Patent application number | Description | Published |
20090086549 | METHOD FOR DRIVING A NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A method for driving a nonvolatile semiconductor memory device is provided. The nonvolatile semiconductor memory device has source/drain diffusion layers spaced from each other in a surface portion of a semiconductor substrate, a laminated insulating film formed on a channel between the source/drain diffusion layers and including a charge storage layer, and a gate electrode formed on the laminated insulating film, the nonvolatile semiconductor memory device changing its data memory state by injection of charges into the charge storage layer. The method includes, before injecting charges to change the data memory state into the charge storage layer: injecting charges having a polarity identical to that of the charges to be injected; and further injecting charges having a polarity opposite to that of the injected charges. | 04-02-2009 |
20090244984 | METHOD FOR DRIVING A NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A method for driving a nonvolatile semiconductor memory device is provided. The nonvolatile semiconductor memory device includes a semiconductor layer having a channel, a first insulating film provided on the channel, a floating electrode provided on the first insulating film, a second insulating film provided on the floating electrode, and a gate electrode provided on the second insulating film, and changes its data memory state by injection of charges into the floating electrode. The method includes to achieve a state in which charges having a first polarity are injected into the floating electrode: providing a first potential difference between the semiconductor layer and the gate electrode to inject charges having the first polarity into the second insulating film; subsequently providing a second potential difference between the semiconductor layer and the gate electrode to inject charges having a second polarity opposite to the first polarity into the second insulating film; and subsequently providing a third potential difference between the semiconductor layer and the gate electrode to inject charges having the first polarity into the floating electrode. | 10-01-2009 |
20100080062 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR DRIVING SAME - A nonvolatile semiconductor memory device includes: a semiconductor substrate including a first channel, and a source region and a drain region provided on both sides of the first channel; a first insulating film provided on the first channel; a charge retention layer provided on the first insulating film; a second insulating film provided on the charge retention layer; and a semiconductor layer including a second channel provided on the second insulating film, and a source region and a drain region provided on both sides of the second channel. | 04-01-2010 |
20100080065 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR DRIVING THE SAME - A nonvolatile semiconductor memory device includes a memory cell and a driving unit. The a memory cell has a semiconductor layer having, a channel, and a source region and a drain region provided on both sides of the channel; a first insulating film provided on the channel; a charge retention layer provided on the first insulating film; and a gate electrode provided on the charge retention layer. The driving unit applies a burst signal having a constant amplitude and a constant frequency between the gate electrode and the semiconductor layer and performs at least one of operations of programming and erasing charge on the charge retention layer. | 04-01-2010 |
20110199834 | METHOD FOR DRIVING A NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A method for driving a nonvolatile semiconductor memory device is provided. The nonvolatile semiconductor memory device has source/drain diffusion layers spaced from each other in a surface portion of a semiconductor substrate, a laminated insulating film formed on a channel between the source/drain diffusion layers and including a charge storage layer, and a gate electrode formed on the laminated insulating film, the nonvolatile semiconductor memory device changing its data memory state by injection of charges into the charge storage layer. The method includes, before injecting charges to change the data memory state into the charge storage layer: injecting charges having a polarity identical to that of the charges to be injected; and further injecting charges having a polarity opposite to that of the injected charges. | 08-18-2011 |
20120068159 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - According to one embodiment, a nonvolatile semiconductor memory device includes a first memory portion. The first memory portion includes a first base semiconductor layer, a first electrode, a first channel semiconductor layer, a first base tunnel insulating film, a first channel tunnel insulating, a first charge retention layer and a first block insulating film. The first channel semiconductor layer is provided between the first base semiconductor layer and the first electrode, and includes a first channel portion. The first base tunnel insulating film is provided between the first base semiconductor layer and the first channel semiconductor layer. The first channel tunnel insulating film is provided between the first electrode and the first channel portion. The first charge retention layer is provided between the first electrode and the first channel tunnel insulating film. The first block insulating film is provided between the first electrode and the first charge retention layer. | 03-22-2012 |
20120069679 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR DRIVING SAME - According to one embodiment, a nonvolatile semiconductor memory device includes a memory string including a plurality of memory cells and, a driving unit. In sequentially reading data stored in the memory cells by applying a first signal to the memory cells, a second signal is applied to a second cell. The driving unit applies a third signal to the gate electrodes of all the memory cells prior to the sequential reading. The third signal has a voltage smaller than the second signal and time duration equal to or more than that of a sum of time duration during which the first signal is applied to all the memory cells. In a period prior to the third signal application, the driving unit performs at least one of applying a fourth signal to the gate electrodes and matching a potential of the gate electrodes with that of the semiconductor layer. | 03-22-2012 |
20120075928 | SEMICONDUCTOR MEMORY DEVICE - In a semiconductor layer, information is written by applying a first potential to a first electrode, applying a second potential that is lower than the first potential to all of back gate electrodes, applying a third potential that is higher than the first potential to the first to (i−1) | 03-29-2012 |
20130062681 | SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING THE SAME - According to one embodiment, a semiconductor memory device includes a stacked body, a semiconductor pillar, an insulating film, and a charge storage film. The stacked body includes a plurality of electrode films stacked with an inter-layer insulating film provided between the electrode films. The semiconductor pillar pierces the stacked body. The insulating film is provided between the semiconductor pillar and the electrode films on an outer side of the semiconductor pillar with a gap interposed. The charge storage film is provided between the insulating film and the electrode films. The semiconductor pillar includes germanium. An upper end portion of the semiconductor pillar is supported by an interconnect provided above the stacked body. | 03-14-2013 |
20130135938 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR DRIVING SAME - According to one embodiment, a nonvolatile semiconductor memory device includes a memory string including a plurality of memory cells and, a driving unit. In sequentially reading data stored in the memory cells by applying a first signal to the memory cells, a second signal is applied to a second cell. The driving unit applies a third signal to the gate electrodes of all the memory cells prior to the sequential reading. The third signal has a voltage smaller than the second signal and time duration equal to or more than that of a sum of time duration during which the first signal is applied to all the memory cells. In a period prior to the third signal application, the driving unit performs at least one of applying a fourth signal to the gate electrodes and matching is a potential of the gate electrodes with that of the semiconductor layer. | 05-30-2013 |
20130234231 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING THE SAME - According to one embodiment, a nonvolatile semiconductor memory device includes a stacked body, a second insulating layer, a select gate, a memory hole, a memory film, a channel body, a first semiconductor layer, and a second semiconductor layer. The select gate is provided on the second insulating layer. The memory film is provided on an inner wall of the memory hole. The channel body is provided inside the memory film. The first semiconductor layer is provided on an upper surface of the channel body. The second semiconductor layer is provided on the first semiconductor layer. The first semiconductor layer contains silicon germanium. The second semiconductor layer contains silicon germanium doped with a first impurity. A boundary between the first semiconductor layer and the second semiconductor layer is provided above a position of an upper end of the select gate. | 09-12-2013 |
20130242662 | METHOD FOR DRIVING A NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A method for driving a nonvolatile semiconductor memory device is provided. The nonvolatile semiconductor memory device has source/drain diffusion layers spaced from each other in a surface portion of a semiconductor substrate, a laminated insulating film formed on a channel between the source/drain diffusion layers and including a charge storage layer, and a gate electrode formed on the laminated insulating film, the nonvolatile semiconductor memory device changing its data memory state by injection of charges into the charge storage layer. The method includes, before injecting charges to change the data memory state into the charge storage layer: injecting charges having a polarity identical to that of the charges to be injected; and further injecting charges having a polarity opposite to that of the injected charges. | 09-19-2013 |