Patent application number | Description | Published |
20090057722 | Semiconductor device - There is provided a semiconductor device formed of a highly integrated high-speed CMOS inverter coupling circuit using SGTs provided on at least two stages. A semiconductor device according to the present invention is formed of a CMOS inverter coupling circuit in which n (n is two or above) CMOS inverters are coupled with each other, each of the n inverters has: a pMOS SGT; an nMOS SGT, an input terminal arranged so as to connect a gate of the pMOS SGT with a gate of the nMOS SGT; an output terminal arranged to connect a drain diffusion layer of the pMOS SGT with a drain diffusion layer of the nMOS SGT in an island-shaped semiconductor lower layer; a pMOS SGT power supply wiring line arranged on a source diffusion layer of the pMOS SGT; and an nMOS SGT power supply wiring line arranged on a source diffusion layer of the NMOS SGT, and an n−1th output terminal is connected with an nth input terminal. | 03-05-2009 |
20090065832 | SOLID-STATE IMAGING DEVICE - It is an object of the present invention to provide an image sensor having a high ratio of a surface area of a light receiving element to a surface area of one pixel. The above-described object is achieved by an inventive solid-state imaging device unit comprising solid-state imaging devices arranged on a substrate according to the present invention. The solid-state imaging device comprises a signal line formed on the substrate, an island shaped semiconductor placed over the signal line, and a pixel selection line connected to an upper portion of the island shaped semiconductor. The island shaped semiconductor comprises a first semiconductor layer disposed in a lower portion of the island shaped semiconductor and connected to the signal line, a second semiconductor layer disposed adjacent to an upper side of the first semiconductor layer, a gate connected to the second semiconductor layer via an insulating film, an electric charge accumulator comprising a third semiconductor layer connected to the second semiconductor layer and carrying a quantity of electric charges which varies in response to a light reception, and a fourth semiconductor layer disposed adjacent to an upper side of the second semiconductor layer and the third semiconductor layer and connected to the pixel selection line. The solid-state imaging devices are arranged on the substrate in a honeycomb configuration. | 03-12-2009 |
20090129171 | Nonvolatile semiconductor memory and method of driving the same - It is an object of the present invention to provide a nonvolatile semiconductor memory including memory cells using side walls of island semiconductor layers which avoid lowing of the writing speed and the reading speed. In the nonvolatile semiconductor memory having the nonvolatile semiconductor memory cells each having an island semiconductor layer formed on a semiconductor substrate, the island semiconductor layer having a drain diffusing layer formed on top thereof, a source diffusion layer formed on the lower side thereof, a charge-storage layer formed on a channel area on the side wall interposed between the drain diffusion layer and the source diffusion layer via a gate insulation film, and a control gate formed on the charge-storage layer arranged in matrix, bit lines connected to the drain diffusion layers are arranged in the column direction, control gate lines are arranged in the row direction, and source lines connected to the source diffusion layers are arranged in the column direction, the above-described object is achieved by the nonvolatile semiconductor memory characterized in that common source lines connected to the source lines are formed at every predetermined number of control gate lines, the common source lines are formed of metal, and the common source lines are arranged in the row direction. | 05-21-2009 |
20090161441 | Nonvolatile semiconductor memory and method for driving the same - To provide a NOR-type nonvolatile semiconductor memory that can inject electric charge into a charge accumulation layer through the use of an FN tunnel current without compromising an increase in the packing density of memory cells. The above problem is solved by a nonvolatile semiconductor memory in which nonvolatile semiconductor memory cells are arranged in a matrix, each nonvolatile semiconductor memory cell having an island semiconductor layer in which a drain diffusion layer formed in the upper part of the island semiconductor layer, a source diffusion layer formed in the lower part of the island semiconductor layer, a charge accumulation layer formed on a channel region of the side wall sandwiched between the drain diffusion layer and the source diffusion layer via a gate insulation film, and a control gate formed on the charge accumulation layer are formed. Further, bit lines connected to the drain diffusion layer are laid out in a column direction, control gate lines are laid out in a row direction, and source lines connected to the source diffusion layer are laid out in the column direction. | 06-25-2009 |
20090283804 | SOLID-STATE IMAGE SENSOR, SOLID-STATE IMAGE SENSING DEVICE, AND METHOD OF PRODUCING THE SAME - It is an object to provide a CCD solid-state image sensor, in which an area of a read channel is reduced and a rate of a surface area of a light receiving portion (photodiode) to an area of one pixel is increased. There is provided a solid-state image sensor, including: a first conductive type semiconductor layer; a first conductive type pillar-shaped semiconductor layer formed on the first conductive type semiconductor layer; a second conductive type photoelectric conversion region formed on the top of the first conductive type pillar-shaped semiconductor layer, an electric charge amount of the photoelectric conversion region being changed by light; and a high-concentrated impurity region of the first conductive type formed on a surface of the second conductive type photoelectric conversion region, the impurity region being spaced apart from a top end of the first conductive type pillar-shaped semiconductor layer by a predetermined distance, wherein a transfer electrode is formed on the side of the first conductive type pillar-shaped semiconductor layer via a gate insulating film, a second conductive type CCD channel region is formed below the transfer electrode, and a read channel is formed in a region between the second conductive type photoelectric conversion region and the second conductive type CCD channel region. | 11-19-2009 |
20120104478 | SOLID STATE IMAGING DEVICE - An island-shaped semiconductor constituting a pixel includes a first semiconductor N | 05-03-2012 |
20120181622 | SEMICONDUCTOR SURROUND GATE SRAM STORAGE DEVICE - It is intended to achieve a sufficiently-small SRAM cell area and a stable operation margin in an E/R type 4T-SRAM comprising a vertical transistor SGT. In a static type memory cell made up using four MOS transistors and two load resistor elements, each of the MOS transistor constituting the memory cell is formed on a planar silicon layer formed on a buried oxide film, to have a structure where a drain, a gate and a source are arranged in a vertical direction, wherein the gate is formed to surround a pillar-shaped semiconductor layer, and each of the load resistor elements is made of polysilicon and formed on the planar silicon layer. | 07-19-2012 |
20130252389 | NONVOLATILE SEMICONDUCTOR MEMORY TRANSISTOR AND METHOD FOR MANUFACTURING NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory transistor includes an island-shaped semiconductor having a source region, a channel region, and a drain region formed in this order from the silicon substrate side, a floating gate arranged so as to surround the outer periphery of the channel region with a tunnel insulating film interposed between the floating gate and the channel region, a control gate arranged so as to surround the outer periphery of the floating gate with an inter-polysilicon insulating film interposed between the control gate and the floating gate, and a control gate line electrically connected to the control gate and extending in a predetermined direction. The inter-polysilicon insulating film is arranged so as to be interposed between the floating gate and the lower and inner side surfaces of the control gate and between the floating gate and the lower surface of the control gate line. | 09-26-2013 |