Patent application number | Description | Published |
20080238485 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device has a combinational logic circuit including one or plural logic cells connected in series. At least one of the logic cells includes a standard cell which includes a MIS transistor, an input terminal to which an output signal from a previous stage is inputted as an input signal, and an output terminal. A first conductivity-type first MIS transistor which is provided between the output terminal of the standard cell and a first power supply voltage, the first MIS transistor including a control terminal to which a circuit control signal is inputted, and the first MIS transistor supplying the first power supply voltage to the output terminal of the standard cell based on the circuit control signal in order to bring the standard cell into an operation-stopped state. A second conductivity-type second MIS transistor cuts off a leakage current of the MIS transistor in the standard cell. | 10-02-2008 |
20080283871 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit having a substantially rectangular standard cell divided by first borderlines opposed to other standard cells longitudinally adjacent to the standard cell and second borderlines opposed to other standard cells laterally adjacent to the standard cell, the standard cell has: a p-type MOS transistor having first diffused regions and a first gate electrode; an n-type MOS transistor having second diffused regions and a second gate electrode with STI disposed for device isolation between the n-type MOS transistor and the p-type MOS transistor substantially in parallel with the first borderlines; dummy p-type MOS transistors having third gate electrodes disposed on the second borderlines so as to be adjacent to the first diffused regions of the p-type MOS transistor, the third gate electrodes being connected to power supply wiring so as to turn off the dummy p-type MOS transistors; and dummy n-type MOS transistors having fourth gate electrodes disposed on the second borderlines so as to be adjacent to the second diffused regions of the n-type MOS transistor, the fourth gate electrodes being connected to ground wiring so as to turn off the dummy n-type MOS transistors. | 11-20-2008 |
20080298117 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device, has a first variable resistor element and a second variable resistor element whose resistances are changed complementarily depending on a current; and a current path switching circuit that supplies said current from a power supply by switching between current paths according to whether a normal operation mode or a read mode is input externally, wherein said power supply is turned off and then turned on again in said normal operation mode, and in this state, data corresponding to the relationship between the magnitudes of the resistances of said first variable resistor element and said second variable resistor element is read in said read mode. | 12-04-2008 |
20100066419 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device has a combinational logic circuit including one or plural logic cells connected in series. At least one of the logic cells includes a standard cell which includes a MIS transistor, an input terminal to which an output signal from a previous stage is inputted as an input signal, and an output terminal. A first conductivity-type first MIS transistor which is provided between the output terminal of the standard cell and a first power supply voltage, the first MIS transistor including a control terminal to which a circuit control signal is inputted, and the first MIS transistor supplying the first power supply voltage to the output terminal of the standard cell based on the circuit control signal in order to bring the standard cell into an operation-stopped state. A second conductivity-type second MIS transistor cuts off a leakage current of the MIS transistor in the standard cell. | 03-18-2010 |
20100117161 | SEMICONDUCTOR DEVICE THAT DEGRADES LEAK CURRENT OF A TRANSISTOR - A semiconductor device, has a main transistor that is a first-conductivity-type MOS transistor and has the drain connected to a first potential; a first switch circuit that is connected between the source of said main transistor and a second potential; a dummy transistor that is a first-conductivity-type MOS transistor whose source serves also as the source of said main transistor; and a second switch circuit that is connected between the drain of said dummy transistor and said first potential or said second potential. | 05-13-2010 |
20100133625 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit having a first p-type MOS transistor; a first n-type MOS transistor; a second p-type MOS transistors; a and second n-type MOS transistors having fourth gate electrodes disposed so as to be adjacent to the second diffused regions of the first n-type MOS transistor. The semiconductor integrated circuit further having an absolute value of a threshold voltage of the second p-type MOS transistor being higher than an absolute value of a threshold voltage of the first p-type MOS transistor, and an absolute value of a threshold voltage of the second n-type MOS transistor being higher than an absolute value of a threshold voltage of the first n-type MOS transistor. | 06-03-2010 |
20110181367 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE AND OSCILLATION FREQUENCY CALIBRATION METHOD - A semiconductor integrated circuit device includes a DCO and a storing unit that stores a temperature coefficient of an oscillation frequency and an absolute value of the oscillation frequency, which should be set in the DCO, corresponding to potential obtained from a voltage source that changes with a monotonic characteristic with respect to temperature. | 07-28-2011 |
20120056682 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE AND OSCILLATION FREQUENCY CALIBRATION METHOD - A semiconductor integrated circuit device includes a DCO and a storing unit that stores a temperature coefficient of an oscillation frequency and an absolute value of the oscillation frequency, which should be set in the DCO, corresponding to potential obtained from a voltage source that changes with a monotonic characteristic with respect to temperature. | 03-08-2012 |