Patent application number | Description | Published |
20100195412 | SEMICONDUCTOR DEVICE, METHOD FOR CONTROLLING THE SAME, AND SEMICONDUCTOR SYSTEM - The semiconductor device includes a temperature sensor controlled so that temperature measurement is made once at each of a plurality of different reference temperatures at an interval of a preset number of times of refresh operations and a plurality of latch circuits holding the results of temperature measurement. A refresh period is set from outputs of the latch circuits inclusive of the result of temperature measurement carried out last time for each of a plurality of different reference temperatures. After start of measurement, temperature measurements are repeated every wait time corresponding to circulation of the refresh operations. The refresh period is set such that the high-temperature side results of temperature measurement are prioritized(FIG. | 08-05-2010 |
20110080797 | SEMICONDUCTOR DEVICE HAVING SENSE AMPLIFIERS - A semiconductor device which has a sense amplifier and is supplied with an external power supply voltage includes a drive signal line connected to the sense amplifier, a step up circuit generating a first voltage from the external power supply voltage, the first voltage being higher than the external power supply voltage, and a step down circuit lowering the external power supply voltage into a second voltage. For enabling the sense amplifier to perform sensing operation in a normal mode involving external access, the first voltage is applied to the drive signal line in an initial stage of the sensing operation, and thereafter the second voltage is applied to the drive signal line. In a refresh mode not involving external access, the step up circuit is shut down, and the second voltage is applied to the drive signal line from the initial stage of the sensing operation. | 04-07-2011 |
20120275256 | SEMICONDUCTOR DEVICE - A device may include, but is not limited to, a bit line; a power line supplied with a power voltage; a sense amplifier circuit amplifying a voltage of the bit line by using the power voltage of the power line; and a control circuit configured to respond to an active command and supply, as the power voltage, the power line with a first voltage during a first period and a second voltage lower than the first voltage during a second period. The control circuit is further configured to respond to a refresh command and supply, as the power voltage, the power line with the second voltage during both the first and second periods. | 11-01-2012 |
Patent application number | Description | Published |
20090238022 | SEMICONDUCTOR DEVICE AND CONTROLLING METHOD OF SEMICONDUCTOR DEVICE - A semiconductor device includes: a setting circuit which sets a first setting value; a control circuit which receives a predetermined control signal and the first setting value so as to output a second setting value; and an output circuit which outputs a predetermined level in response to the first setting value or the second setting value, wherein the second setting value is changed from the first setting value based on the predetermined control signal. | 09-24-2009 |
20100157713 | Semiconductor device with refresh control circuit - In a semiconductor device including a row-based control circuit applied with a current reduction circuit having a standby state and an active state, a refresh control circuit generates a refresh request signal every predetermined time interval on a self-refresh mode and time-sequentially generates an internal active signal at N times in connection with the refresh request signal once. The row-based control circuit time-sequentially refreshes information of memory cells on the based of the internal active signal at the N times. The refresh control circuit inactivates the row-based control circuit by making the current reduction circuit the standby state. | 06-24-2010 |
20100181839 | Semiconductor device - A semiconductor device includes two functional circuits, PMOS transistors and NMOS transistors. The PMOS transistors control whether or not a power supply potential is to be delivered to functional circuits, and the NMOS transistors control whether or not a power supply potential GND is to be delivered to the functional circuits. An external terminal supplied with a third power supply potential and another external terminal is supplied with a fourth power supply potential higher than the third power supply potential. A power supply control circuit delivers a control signal, having the fourth power supply potential as amplitude, to transistors to control the electrically conducting state or the electrically non-conducting state of transistors. The power supply control circuit also delivers a control signal, having the third power supply potential as amplitude, to transistors to control the electrically conducting or non-conducting state of the NMOS transistors. | 07-22-2010 |
20100191987 | Semiconductor device using plural external voltage and data processing system including the same - To provide a first internal voltage generating circuit that generates an internal voltage based on a first external voltage and a second internal voltage generating circuit that generates the internal voltage based on a second external voltage. The semiconductor device generates an internal voltage from a plurality of the first and second external voltages. These external voltages can be utilized efficiently depending on a load state. Therefore, even in a semiconductor device with greatly varying consumption power, it is not necessary to enlarge only a particular power supply device. | 07-29-2010 |
20100253317 | SEMICONDUCTOR DEVICE - To include a first X decoder constituted by a transistor whose off-leakage current has a first temperature characteristic, a pre-decoder circuit and a peripheral circuit constituted by a transistor whose off-leakage current has a second temperature characteristic, a power supply control circuit that inactivates the X decoder when a temperature exceeds a first threshold during a standby state, and a power supply control circuit that inactivates the pre-decoder and the peripheral circuit when a temperature exceeds a second threshold during the standby state. According to the present invention, whether power supply control is performed on a plurality of circuit blocks is determined based on different temperatures, therefore optimum power supply control can be performed on each of circuit blocks. | 10-07-2010 |
20120033506 | SEMICONDUCTOR DEVICE - A semiconductor device includes an internal circuit and an internal voltage generation circuit which generates an internal voltage stabilized with respect to a variation of the power supply voltage supplied from the outside and supplies the internal voltage to the internal circuit. The internal voltage generation circuit performs control so that when the power supply voltage rises to exceed a predetermined value, an operation of stabilizing the internal voltage is stopped to cause the internal voltage to increase with the rise of the power supply voltage. | 02-09-2012 |
20120263004 | SEMICONDUCTOR DEVICE WITH REFRESH CONTROL CIRCUIT - In a semiconductor device including a row-based control circuit applied with a current reduction circuit having a standby state and an active state, a refresh control circuit generates a refresh request signal every predetermined time interval on a self-refresh mode and time-sequentially generates an internal active signal at N times in connection with the refresh request signal once. The row-based control circuit time-sequentially refreshes information of memory cells on the based of the internal active signal at the N times. The refresh control circuit inactivates the row-based control circuit by making the current reduction circuit the standby state. | 10-18-2012 |
20130242674 | SEMICONDUCTOR DEVICE, METHOD FOR CONTROLLING THE SAME, AND SEMICONDUCTOR SYSTEM - The semiconductor device includes a temperature sensor controlled so that temperature measurement is made once at each of a plurality of different reference temperatures at an interval of a preset number of times of refresh operations and a plurality of latch circuits holding the results of temperature measurement. A refresh period is set from outputs of the latch circuits inclusive of the result of temperature measurement carried out last time for each of a plurality of different reference temperatures. After start of measurement, temperature measurements are repeated every wait time corresponding to circulation of the refresh operations. The refresh period is set such that the high-temperature side results of temperature measurement are prioritized. | 09-19-2013 |
20130250704 | SEMICONDUCTOR DEVICE HAVING LEVEL SHIFTER - Disclosed herein is a semiconductor device that includes: an internal voltage generator configured to produce an internal voltage in a first mode and stop producing the internal voltage in a second mode; a level shifter configured to receive the internal voltage, a first voltage and a first signal, in order to convert the first signal from a voltage level of internal voltage to a voltage level of the first voltage and output the first signal with the voltage level of the first voltage; and a logic circuit configured to produce the first signal, the logic circuit being supplied with the internal voltage in the first mode and supplied with the first voltage in the second mode. | 09-26-2013 |
20150061722 | SEMICONDUCTOR DEVICE - Disclosed herein is an apparatus that includes a first internal-potential generation circuit that generates a first internal potential from a power supply potential and that outputs the first internal potential to a first node, and an internal-potential force circuit that includes a first switch element provided between the first node and a second external terminal. The internal-potential force circuit causes the first switch element to enter into an off-state when the test signal supplied to a third external terminal is activated and a potential level of a first external terminal is a first level, and causes the first switch element to enter into an on-state when the test signal supplied to the third external terminal is activated and the potential level of the first external terminal is a second level different from the first level. | 03-05-2015 |