Color display device

What is claimed is: 1 . A driving method for driving an electrophoretic display comprising a first surface on a viewing side, a second surface on a non-viewing side, and an electrophoretic fluid which fluid is sandwiched between a common electrode and a layer of pixel electrodes and comprises a first type of particles, a second type of particles, a third type of particles, and a fourth type of particles, all of which are dispersed in a solvent or solvent mixture, wherein (a) the four types of pigment particles have optical characteristics differing from one another; (b) the first type of particles carry high positive charge and the second type of particles carry high negative charge; and (c) the third type of particles carry low positive charge and the fourth type of particles carry low negative charge, the method comprises the steps of: (i) applying a first driving voltage to a pixel in the electrophoretic display for a first period of time to drive the pixel towards the color state of the first or second type of particles at the viewing side; and (ii) applying a second driving voltage to the pixel for a second period of time, wherein the second driving voltage has a polarity opposite to that of the first driving voltage and an amplitude lower than that of the first driving voltage, to drive the pixel from the color state of the first type of particles towards the color state of the fourth type of particles, or from the color state of the second type of particle towards the color state of the third type of particles, at the viewing side. 2 . A driving method for driving an electrophoretic display comprising a first surface on a viewing side, a second surface on a non-viewing side, and an electrophoretic fluid which fluid is sandwiched between a common electrode and a layer of pixel electrodes and comprises a first type of particles, a second type of particles, a third type of particles, and a fourth type of particles, all of which are dispersed in a solvent or solvent mixture, wherein (a) the four types of pigment particles have optical characteristics differing from one another; (b) the first type of particles carry high positive charge and the second type of particles carry high negative charge; and (c) the third type of particles carry low positive charge and the fourth type of particles carry low negative charge, the method comprises the steps of: (i) applying a first driving voltage to a pixel in the electrophoretic display for a first period of time to drive the pixel towards the color state of the first or second type of particles at the viewing side; (ii) applying a second driving voltage to the pixel for a second period of time, wherein the second period of time is greater than the first period of time, the second driving voltage has a polarity opposite to that of the first driving voltage and the second driving voltage has an amplitude lower than that of the first driving voltage, to drive the pixel from the color state of the first type of particles towards the color state of the fourth type of particles or from the color state of the second type of particle towards the color state of the third type of particles, at the viewing side; and repeating steps (i) and (ii). 3 . The method of claim 2 , wherein the amplitude of the second driving voltage is less than 50% of the amplitude of the first driving voltage. 4 . The method of claim 2 , wherein steps (i) and (ii) are repeated at least 4 times. 5 . The method of claim 2 , wherein steps (i) and (ii) are repeated at least 8 times. 6 . The method of claim 2 , further comprising a shaking waveform before step (i). 7 . The method of claim 2 , further comprising driving the pixel to the color state of the first or second type of particles after the shaking waveform but prior to step (i). 8 . A driving method for driving an electrophoretic display comprising a first surface on a viewing side, a second surface on a non-viewing side, and an electrophoretic fluid which fluid is sandwiched between a common electrode and a layer of pixel electrodes and comprises a first type of particles, a second type of particles, a third type of particles and a fourth type of particles, all of which are dispersed in a solvent or solvent mixture, wherein (a) the four types of pigment particles have optical characteristics differing from one another; (b) the first type of particles carry high positive charge and the second type of particles carry high negative charge; and (c) the third type of particles carry low positive charge and the fourth type of particles carry low negative charge, the method comprises the following steps: (i) applying a first driving voltage to a pixel in the electrophoretic display for a first period of time to drive the pixel towards the color state of the first type or second type of particles at the viewing side; (ii) applying a second driving voltage to the pixel for a second period of time, wherein the second period of time is greater than the first period of time, the second driving voltage has a polarity opposite to that of the first driving voltage and the second driving voltage has an amplitude lower than that of the first driving voltage, to drive the pixel from the color state of the first type of particles towards the color state of the fourth type of particles or from the color state of the second type of particle towards the color state of the third type of particles, at the viewing side; (iii) applying no driving voltage to the pixel for a third period of time; and repeating steps (i)-(iii). 9 . The method of claim 8 , wherein the amplitude of the second driving voltage is less than 50% of the amplitude of the first driving voltage. 10 . The method of claim 8 , wherein steps (i), (ii) and (iii) are repeated at least 4 times. 11 . The method of claim 8 , wherein steps (i), (ii) and (iii) are repeated at least 8 times. 12 . The method of claim 8 , further comprising a shaking waveform before step (i). 13 . The method of claim 8 , further comprising a driving step to the full color state of the first or second type of particles after the shaking waveform but prior to step (i). 14 . A driving method for driving an electrophoretic display comprising a first surface on a viewing side, a second surface on a non-viewing side, and an electrophoretic fluid which fluid is sandwiched between a common electrode and a layer of pixel electrodes and comprises a first type of particles, a second type of particles, a third type of particles and a fourth type of particles, all of which are dispersed in a solvent or solvent mixture, wherein (a) the four types of pigment particles have optical characteristics differing from one another; (b) the first type of particles carry high positive charge and the second type of particles carry high negative charge; and (c) the third type of particles carry low positive charge and the fourth type of particles carry low negative charge, the method comprises the following steps: (i) applying a first driving voltage to a pixel in the electrophoretic display for a first period of time to drive the pixel towards the color state of the first or second type of particles at the viewing side; (ii) applying no driving voltage to the pixel for a second period of time; (iii) applying a second driving voltage to the pixel for a third period of time, wherein the third period of time is greater than the first period of time, the second driving voltage has a polarity opposite to that of the first driving voltage and the second driving voltage has an amplitude lower than th