connected to one of the driving units and includes the plurality of nozzles, and the inkjet head unit further includes a plurality of switches connected to the plurality of nozzles, respectively. 16 . The inkjet printing system of claim 13 , wherein: the self-sensing circuit unit comprises a differential amplifier for receiving the self-sensing voltage from the input terminal of the inkjet head unit; a signal processing unit, which improves a signal-to-noise ratio using a filter; and a data determination unit for determining the state of the nozzle, wherein the differential amplifier further receives a reference voltage and generates a final self-sensing voltage by subtracting the reference voltage from the self-sensing voltage, and the data determination unit determines a state of the nozzle using the final self-sensing voltage. 17 . The inkjet printing system of claim 16 , wherein: the reference voltage is input from the output terminal of the driving unit. 18 . The inkjet printing system of claim 17 , further comprising: a second impedance adjusting unit connected to the output terminal of the driving unit and an input terminal of the differential amplifier; wherein the second impedance adjusting unit includes an equivalent impedance adjusting unit having a configuration corresponding to the first impedance adjusting unit, and the reference voltage is input to the differential amplifier through the output terminal of the driving unit and the second impedance adjusting unit. 19 . The inkjet printing system of claim 18 , wherein: the second impedance adjusting unit further includes an equivalent capacitor unit corresponding to the nozzle included in the inkjet head unit. 20 . The inkjet printing system of claim 16 , further comprising: another inkjet head unit positioned adjacent to the inkjet head unit and including a plurality of nozzles and a plurality of switches connected to the plurality of nozzles, respectively, the reference voltage is input from an input terminal of the another inkjet head unit, and the reference voltage is transmitted in a state in which all of the plurality of switches included in the another inkjet head unit are open.