Patent application number | Description | Published |
20120182058 | NEGATIVE CHARGE PUMP - A charge pump includes a first node configured to receive a first voltage and a second node coupled to the first node through a first transistor. The second node is configured to output a voltage having a greater voltage magnitude than the first voltage. A first capacitor is coupled to a third node, and a fourth node is configured to receive a first clock signal. The third node is disposed between a drain of the first transistor and the fourth node. A leaky circuit device is coupled in parallel with the first capacitor for draining charges of a first polarity away from the second node. | 07-19-2012 |
20120194263 | CHARGE PUMP AND METHOD OF BIASING DEEP N-WELL IN CHARGE PUMP - A charge pump has at least one charge pump stage. Each charge pump stage includes at least one NMOS device. The at least one NMOS device has a deep N-well (DNW), and is coupled to at least one capacitor, an input node, and an output node. The input node is arranged to receive an input signal. The at least one capacitor is arranged to store electrical charges. The charge pump stage is configured to supply the electrical charges to the output node, and the DNW is arranged to float for a positive pump operation. | 08-02-2012 |
20120201084 | OPERATING METHODS OF FLASH MEMORY AND DECODING CIRCUITS THEREOF - A FLASH memory cell includes a control gate over a floating gate over a substrate. A wall line and an erase gate each is disposed adjacent to a respective sidewall of the control gate. A first source/drain (S/D) region is disposed in the substrate and adjacent to a sidewall of the wall line. A second S/D region is disposed in the substrate and adjacent to the sidewall of the floating gate. A method of operating the FLASH memory cell includes applying a first voltage level to the control gate. A second voltage level is applied to the word line. The second voltage level is lower than the first voltage level. A third voltage level is applied to the first S/D region. A fourth voltage level is applied to the second S/D region. The fourth voltage level is higher than the third voltage level. The erase gate is electrically floating. | 08-09-2012 |
20120223766 | INTEGRATED CIRCUITS WITH BI-DIRECTIONAL CHARGE PUMPS - Integrated circuits such as memory arrays are coupled to a bi-directional charge pump that includes an input circuit and output circuit, and one or more pump stages coupled between the input circuit and the output circuit of the bi-directional charge pump. The output circuit includes a diode having an input and output and a transistor connected to the output of the diode and a ground potential. The input of the diode is electrically connected to the pump stages in a configuration that allows the charge pump to apply a positive or negative voltage to the memory array or other load. | 09-06-2012 |
20130076335 | INTEGRATED CIRCUIT INCLUDING A VOLTAGE DIVIDER AND METHODS OF OPERATING THE SAME - An integrated circuit includes at least one FLASH memory array and at least one capacitor array disposed over a substrate. The at least one capacitor array includes a plurality of capacitor cell structures. The capacitor cell structures each includes a first capacitor electrode disposed over the substrate. A second capacitor electrode is disposed over the first capacitor electrode. A third capacitor electrode is disposed adjacent to first sidewalls of the first and second capacitor electrodes. A fourth capacitor electrode is disposed adjacent to second sidewalls of the first and second capacitor electrodes. | 03-28-2013 |
20130106504 | INTEGRATED CIRCUITS WITH CASCODE TRANSISTOR | 05-02-2013 |
20130214853 | INTEGRATED CIRCUITS WITH BI-DIRECTIONAL CHARGE PUMPS - A method includes receiving a first voltage at a first input circuit of a bi-directional charge pump circuit, selectively turning on a first switch of a switching circuit that is coupled electrically to a deep N-well transistor of a first set of one or more intermediate pump stages that are coupled between the first input circuit and a first output circuit, and providing a third voltage from the first output circuit in response to receiving a second voltage at an input of a first diode of the output circuit from the first set of the one or more intermediate pump stages. | 08-22-2013 |
20140197881 | CHARGE PUMP AND METHOD OF BIASING DEEP N-WELL IN CHARGE PUMP - A charge pump has at least one charge pump stage. Each charge pump stage includes at least one NMOS device. The at least one NMOS device has a deep N-well (DNW), a gate and a drain, and is coupled to at least one capacitor, a first node, a second node and a switch. For the at least one NMOS device, the gate is capable of receiving a different signal from the drain. The first node is arranged to receive an input signal. The switch is coupled between the at least one NMOS device and a ground. A drain of the switch is coupled to a deep N-well of the switch. The at least one capacitor is arranged to store electrical charges. The charge pump stage is configured to supply the electrical charges to the second node. The DNW is coupled to the ground for a negative pump operation. | 07-17-2014 |
20140285255 | INTEGRATED CIRCUITS HAVING CASCODE TRANSISTOR - An integrated circuit includes a first circuit. The first circuit includes a first transistor having a first dopant type. The first circuit further includes a first cascode transistor having the first dopant type, wherein the first cascode transistor connected in series with the first transistor. The first circuit further includes a second transistor having a second dopant type opposite to the first dopant type, wherein the second transistor is connected in series with the first transistor. The first circuit includes a second cascode transistor having the second dopant type, wherein the second cascode transistor is connected in series with the second transistor. The integrated circuit further includes a first bias circuit configured to adjust a threshold voltage of at least one of the first cascode transistor or the second cascode transistor. | 09-25-2014 |
20140307510 | INTEGRATED CIRCUIT INCLUDING A VOLTAGE DIVIDER AND METHODS OF OPERATING THE SAME - An integrated circuit includes at least one memory array and at least one capacitor array over a substrate. The at least one capacitor array includes a plurality of capacitor cell structures. The capacitor cell structures of the plurality of cell structures comprise a first capacitor electrode over the substrate. A second capacitor electrode is over the first capacitor electrode. A third capacitor electrode is adjacent to first sidewalls of the first and second capacitor electrodes. A fourth capacitor electrode is adjacent to second sidewalls of the first and second capacitor electrodes. A fifth capacitor electrode is over the substrate and adjacent to the fourth capacitor electrode. | 10-16-2014 |