Patent application number | Description | Published |
20080247220 | SEMICONDUCTOR MEMORY DEVICE WITH MEMORY CELLS OPERATED BY BOOSTED VOLTAGE - A memory using an SRAM memory cell intended for low-voltage operation is designed to decrease the threshold value of MOS transistors constituting the memory cell without substantial decrease in the static noise margin, which is the operational margin of the memory cell. To this end, a voltage Vdd′ higher than a power supply voltage Vdd of a power supply line for peripheral circuits is supplied from a power supply line for memory cells as a power supply voltage for memory cells. Since the conductance of driver MOS transistors is in-creased, the threshold voltage of the MOS transistors within the memory cells can be reduced without reducing the static noise margin. Further the ratio of width between the driver MOS transistor and a transfer MOS transistor can be set to 1, thereby allowing a reduction in the memory cell area. | 10-09-2008 |
20080247258 | SEMICONDUCTOR MEMORY DEVICE AND SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A leakage current of the MOS transistor of a power control section at a standby time is drastically reduced and the reduction of the consumption power is achieved. A memory module is provided with power control sections. When either of the memory mats is not selected, the power control sections stop the power supply voltage to a non-selected memory mat, a word driver, an input-output circuit, a control circuit and an output circuit. At the standby time of the memory module, the power control section stops a power supply to power control sections, a control circuit, a predecoder circuit, and an input circuit. In this manner, the leakage current of the MOS transistor of the power control sections at the standby time can be drastically reduced. | 10-09-2008 |
20080316800 | Semiconductor memory device - When threshold voltages of constituent transistors are reduced in order to operate an SRAM circuit at a low voltage, there is a problem in that a leakage current of the transistors is increased and, as a result, electric power consumption when the SRAM circuit is not operated while storing data is increased. Therefore, there is provided a technique for reducing the leakage current of MOS transistors in SRAM memory cells MC by controlling a potential of a source line ssl of the driver MOS transistors in the memory cells. | 12-25-2008 |
20090097302 | SEMICONDUCTOR DEVICE - A logic circuit in a system LSI is provided with a power switch so as to cut off the switch at the time of standby, reducing leakage current. At the same time, an SRAM circuit of the system LSI controls a substrate bias to reduce leakage current. | 04-16-2009 |
20100080046 | SEMICONDUCTOR DEVICE - A logic circuit in a system LSI is provided with a power switch so as to cut off the switch at the time of standby, reducing leakage current. At the same time, an SRAM circuit of the system LSI controls a substrate bias to reduce leakage current. | 04-01-2010 |
20110012206 | SEMICONDUCTOR MEMORY DEVICE - When threshold voltages of constituent transistors are reduced in order to operate an SRAM circuit at a low voltage, there is a problem in that a leakage current of the transistors is increased and, as a result, electric power consumption when the SRAM circuit is not operated while storing data is increased. Therefore, there is provided a technique for reducing the leakage current of MOS transistors in SRAM memory cells MC by controlling a potential of a source line ssl of the driver MOS transistors in the memory cells. | 01-20-2011 |
20110102019 | SEMICONDUCTOR DEVICE FORMED ON A SOI SUBSTRATE - Thresholds of MISFETS of a Full Depletion-type SOI substrate cannot be controlled by changing impurity density as with bulk silicon MISFETs. Therefore, it is difficult to set a suitable threshold for each circuit. According to the semiconductor device of the present invention, gate electrodes of P-channel type MISFETs composing a memory cell are made of N-type polysilicon, gate electrodes of N-channel type MISFETs are made of P-type polysilicon and gate electrodes of P-channel type and N-channel type MISFETs of peripheral circuits and a logic circuit are made of P-type silicon germanium. A suitable threshold can be achieved for each circuit using a SOI substrate, thereby making it possible to fully leverage the characteristics of the SOI substrate. | 05-05-2011 |
20110216579 | SEMICONDUCTOR DEVICE - A logic circuit in a system LSI is provided with a power switch so as to cut off the switch at the time of standby, reducing leakage current. At the same time, an SRAM circuit of the system LSI controls a substrate bias to reduce leakage current. | 09-08-2011 |
20120195110 | SEMICONDUCTOR MEMORY DEVICE - When threshold voltages of constituent transistors are reduced in order to operate an SRAM circuit at a low voltage, there is a problem in that a leakage current of the transistors is increased and, as a result, electric power consumption when the SRAM circuit is not operated while storing data is increased. Therefore, there is provided a technique for reducing the leakage current of MOS transistors in SRAM memory cells MC by controlling a potential of a source line ssl of the driver MOS transistors in the memory cells. | 08-02-2012 |
20140219010 | Semiconductor Device - A logic circuit in a system LSI is provided with a power switch so as to cut off the switch at the time of standby, reducing leakage current. At the same time, an SRAM circuit of the system LSI controls a substrate bias to reduce leakage current. | 08-07-2014 |
20150049541 | SEMICONDUCTOR MEMORY DEVICE - When threshold voltages of constituent transistors are reduced in order to operate an SRAM circuit at a low voltage, there is a problem in that a leakage current of the transistors is increased and, as a result, electric power consumption when the SRAM circuit is not operated while storing data is increased. Therefore, there is provided a technique for reducing the leakage current of MOS transistors in SRAM memory cells MC by controlling a potential of a source line ssl of the driver MOS transistors in the memory cells. | 02-19-2015 |
Patent application number | Description | Published |
20110063895 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE AND SYSTEM - A semiconductor integrated circuit which can respond to changes of the amount of retained data at the time of standby is provided. The semiconductor integrated circuit comprises a logic circuit (logic) and plural SRAM modules. The plural SRAM modules perform power control independently of the logic circuit, and an independent power control is performed among the plural SRAM modules. Specifically, one terminal and the other terminal of a potential control circuit of each SRAM module are coupled to a cell array and a local power line, respectively. The local power line of one SRAM module and the local power line of the other SRAM module share a shared local power line. A power switch of one SRAM module and a power switch of the other SRAM module are coupled in common to the shared local power line. | 03-17-2011 |
20110115474 | DETECTION SYSTEM, SEMICONDUCTOR DEVICE, AND DATA PROCESSING DEVICE - To provide an LSI having a low power mode that can prevent an apparatus on which the LSI is mounted from resulting in performance degradation, etc. even when its electric power is not reduced in the low power mode. Devised is a circuit that instructs an operation mode and detects whether the LSI operates as specified by the mode, and that measures a current at the time of the low power mode in a pseudo manner and, if despite having shifted to the low power mode, the current is not reduced actually, issues an alarm signal. | 05-19-2011 |
20110221516 | INFORMATION TECHNOLOGY EQUIPMENT - Information technology equipment includes a circuit block, a local power source line for supplying a power source to the circuit block, a power source line, and a first transistor which is provided with a source-drain path thereof between the power source line and the local power source line, in which the first transistor is controlled to an OFF state in a first state, and is controlled to an ON state in a second state, and when the first state is shifted to the second state, the first transistor is controlled such that a rate of changing a current flowing in the source-drain path of the first transistor does not exceed a predetermined value. | 09-15-2011 |
20110234297 | SEMICONDUCTOR INTEGRATED CIRCUIT AND ITS CONTROL TECHNIQUE - Provided is a control technique of a semiconductor integrated circuit capable by which power on/shut-off of a power shut-off area at an optimum speed in accordance with variations in fabricating devices as suppressing the malfunction of a circuit during operation in the power on/shut-off. A semiconductor integrated circuit includes: an always-on area; a power shut-off area; and a plurality of power-supply switches connected to the power shut-off area for supplying or shutting off the power to the power shut-off area. | 09-29-2011 |
20120136596 | SEMICONDUCTOR DEVICE - An object of the present invention is to sufficiently supply power to three-dimensionally stacked LSI chips and to dispose common through vias in chips of different types. Also, another object is to propose a new test method for power-supply through silicon vias. In order to achieve these objects, a semiconductor device includes: a first circuit block formed on a first semiconductor substrate having first and second sides extending in a first direction and third and fourth sides extending in a second direction intersecting with the first direction; a plurality of signal-line through vias that are connected to the first semiconductor substrate and transmit signals, which are output from the first circuit block, to a second circuit block formed on another second semiconductor substrate; and a plurality of power-supply through vias for supplying power to the first circuit block, and in the semiconductor device, the plurality of power-supply through vias are formed at edges of the first semiconductor substrate along the third and fourth sides and are formed in a plurality of rows in the first direction. Also, each of the circuit blocks has a power consuming mode in which power larger than the power consumption in a normal mode is consumed. | 05-31-2012 |
20140159041 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a first circuit block formed on a first semiconductor substrate having first and second sides extending in a first direction and third and fourth sides extending in a second direction intersecting with the first direction; a plurality of signal-line through vias that are connected to the first semiconductor substrate and transmit signals, which are output from the first circuit block, to a second circuit block formed on another second semiconductor substrate; and a plurality of power-supply through vias for supplying power to the first circuit block, and in the semiconductor device, the plurality of power-supply through vias are formed at edges of the first semiconductor substrate along the third and fourth sides and are formed in a plurality of rows in the first direction. Each circuit block has a power consuming mode in which power larger than the power consumption in a normal mode is consumed. | 06-12-2014 |
Patent application number | Description | Published |
20090116279 | Semiconductor integrated circuit device - The invention provides a semiconductor integrated circuit device provided with an SRAM that satisfies the requirements for both the SNM and the write margin with a low supply voltage. The semiconductor integrated circuit device include: multiple static memory cells provided in correspondence with multiple word lines and multiple complimentary bit lines; multiple memory cell power supply lines that each supply an operational voltage to each of the multiple memory cells connected to the multiple complimentary bit lines each; multiple power supply circuits comprised of resistive units that each supply a power supply voltage to the memory cell power supply lines each; and a pre-charge circuit that supplies a pre-charge voltage corresponding to the power supply voltage to the complimentary bit lines, wherein the memory cell power supply lines are made to have coupling capacitances to thereby transmit a write signal on corresponding complimentary bit lines. | 05-07-2009 |
20100188887 | Semiconductor integrated circuit device - The invention provides a semiconductor integrated circuit device provided with an SRAM that satisfies the requirements for both the SNM and the write margin with a low supply voltage. The semiconductor integrated circuit device include: multiple static memory cells provided in correspondence with multiple word lines and multiple complimentary bit lines; multiple memory cell power supply lines that each supply an operational voltage to each of the multiple memory cells connected to the multiple complimentary bit lines each; multiple power supply circuits comprised of resistive units that each supply a power supply voltage to the memory cell power supply lines each; and a pre-charge circuit that supplies a pre-charge voltage corresponding to the power supply voltage to the complimentary bit lines, wherein the memory cell power supply lines are made to have coupling capacitances to thereby transmit a write signal on corresponding complimentary bit lines. | 07-29-2010 |
20120044775 | Semiconductor integrated circuit device - The invention provides a semiconductor integrated circuit device provided with an SRAM that satisfies the requirements for both the SNM and the write margin with a low supply voltage. The semiconductor integrated circuit device include: multiple static memory cells provided in correspondence with multiple word lines and multiple complimentary bit lines; multiple memory cell power supply lines that each supply an operational voltage to each of the multiple memory cells connected to the multiple complimentary bit lines each; multiple power supply circuits comprised of resistive units that each supply a power supply voltage to the memory cell power supply lines each; and a pre-charge circuit that supplies a pre-charge voltage corresponding to the power supply voltage to the complimentary bit lines, wherein the memory cell power supply lines are made to have coupling capacitances to thereby transmit a write signal on corresponding complimentary bit lines. | 02-23-2012 |
20130272058 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - The invention provides a semiconductor integrated circuit device provided with an SRAM that satisfies the requirements for both the SNM and the write margin with a low supply voltage. The semiconductor integrated circuit device include: multiple static memory cells provided in correspondence with multiple word lines and multiple complimentary bit lines; multiple memory cell power supply lines that each supply an operational voltage to each of the multiple memory cells connected to the multiple complimentary bit lines each; multiple power supply circuits comprised of resistive units that each supply a power supply voltage to the memory cell power supply lines each; and a pre-charge circuit that supplies a pre-charge voltage corresponding to the power supply voltage to the complimentary bit lines, wherein the memory cell power supply lines are made to have coupling capacitances to thereby transmit a write signal on corresponding complimentary bit lines. | 10-17-2013 |