Patent application number | Description | Published |
20140159999 | Gate Driving Circuit, Switching Control Circuit and Shift Register of Display Device - According to one aspect of the present invention, the provided is a gate driving circuit, comprising: a first switch control circuit, being configured to be respectively coupled to each of the multiple stages of shift register units; a second switch control circuit, being configured to be respectively coupled to each of the multiple stages of shift register units. The first switch control circuit controls the multiple stages of shift register units to turn on in a forward sequence; the second switch control circuit controls the multiple stages of shift register units to turn on in a backward sequence. | 06-12-2014 |
20140168049 | SHIFT REGISTER, GATE DRIVER AND DISPLAY DEVICE - Provided are a shift register, a gate driver and a display device capable of eliminating voltage coupled noise at an output terminal. The shift register comprises a pulling-up unit, a clock control unit, a resetting unit, an inverting unit and a pulling-down unit; the pulling-up unit is connected with a shift trigging signal terminal, a high level signal terminal and the resetting unit; the clock control unit is connected with the pulling-up node, a clock signal terminal and the pulling-down unit; the resetting unit is connected with a reset signal terminal, a low level signal terminal, the pulling-up node and the output terminal; the inverting unit is connected with the high and low level signal terminals, the pulling-up node and the pulling-down unit; the pulling-down unit is connected with the pulling-up node, the pulling-down node, the low level signal terminal, the shift trigging signal terminal and the output terminal. | 06-19-2014 |
20140168050 | SHIFT REGISTER, GATE DRIVER AND DISPLAY DEVICE - Disclosed are a shift register, a gate driver and a display device, which relate the field of display technology and may eliminate the voltage coupled noise generated by a clock signal at an output terminal of the shift register effectively. The shift register comprises: a first input unit, a clock control unit, a second input unit, an inverting unit, a pulling-down unit and a first level selecting unit, a second level selecting unit, a third level selecting unit; the first input unit is connected with a first input signal terminal, the first level selecting unit and the second input unit, respectively, wherein a node at which the first input unit is connected with the second input unit is a pulling-up node, the first input unit is used for controlling a potential at the pulling-up node. The embodiments of the present disclosure may be applied to various display devices. | 06-19-2014 |
20150029421 | TOUCH POINT POSITIONING AND DETECTING CIRCUIT FOR A TOUCH PANEL, TOUCH PANEL AND DISPLAY DEVICE - A touch point positioning and detecting circuit for a touch panel, a touch panel and a display device, to achieve an optical type in-cell touch panel, The touch point positioning and detecting circuit includes: a touch sensing sub-circuit, a detecting sub-circuit which is connected with the touch sensing sub-circuit, and a first touch driving electrode line and a second touch driving electrode line; the touch sensing sub-circuit includes: a capacitor, a first switch transistor and a second switch transistor; a gate and a source of the first switch transistor are connected with the first touch driving electrode line, and a drain of the first switch transistor is connected with a drain of the second switch transistor; a source of the second switch transistor is connected with the detecting sub-circuit, and a gate of the second switch transistor is connected with the second touch driving electrode line; one end of the capacitor is connected with the drain of the first switch transistor and the other end of the capacitor is connected with an electrode line providing a high level voltage; and the first switch transistor is an optical switch transistor. | 01-29-2015 |
20150242040 | TOUCH CIRCUIT AND METHOD FOR DRIVING THE SAME, ARRAY SUBSTRATE, TOUCH DISPLAY DEVICE - Provided are a touch circuit and a method for driving the same, an array substrate, a touch display device. By providing a signal transmitting module and a light-controlled module in a touch circuit, and when a light irradiating the light-controlled module changes caused by a touch region of a panel being touched in a scanning cycle, the light-controlled module controls the signal transmitting module to be in a first state in a next scanning cycle, otherwise controls the signal transmitting module to be in a second state in the next scanning cycle, in the first state, the signal transmitting module can transmit a signal transmitted by the first gate line to a signal line as a touch sensing signal, in the second state, the signal transmitting module is in an off-state, so that a signal transmitting line between the first gate line and the signal line is disconnected. | 08-27-2015 |
20150243367 | SHIFT REGISTER UNIT CIRCUIT, SHIFT REGISTER, ARRAY SUBSTRATE AND DISPLAY DEVICE - There are provided a shift register unit circuit, a shift register, an array substrate and a display device. The shift register unit circuit comprises: an input module configured to receive an input signal and output the input signal to a pulling-up node; an output module configured to receive the input signal and output a driving signal under a control of a first clock signal; a pulling-down module configured to pull down a potential at the pulling-up node and a signal output terminal under a control of a pulling-down node; a pulling-down control module configured to pull down the pulling-down node under a control of the input signal and pull up the pulling-down node under a control of a second clock signal; and a resetting module configured to reset the potential at the pulling-up node and the signal output terminal under a control of a resetting signal. A relatively small number of thin film transistors are used to suppress interference noise in the circuit, which saves wiring space and reduces the area occupied by the shift register unit circuit, so as to realize the narrow frame of the liquid crystal display using the shift register. | 08-27-2015 |
20150309627 | TOUCH PANEL AND TOUCH DISPLAY PANEL - The present invention discloses a touch panel and a touch display panel, and the touch panel comprises driving lines and sensing lines crossing with each other, and in the extending direction of the driving lines, two line ends of each row/column of the driving lines having the largest distance therebetween are connected with a drive signal input line, and each row/column of the sensing lines is connected with a signal gathering line; and/or, in the extending direction of the sensing lines, two line ends of each row/column of the sensing lines having the largest distance therebetween are connected with a signal gathering line. The present invention achieves the following advantageous effects: through driving the touch panel bilaterally, or dividing the panel into a plurality of touch units, each touch unit is individually driven, which is equivalent to dividing a large-sized touch panel into small-sized touch panels; then the delay of the drive signal of the large-sized panel is improved, and the touch sensitivity is enhanced and the yield of the touch panel is also improved. | 10-29-2015 |
20150310817 | CIRCUIT FOR DETECTING TOUCH POINT LOCATION ON A TOUCH PANEL, TOUCH PANEL AND DISPLAY DEVICE - A circuit for detecting a touch point location on a touch panel, a touch panel and a display device for improving the precision of touch point location on the touch panel are disclosed. The circuit for detecting a touch point location on a touch panel comprises: a sensing sub-circuit, an amplification sub-circuit connected to the sensing sub-circuit, an output sub-circuit connected to the amplification sub-circuit, a detection sub-circuit connected to the output sub-circuit, and a first touch drive electrode line. The sensing sub-circuit comprising a fixed capacitor, a variable capacitor, and a first switch transistor, wherein a gate terminal and a source terminal of the first switch transistor are connected to the first touch drive electrode line, a drain terminal of the first switch transistor is connected to a terminal of the fixed capacitor, a terminal of the variable capacitor is connected to the other terminal of the fixed capacitor, the other terminal of the variable capacitor is connected to a reference voltage, and the amplification sub-circuit is connected to the terminal of the fixed capacitor that is connected to the variable capacitor. | 10-29-2015 |