摘要:
An image processing method includes the step of generating an error diffusion value; detecting an edge at a current pixel of an image; and adding the pixel value of the current pixel with the error diffusion value or an error diffusion seed according to the detecting result.
摘要:
A pixel structure, a display device and an electronic device are provided. The pixel structure includes three primary sub-pixels of a first color, a second color, and a third color; three secondary sub-pixels of a fourth color, a fifth color, and a sixth color; and a logic circuit. The logic circuit includes three input terminals and three output terminals, and a voltage of each of the three output terminals is corresponding to a logic combination of voltages of the three input terminals. The three input terminals are coupled to the three primary sub-pixels respectively, while the three output terminals are coupled to the three secondary sub-pixels respectively.
摘要:
An image processing device comprises a halftoning module, a detecting module, an adding module and a generating module. The halftoning module generates an error diffusion value. The detecting module detects an edge at a current pixel of an image. The adding module adds the pixel value of the current pixel with one of the error diffusion value and an error diffusion seed according to the detecting result. The generating module generates the error diffusion seed. The error diffusion seed is generated by a formula based on the pixel value and location of the current pixel and a random number, or the error diffusion seed is generated by a formula based on the pixel value of the current pixel and a looked-up value, and the looked-up value is retrieved from a look-up table according to the location of the current pixel.
摘要:
Disclosed is an LCD display utilizing a frame memory and a lookup table for pixel overdrive. A plurality of pixels is arranged in an array corresponding to the gate lines and the source lines. The frame memory is a memory formed by at least one storage capacitor and at least one thin film transistor in each pixel. Moreover, a compression unit and a decompression unit are coupled with the frame memory. The compression unit outputs compressed gradation data of the present image. The decompression unit outputs decompressed gradation data of the former image.
摘要:
An active matrix liquid crystal display device and driving method thereof is provided, in which two different gamma voltage signals can be generated for two pixels of a sub-pixel without extra source lines or gate lines. In a sub-pixel having a first pixel and a second pixel, the switching on/off of the first pixel is controlled by one gate line and that of the second pixel is controlled by one gate line and one source line. The first pixel has a first thin film transistor (TFT) and an electrostatic capacitor. The second pixel has second and third TFTs serially connected. Gate electrodes of the two serially-connected TFTs are connected to the gate line and the source line, respectively.
摘要:
A display device comprises a plurality of pixels, arranged in a matrix having columns and rows, and a plurality of signal lines, provided in pixel columns or pixel rows. Each of the plurality of pixels comprises a pixel electrode, a first and a second switching element, turned on and off simultaneously and arranged in serial between the pixel electrode and a signal line correspondingly connected to a pixel column or a pixel row of the pixel, and a resistance element, connected from a position between the first and the second switching element to a predetermined constant voltage. A resistance value of the resistance element is larger than turned-on resistance values of the first and the second switching element and smaller than turned-off resistance values of the first and the second switching element. The predetermined constant voltage equals a center voltage of a signal voltage applied to the signal line.
摘要:
A display device includes a pixel electrode; a transistor for supplying a driving voltage to the electrode pixel; and a gate-line driver circuit for providing a gate voltage to the transistor and inversely driving a driving voltage supplied to the electrode pixel via the transistor. The gate voltage has different voltage levels in a first driving state that the gate-line driver circuit drives the transistor with a level of the driving voltage and in a second driving state that the gate-line driver circuit drives the transistor with another level of the driving voltage.
摘要:
An active matrix liquid crystal display device and driving method thereof is provided, in which two different gamma voltage signals can be generated for two pixels of a sub-pixel without extra source lines or gate lines. In a sub-pixel having a first pixel and a second pixel, the switching on/off of the first pixel is controlled by one gate line and that of the second pixel is controlled by one gate line and one source line. The first pixel has a first thin film transistor (TFT) and an electrostatic capacitor. The second pixel has second and third TFTs serially connected. Gate electrodes of the two serially-connected TFTs are connected to the gate line and the source line, respectively.
摘要:
Disclosed is a display device having a pixel electrode and a pixel driving transistor. The display device comprises a capacitor, a gate voltage control transistor and a source driving circuit. The capacitor, coupled to the gate of the pixel driving transistor, holds the applied voltage to the aforesaid gate. The gate voltage control transistor has a drain coupled to a connection point between the gate of the pixel driving transistor and the capacitor, a source coupled to the source bus line and a gate coupled to the gate line, for controlling the applied voltage of the capacitor. The source driving circuit utilizes the adjacent source bus lines to alternately switch the voltage held by the capacitor among several different high voltages and several different low voltages to drive the source.
摘要:
A display device includes a pixel electrode; a transistor for supplying a driving voltage to the electrode pixel; and a gate-line driver circuit for providing a gate voltage to the transistor and inversely driving a driving voltage supplied to the electrode pixel via the transistor. The gate voltage has different voltage levels in a first driving state that the gate-line driver circuit drives the transistor with a level of the driving voltage and in a second driving state that the gate-line driver circuit drives the transistor with another level of the driving voltage.