Patent application number | Description | Published |
20130207709 | VARIABLE UNIT DELAY CIRCUIT AND CLOCK GENERATION CIRCUIT FOR SEMICONDUCTOR APPARATUS USING THE SAME - A clock generation circuit includes, inter alia, a first phase detection block comparing initial phases of a reference clock signal and an output clock signal in response to an operation start signal, and outputting an initial phase difference detection signal corresponding to a comparison result; a second phase detection block comparing phases of the reference clock signal and the output clock signal, and outputting a phase detection signal corresponding to a comparison result; a variable unit delay block determined in a control range of the delay amount thereof in response to the initial phase difference detection signal, and delaying the reference clock signal by a delay amount corresponding to a voltage level of a control voltage and outputting the output clock signal; and a delay control block generating the control voltage which has the voltage level corresponding to the phase detection signal. | 08-15-2013 |
20130207716 | CHARGE PUMPING DEVICE AND UNIT CELL THEREOF - A unit cell includes a first cell including a first charge transfer unit, a first switch for controlling a charge transfer operation of the first charge transfer unit, and a first charge storage unit having one end connected to an output terminal of the first charge transfer unit. The unit cell includes a second cell including a second charge transfer unit, a second switch for controlling a charge transfer operation of the second charge transfer unit, and a second charge storage unit having one end connected to an output terminal of the second charge transfer unit. In the unit cell, the first switch is controlled by a first clock and an output terminal of the second charge storage unit, and the second switch is controlled by a second clock and an output terminal of the first charge storage unit. | 08-15-2013 |
20130207736 | RESISTANCE MEASURING CIRCUIT, RESISTANCE MEASURING METHOD, AND IMPEDANCE CONTROL CIRCUIT - A resistance measuring method includes: measuring a resistance value of a first path which is formed from an interface pad through a resistor unit to a ground node; measuring a resistance value of a second path which is formed from the interface pad to the ground node but does not pass through the resistor unit; and calculating a resistance value of the resistor unit by subtracting the resistance value of the second path from the resistance value of the first path. | 08-15-2013 |
20130215569 | INTEGRATED CIRCUIT CHIP, MOBILE DEVICE INCLUDING THE SAME, AND METHOD FOR OPERATING THE MOBILE DEVICE - A mobile device includes a docking unit for docking with an external device, and an integrated circuit chip including an impedance matching circuit for impedance matching of an internal bus outside of the integrated circuit chip, wherein activation or deactivation of the impedance matching circuit is determined based on whether the docking unit is docked. | 08-22-2013 |
20130215660 | VARIABLE RESISTANCE MEMORY DEVICE HAVING EQUAL RESISTANCES BETWEEN SIGNAL PATHS REGARDLESS OF LOCATION OF MEMORY CELLS WITHIN THE MEMORY ARRAY - A memory device including variable resistance elements comprises a plurality of memory cells configured to store data; a first signal transmission/reception unit and a second signal transmission/reception unit configured to transmit a signal to the memory cells or receive a signal from the memory cells; a first transmission line arranged to couple first ends of the memory cells to the first signal transmission/reception unit; and a second transmission line configured to couple second ends of the memory cells to the second signal transmission/reception unit, wherein a first resistance of a first signal path coupled between the first and second signal transmission/reception units through a first memory cell of the memory cells is substantially equal to a second electrical resistance of a second signal path coupled between a second memory cell and the first and second signal transmission/reception units through a second memory cell of the memory cells. | 08-22-2013 |
20130215665 | VARIABLE RESISTANCE MEMORY DEVICE HAVING EQUAL RESISTANCES BETWEEN SIGNAL PATHS REGARDLESS OF LOCATION OF MEMORY CELLS WITHIN THE MEMORY ARRAY - A memory device including variable resistance elements comprises a plurality of memory cells configured to store data; a first signal transmission/reception unit and a second signal transmission/reception unit configured to transmit a signal to the memory cells or receive a signal from the memory cells; a first transmission line arranged to couple first ends of the memory cells to the first signal transmission/reception unit; and a second transmission line configured to couple second ends of the memory cells to the second signal transmission/reception unit, wherein a first resistance of a first signal path coupled between the first and second signal transmission/reception units through a first memory cell of the memory cells is substantially equal to a second electrical resistance of a second signal path coupled between a second memory cell and the first and second signal transmission/reception units through a second memory cell of the memory cells. | 08-22-2013 |
20130215692 | SEMICONDUCTOR MEMORY, MEMORY SYSTEM, AND METHOD OF CONTROLLING THE SAME - Various embodiments of a semiconductor system, semiconductor memory, and a method of controlling the same are disclosed. In one exemplary embodiment, the semiconductor memory may include a first circuit area configured to perform an operation corresponding to a general operation command and a second circuit area configured to provide the general operation command to the first circuit area. The second circuit area may be configured to determine whether the semiconductor memory selected to perform the operation based on unique identification information and target identification information allocated to the semiconductor memory. | 08-22-2013 |
20130221309 | VARIABLE RESISTIVE MEMORY DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a variable resistive memory device and a method of fabricating the same. The variable resistive memory device includes an interlayer insulating film having an opening therein, the opening exposing a surface of a first electrode which is disposed at a bottom of the opening. A variable resistive layer is formed in the opening and a second electrode is formed on the variable resistive layer. The variable resistive layer has a sidewall that is separated from an inner side surface of the opening to define a gap between the sidewall of the variable resistive layer and the inner side surface of the opening. | 08-29-2013 |
20130221425 | NONVOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A nonvolatile memory device includes a plurality of interlayer dielectric layers and conductive layers for gate electrodes alternately stacked over a substrate, a channel trench passing through the interlayer dielectric layers and the conductive layers and exposing the substrate, a charge blocking layer and a charge trap or charge storage layer formed on sidewalls of the trench, a coupling prevention layer formed at the surface of the charge trap or charge storage layer, and a tunnel insulation layer formed over the coupling prevention layer. | 08-29-2013 |
20130221462 | SEMICONDUCTOR MEMORY AND MANUFACTURING METHOD THEREOF - A method for manufacturing a semiconductor memory device includes sequentially depositing a bottom electrode layer, a magnetic tunnel junction (MTJ) layer, a first top electrode layer, a second top electrode layer and a mask layer, etching the mask layer and forming a mask pattern, etching the second top electrode layer and the first top electrode layer by using the mask pattern as an etch barrier, etching the MTJ layer by using the mask layer and the second top electrode layer as an etch barrier, and etching the bottom electrode layer by using the first top electrode layer as an etch barrier. | 08-29-2013 |
20130222025 | PHASE LOCKED LOOP - A phase locked loop includes a phase detector configured to compare a phase of an input clock with a phase of a feedback clock to produce a phase comparison result, an initial frequency value provider configured to detect a frequency of the input clock and provide a frequency detection result, a controller configured to generate a frequency control signal based on the phase comparison result and the frequency detection result, and an oscillator configured to generate an output clock in response to the frequency control signal. | 08-29-2013 |
20130223124 | VARIABLE RESISTIVE MEMORY DEVICE AND METHOD OF FABRICATING AND DRIVING THE SAME - Provided are a variable resistive memory device, and methods of fabricating and driving the same. The variable resistive memory device includes a plurality of memory cells arranged in a first direction and in a second direction different from the first direction, each of the plurality of memory cells comprising a variable resistor and a selection device serially connected to the variable resistor. A common wiring is electrically connected to first ends of the plurality of memory cells to apply a common reference voltage. Each wiring line of a plurality of wiring lines is electrically connected to second ends of the plurality of memory cells arranged n the plurality of rows oriented in the first direction. A plurality of selection lines are respectively connected to the selection devices of the plurality of memory cells to select any one of the plurality of memory cells via the plurality of wiring lines. | 08-29-2013 |
20130223169 | SEMICONDUCTOR SYSTEM AND DEVICE, AND METHOD FOR CONTROLLING REFRESH OPERATION OF STACKED CHIPS - A system for controlling a refresh operation of a plurality of stacked semiconductor chips includes a first semiconductor configured to output a refresh signal for performing a refresh operation, and a semiconductor chip discrimination signal, and a plurality of second semiconductor chips configured to perform a refresh operation at different timings in response to the refresh signal, and the semiconductor chip discrimination signal. | 08-29-2013 |
20130227230 | SEMICONDUCTOR MEMORY, MEMORY SYSTEM, AND METHOD OF CONTROLLING THE SAME - Various embodiments of a semiconductor system, a semiconductor memory, and a method of controlling the same are disclosed. In one exemplary embodiment, the semiconductor memory may include a first circuit area configured to perform an operation corresponding to a general operation command and a second circuit area configured to provide the general operation command to the first circuit area. The second circuit area may be configured to determine whether the semiconductor memory is selected to perform the operation based on unique identification information and target identification information allocated to the semiconductor memory. | 08-29-2013 |
20130227240 | SEMICONDUCTOR MEMORY, MEMORY SYSTEM, AND METHOD OF CONTROLLING THE SAME - Various embodiments of a semiconductor system, semiconductor memory, and a method of controlling the same are disclosed. In one exemplary embodiment, the semiconductor memory may include a first circuit area configured to perform an operation corresponding to a general operation command and a second circuit area configured to provide the general operation command to the first circuit area. The second circuit area may be configured to determine whether the semiconductor memory selected to perform the operation based on unique identification information and target identification information allocated to the semiconductor memory. | 08-29-2013 |
20140167281 | STACK TYPE SEMICONDUCTOR CIRCUIT WITH IMPEDANCE CALIBRATION - A stack type semiconductor circuit includes a plurality of semiconductor chips stacked therein, wherein the plurality of semiconductor chips are configured to share impedance calibration information. The plurality of semiconductor chips include at least one resistance value of an external resistor and an impedance calibration signal as the impedance calibration information. | 06-19-2014 |
20140179092 | METHOD FOR FORMING VOID-FREE POLYSILICON AND METHOD FOR FABRICATING SEMICONDUCTOR DEVICE USING THE SAME - A method for fabricating a semiconductor device includes forming a buried gate electrode in a semiconductor substrate. An insulating layer is formed over the buried gate electrode and is etched to form a contact hole exposing the semiconductor substrate. A sacrificial spacer is formed on sidewalls of the insulating layer defining the contact hole. A polysilicon layer pattern is formed in the contact hole. The sacrificial spacer is removed to form an air gap around the polysilicon layer pattern. A thermal process is performed to remove a seam existing in the polysilicon layer pattern. | 06-26-2014 |