Patent ID: 8348367

Claim:
A method for controlling a liquid ejecting apparatus that includes a liquid ejecting head, a driving signal generating section, and a moving section, the liquid ejecting head including a nozzle from which liquid is ejected, a pressure chamber that is in communication with the nozzle, and a pressure generator that causes pressure fluctuation in the liquid retained in the pressure chamber, the liquid ejecting head being capable of ejecting the liquid from the nozzle as a result of operation of the pressure generator, the driving signal generating section generating a driving signal that contains an ejection pulse for driving the pressure generator to eject the liquid from the nozzle, the moving section moving the liquid ejecting head and a liquid ejection target medium relative to each other, the liquid ejection target medium being a target on which the ejected liquid lands, the method comprising: moving the liquid ejecting head and the liquid ejection target medium relative to each other; and ejecting the liquid from the nozzle of the liquid ejecting head while performing the relative movement operation so as to cause the liquid to land on the liquid ejection target medium, wherein the ejection pulse is a voltage waveform that includes a first waveform portion in which a voltage level changes in a first direction to cause a change in capacity of the pressure chamber, a second waveform portion in which the voltage level changes in a second direction, which is opposite to the first direction, from an end voltage level of the first waveform portion to cause a change in the capacity of the pressure chamber, a third waveform portion in which the voltage level is kept at an end voltage level of the second waveform portion for a predetermined length of time to keep the capacity of the pressure chamber, or the voltage level changes in the first direction from the end voltage level of the second waveform portion to cause a change in the capacity of the pressure chamber, and a fourth waveform portion in which the voltage level changes in the second direction from an end voltage level of the third waveform portion to cause a change in the capacity of the pressure chamber, and amount of change in the voltage level of the second waveform portion, which is denoted as V 2 , amount of change in the voltage level of the third waveform portion, which is denoted as V 3 , and amount of change in the voltage level of the fourth waveform portion, which is denoted as V 4 , satisfy the following conditions (A) and (B) 0≦ V 3≦0.4× V 2 (A) 0.2 ×V 2≦ V 4 ≦V 2 (B).