Patent application number | Description | Published |
20110221495 | DIGITAL DLL INCLUDING SKEWED GATE TYPE DUTY CORRECTION CIRCUIT AND DUTY CORRECTION METHOD THEREOF - Provided are a delay locked loop (DLL) that may can be included in a data processing device and may include a duty correction circuit, and a duty correction method of such a DLL. The duty correction method includes aligning a second transition of an output clock at a first transition of a clock for duty correction, sampling the clock for duty correction at the first transition of the output clock to detect an error of a duty cycle, and performing duty correction using a skewed gate chain according to the detected error of a duty cycle. | 09-15-2011 |
20110267874 | Invalid Write Prevention for STT-MRAM Array - In a Spin Transfer Torque Magnetoresistive Random Access Memory (STT-MRAM) a bit cell array can have a source line substantially parallel to a word line. The source line can be substantially perpendicular to bit lines. A source line control unit includes a common source line driver and a source line selector configured to select individual ones of the source lines. The source line driver and source line selector can be coupled in multiplexed relation. A bit line control unit includes a common bit line driver and a bit line selector in multiplexed relation. The bit line control unit includes a positive channel metal oxide semiconductor (PMOS) element coupled between the common source line driver and bit line select lines and bit lines. | 11-03-2011 |
20120026783 | Latching Circuit - A non-volatile latch circuit includes a pair of cross-coupled inverters, a pair of resistance-based memory elements, and write circuitry configured to write data to the pair of resistance-based memory elements. The pair of resistance-based memory elements is isolated from the pair of cross-coupled inverters during a latching operation. A sensing circuit includes a first current path that includes a first resistance-based memory element and an output of the sensing circuit. The sensing circuit includes a second current path to reduce current flow through the first resistance-based memory element at a first operating point of the sensing circuit. The sensing circuit may also include an n-type metal-oxide-semiconductor (NMOS) transistor to provide a step down supply voltage to the first current path. | 02-02-2012 |
20120062294 | CLOCK DELAY CIRCUIT AND DELAY LOCKED LOOP INCLUDING THE SAME - A digital delay line includes a plurality of delay cells therein. The delay line is configured to delay a periodic signal received at a first input thereof by passing the periodic signal through a selected number of the plurality of delay cells, in response to a discontinuous thermometer code that encodes the selected number. A code converter is provided, which includes a group bit decoder, a shared bit decoder and a code output cell array, which are collectively configured to generate the discontinuous thermometer code in response to a binary control code. | 03-15-2012 |
20130002352 | SENSING CIRCUIT - A circuit includes a degeneration p-channel metal-oxide-semiconductor (PMOS) transistor, a load PMOS transistor, and a clamp transistor configured to clamp a voltage applied to a resistance based memory element during a sensing operation. A gate of the load PMOS transistor is controlled by an output of an operational amplifier. | 01-03-2013 |
20130003447 | SENSING CIRCUIT - A circuit includes a degeneration p-channel metal-oxide-semiconductor (PMOS) transistor, a load PMOS transistor, and a clamp transistor configured to clamp a voltage applied to a resistance based memory element during a sensing operation. A gate of the load PMOS transistor is controlled by an output of a not-AND (NAND) circuit. | 01-03-2013 |
20130120031 | FREQUENCY MULTIPLIER AND METHOD OF MULTIPLYING FREQUENCY - A frequency multiplier in accordance with some embodiments of the inventive concept may include a pulse generator receiving a differential clock signal from a delay locked loop having a plurality of delay cells to generate a pulse signal for generation of a multiplication clock signal. The pulse generator comprises an intermediate pulse signal generation unit receiving the differential clock signal to generate intermediate pulse signals; and an overlap correction unit correcting an overlap between the intermediate pulse signals to generate correction pulse signals. | 05-16-2013 |
20130182500 | LATCHING CIRCUIT - A non-volatile latch circuit includes a pair of cross-coupled inverters, a pair of resistance-based memory elements, and write circuitry configured to write data to the pair of resistance-based memory elements. The pair of resistance-based memory elements is isolated from the pair of cross-coupled inverters during a latching operation. A sensing circuit includes a first current path that includes a resistance-based memory element and an output of the sensing circuit. The sensing circuit includes a second current path to reduce current flow through the resistance-based memory element at a first operating point of the sensing circuit. | 07-18-2013 |
20130194862 | NON-VOLATILE FLIP-FLOP - A flip-flop has an output control node and an isolation switch selectively couples a retention sense node to the output control node. A sense circuit selectively couples an external sense current source to the retention sense node and to magnetic tunneling junction (MTJ) elements. Optionally a write circuit selectively injects a write current through one MTJ element and then another MTJ element. Optionally, a write circuit injects a write current through a first MTJ element concurrently with injecting a write current through a second MTJ element. | 08-01-2013 |
20130215675 | INVALID WRITE PREVENTION FOR STT-MRAM ARRAY - In a Spin Transfer Torque Magnetoresistive Random Access Memory (STT-MRAM) a bit cell array can have a source line substantially parallel to a word line. The source line can be substantially perpendicular to bit lines. A source line control unit includes a common source line driver and a source line selector configured to select individual ones of the source lines. The source line driver and source line selector can be coupled in multiplexed relation. A bit line control unit includes a common bit line driver and a bit line selector in multiplexed relation. The bit line control unit includes a positive channel metal oxide semiconductor (PMOS) element coupled between the common source line driver and bit line select lines and bit lines. | 08-22-2013 |
20130286721 | LOW SENSING CURRENT NON-VOLATILE FLIP-FLOP - A low sensing current non volatile flip flop includes a first stage to sense a resistance difference between two magnetic tunnel junctions (MTJs) and a second stage having circuitry to amplify the output of the first stage. The output of the first stage is initially pre-charged and determined by the resistance difference of the two MTJs when the sensing operation starts. The first stage does not have a pull-up path to a source voltage (VDD), and therefore does not have a DC path from VDD to ground during the sensing operation. A slow sense enable (SE) signal slope reduces peak sensing current in the first stage. A secondary current path reduces the sensing current duration of the first stage. | 10-31-2013 |
20140203854 | DELAY LOCKED LOOP AND METHOD OF GENERATING CLOCK - Provided is a delay locked loop (DLL) including a ring oscillator (RO) including a delay line to delay a reference clock signal and generate a delayed clock signal, wherein the RO circulates, through the delay line, a feedback clock signal corresponding to the delayed clock signal to synchronize N cycles of the feedback clock signal with a cycle of the reference clock signal (where N is an integer number equal to or larger than 2); and a first frequency divider dividing the frequency of the delayed clock signal by 1/N (where N is an integer number equal to or larger than 2) to generate an output clock signal. | 07-24-2014 |
20140204974 | TEMPERATURE SENSOR AND TEMPERATURE SENSING METHOD - Provided is a temperature sensing circuit and a temperature sensing method including a delay unit delaying an input clock signal to generate a feedback clock signal, and including logic gates of which delay times are variable according to temperature, a delay control unit comparing the feedback clock signal with a reference clock signal and controlling each of the logic gates of the delay unit according to the comparison result, and an input signal control unit selecting, as the input clock signal, any one of the feedback clock signal and the reference clock signal to input the input clock signal to the delay unit. | 07-24-2014 |