Patent application number | Description | Published |
20090244940 | VOLTAGE GENERATING CIRCUIT - A voltage generating circuit is provided, including a voltage output terminal, a ground terminal, a capacitor, a selector, a first switch, and a second switch. The capacitor is connected between a pump signal and the output of the selector. The selector is controlled by a first control signal and used to select the voltage source or the voltage output terminal to connect the capacitor. The first switch is controlled by a second control signal, and the second switch is controlled by a third control signal. When the first switch is turn-on, the voltage output terminal is connected to the ground terminal. When the second switch is turn-on, the voltage output terminal is connected to the voltage source. | 10-01-2009 |
20140035664 | VOLTAGE PROVIDING CIRCUIT - A voltage providing circuit includes a first circuit, a second circuit coupled with the first circuit, and a third circuit coupled with the second circuit. The first circuit is configured to receive a first input signal and to generate a first output signal. The second circuit is configured to receive the first input signal and the first output signal as inputs and to generate a second output signal. The third circuit is configured to receive the second output signal and to generate an output voltage. | 02-06-2014 |
20140084374 | CELL DESIGN - One or more techniques or systems for designing a cell are provided. The cell generally includes one or more transistors, such as a pass gate transistor, a pull up transistor, or a pull down transistor, respectively associated one or more gate to gate distances. In some embodiments, a second gate to gate distance is selected based on a first gate to gate distance. For example, the first gate to gate distance and the second gate to gate distance are associated with a first transistor. In another example, the first gate to gate distance is associated with a first transistor and the second gate to gate distance is associated with a second transistor. In this manner, a cell design is provided to improve a static noise margin (SNM) or a write margin (WM) for the cell, for example. | 03-27-2014 |
20140269110 | ASYMMETRIC SENSING AMPLIFIER, MEMORY DEVICE AND DESIGNING METHOD - A sensing amplifier for a memory device includes first and second nodes, an input device and an output device. The memory device includes first and second bit lines, and at least one memory cell coupled to the bit lines. The first and second nodes are coupled to the first and second bit lines, respectively. The input device is coupled to the first and second nodes and generates a first current pulling the first node toward a predetermined voltage in response to a first datum read out from the memory cell, and to generate a second current pulling the second node toward the predetermined voltage in response to a second datum read out from the memory cell. The output device is coupled to the first node to output the first or second datum read out from the memory cell. The first current is greater than the second current. | 09-18-2014 |
20140269114 | CIRCUIT FOR MEMORY WRITE DATA OPERATION - A pulsed dynamic LCV circuit for improving write operations for SRAM. The pulsed dynamic LCV circuit includes voltage adjustment circuitry having a plurality of selectable reduced supply voltages and timing adjustment circuitry having a plurality of selectable logical state transition timings for adjustably controlling the voltage and timing of a transition from a selected reduced supply voltage back to a nominal supply voltage. The voltage adjustment circuitry has a plurality of selectable transistors that when individually selected have a cumulative effect to pull the reduced supply voltage down further. The timing adjustment circuitry has a plurality of selectable multiplexers that when individually selected for a delayed voltage transition have a cumulative effect to delay return of voltage supplied to SRAM from a reduced supply voltage to a nominal supply voltage. | 09-18-2014 |
20150048869 | CIRCUIT AND METHOD FOR POWER MANAGEMENT - A method comprises identifying a number of power domains in a device, connecting the power domains to each other by a number of control devices during a wake-up mode of the device, and disconnecting the power domains after the wake-up mode of the device. | 02-19-2015 |
20150058664 | DYNAMIC MEMORY CELL REPLACEMENT USING COLUMN REDUNDANCY - A memory chip comprises a main memory array having a plurality of memory columns, a redundancy memory column associated with the main memory array, and a hit logic circuitry configured to generate a plurality of hit logic signals by a plurality of hit logic units in the hit logic circuitry to enable dynamic replacement of a defective memory cell in one of the memory columns for dynamic replacement by the redundancy memory column when the memory array is in operation. | 02-26-2015 |
20150092502 | CIRCUIT TO GENERATE A SENSE AMPLIFIER ENABLE SIGNAL - A circuit includes a tracking bit line, a tracking unit connected to the tracking bit line and a detection unit. The tracking unit is configured to receive a first control signal and configured to selectively charge or discharge a voltage on the tracking bit line in response to the first control signal. The detection unit is coupled to the tracking bit line and configured to generate a sense amplifier enable (SAE) signal in response to the voltage level on the tracking bit line. | 04-02-2015 |