| Patent application number | Description | Published |
|---|
| 20090115485 | Circuit and method for recovering clock data in highly integrated semiconductor memory apparatus - Circuit and method for recovering clock data in highly integrated semiconductor memory apparatus includes a plurality of signal receiving units configured to receive signals through a plurality of input/output pads and transfer the signals according to a receiving reference clock, the signal receiving units being divided into groups, a plurality of phase detection units configured to detect phases of signals output from the groups of the signal receiving units, a plurality of phase detection control units configured to control the phase detection units so that the phase detection units sequentially detect the phases of the signals output from each of the groups of the signal receiving units and a notification unit configured to output signals output from the phase detection units. | 05-07-2009 |
| 20090116302 | Semiconductor memory device - A semiconductor memory device can a desired internal clock in consideration of a delay time of an actual clock/data path. The semiconductor memory device includes a multiclock signal generating unit configured to receive a reference clock signal and generate a plurality of clock signals having a constant phase difference from each other, a delay modeling unit configured to generate a plurality of delay clock signals by reflecting a delay time of an actual clock/data path to the plurality of clock signals, a selection signal generating unit configured to generate selection signals by comparing phases between the reference clock signal and the plurality of delay clock signals, and a phase multiplexing unit configured to output any one of the plurality of clock signals as a final clock signal in response to the selection signals. | 05-07-2009 |
| 20090273493 | Parallel-to-serial converter - A parallel-to-serial converter includes a data input unit configured to receive a plurality of parallel data by using a plurality of clock signals having different phases, and a parallel-to-serial conversion unit configured to sequentially select and output an output signal of the data input unit by using a plurality of clock signals having a predetermined phase difference from the plurality of clock signals used in the data input unit. | 11-05-2009 |
| Patent application number | Description | Published |
|---|
| 20080219061 | APPARATUS AND METHOD FOR DETECTING LEAKAGE CURRENT OF SEMICONDUCTOR MEMORY DEVICE, AND INTERNAL VOLTAGE GENERATING CIRCUIT USING THE SAME - A semiconductor memory device is capable of generating a back bias voltage based on a target level changed according to a leakage current of the semiconductor memory devices, thereby minimizing the amount of the leakage current. The semiconductor memory device includes a leakage current detector and a back bias voltage generator. The leakage current detector is configured to detect a leakage current of a cell array. The back bias voltage generator is configured to generate a back bias voltage having a target level changed according to the leakage current. | 09-11-2008 |
| 20080219077 | INTERNAL VOLTAGE GENERATION CIRCUIT AND METHOD FOR SEMICONDUCTOR DEVICE - An internal voltage generation circuit for a semiconductor device and method therefor includes a voltage generator configured to generate voltages with different levels by using an external voltage. A code storing unit is configured to store a selection code to select an internal voltage out of the plurality of voltages. A decoding unit selects the internal voltage from among the plurality of voltages in response to the selection code in a normal mode, and selects the internal voltage out of the plurality of voltages in response to a test selection code set in a test mode. The interval voltage selected in the normal mode is used as an initial value that is a reference of the selection in the test mode. | 09-11-2008 |
| 20080304335 | Semiconductor memory device including apparatus for detecting threshold voltage - A semiconductor device including a threshold voltage detector and a boosted voltage generating unit. The threshold voltage detector detects a threshold voltage level of cell transistors and outputs a detected threshold voltage level. The boosted voltage generating unit changes a target level of a boosted voltage in response to the detected threshold voltage level. The threshold voltage detector includes a detected current generating unit and a detected voltage generating unit. The detected current generating unit has a plurality of cell transistors in a cell array and generates a detected current whose amplitude varies corresponding to an average level of the threshold voltages of the cell transistors. The detected voltage generating unit generates the detected threshold voltage level whose level is determined corresponding to the amplitude of the detected current. | 12-11-2008 |
| 20090067263 | CORE VOLTAGE DISCHARGE DRIVER - A core voltage discharge driver prevents a core voltage discharging operation from interrupting the core voltage generating operation. The core voltage discharge driver includes a comparing unit configured to compare a core voltage generating control signal for controlling generation of a core voltage with a core voltage discharging control signal for controlling discharge of the core voltage, and an adjusting unit configured to adjust the core voltage discharging control signal based on a comparison result of the comparing unit. | 03-12-2009 |
