Patent application number | Description | Published |
20080205114 | Semiconductor memory device and method of operating same - There are many inventions described and illustrated herein. In a first aspect, the present invention is directed to a memory device and technique of reading data from and writing data into memory cells of the memory device. In this regard, in one embodiment of this aspect of the invention, the memory device and technique for operating that device that minimizes, reduces and/or eliminates the debilitating affects of the charge pumping phenomenon. This embodiment of the present invention employs control signals that minimize, reduce and/or eliminate transitions of the amplitudes and/or polarities. In another embodiment, the present invention is a semiconductor memory device including a memory array comprising a plurality of semiconductor dynamic random access memory cells arranged in a matrix of rows and columns. Each semiconductor dynamic random access memory cell includes a transistor having a source region, a drain region, a electrically floating body region disposed between and adjacent to the source region and the drain region, and a gate spaced apart from, and capacitively coupled to, the body region. Each transistor includes a first state representative of a first charge in the body region, and a second data state representative of a second charge in the body region. Further, each row of semiconductor dynamic random access memory cells includes an associated source line which is connected to only the semiconductor dynamic random access memory cells of the associated row. | 08-28-2008 |
20090016101 | Reading Technique for Memory Cell With Electrically Floating Body Transistor - A semiconductor device along with circuits including the same and methods of operating the same are described. The device comprises a memory cell consisting essentially of one transistor. The transistor comprises a gate, an electrically floating body region, and a source region and a drain region adjacent the body region. The device includes data sense circuitry coupled to the memory cell. The data sense circuitry comprises a word line coupled to the gate region and a bit output coupled to the source region or the drain region. | 01-15-2009 |
20090080244 | Refreshing Data of Memory Cells with Electrically Floating Body Transistors - A semiconductor device along with circuits including the same and methods of operating the same are described. The device comprises a memory cell including one transistor. The transistor comprises a gate, an electrically floating body region, and a source region and a drain region adjacent the body region. Data stored in memory cells of the device can be refreshed within a single clock cycle. | 03-26-2009 |
20090201723 | Single Transistor Memory Cell - A semiconductor device along with circuits including the same and methods of operating the same are described. The device comprises a memory cell including one transistor. The transistor comprises a gate, an electrically floating body region, and a source region and a drain region adjacent the body region. Data stored in memory cells of the device is inherently refreshed during hold operations. | 08-13-2009 |
20100020597 | Memory Cell and Memory Cell Array Having an Electrically Floating Body Transistor, and Methods of Operating Same - A technique of writing, programming, holding, maintaining, sampling, sensing, reading and/or determining the data state of a memory cell of a memory cell array (for example, a memory cell array having a plurality of memory cells which consist of an electrically floating body transistor). In one aspect, the present inventions are directed to techniques to control and/or operate a semiconductor memory cell (and memory cell array having a plurality of such memory cells as well as an integrated circuit device including a memory cell array) having one or more electrically floating body transistors in which an electrical charge is stored in the body region of the electrically floating body transistor. The techniques of the present inventions may employ bipolar transistor currents to control, write and/or read a data state in such a memory cell. In this regard, the present inventions may employ a bipolar transistor current to control, write and/or read a data state in/of the electrically floating body transistor of the memory cell. | 01-28-2010 |
20100110816 | TECHNIQUES FOR BLOCK REFRESHING A SEMICONDUCTOR MEMORY DEVICE - Techniques for block refreshing a semiconductor memory device are disclosed. In one particular exemplary embodiment, the techniques may be realized as a method for block refreshing a semiconductor memory device. The method may comprise arranging a plurality of memory cells in one or more arrays of rows and columns. Each of the plurality of memory cells may comprise a first region coupled to a source line, a second region, a first body region disposed between the first region and the second region, wherein the body region may be electrically floating and charged to a first predetermined voltage potential, and a first gate coupled to a word line, wherein the first gate may be spaced apart from, and capacitively coupled to, the first body region. The method may also comprise applying voltage potentials to the plurality of memory cells to refresh a plurality of data states stored in the plurality of memory cells. | 05-06-2010 |
20100271857 | TECHNIQUES FOR PROVIDING A DIRECT INJECTION SEMICONDUCTOR MEMORY DEVICE - Techniques for providing a direct injection semiconductor memory device are disclosed. In one particular exemplary embodiment, the techniques may be realized as a method for biasing a direct injection semiconductor memory device. The method may comprise applying a first voltage potential to a first N-doped region via a bit line and applying a second voltage potential to a second N-doped region via a source line. The method may also comprise applying a third voltage potential to a word line, wherein the word line is spaced apart from and capacitively coupled to a body region that is electrically floating and disposed between the first N-doped region and the second N-doped region. The method may further comprise applying a fourth voltage potential to a P-type substrate via a carrier injection line. | 10-28-2010 |
20100277982 | SEMICONDUCTOR DEVICE WITH FLOATING GATE AND ELECTRICALLY FLOATING BODY - Techniques for providing floating body memory devices are disclosed. In one particular exemplary embodiment, the techniques may be realized as a semiconductor device comprising a floating gate, a control gate disposed over the floating gate, a body region that is electrically floating, wherein the body region is configured so that material forming the body region is contained under at least one lateral boundary of the floating gate, and a source region and a drain region adjacent the body region. | 11-04-2010 |
20110007578 | TECHNIQUES FOR PROVIDING A SEMICONDUCTOR MEMORY DEVICE - Techniques for providing a semiconductor memory device are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus including a first region and a second region. The apparatus may also include a body region disposed between the first region and the second region and capacitively coupled to a plurality of word lines, wherein each of the plurality of word lines is capacitively coupled to different portions of the body region. | 01-13-2011 |
20110194363 | SEMICONDUCTOR MEMORY CELL AND ARRAY USING PUNCH-THROUGH TO PROGRAM AND READ SAME - An integrated circuit device (for example, logic or discrete memory device) comprising a memory cell including a punch-through mode transistor, wherein the transistor includes a source region, a drain region, a gate, a gate insulator, and a body region having a storage node which is located, at least in part, immediately beneath the gate insulator. The memory cell includes at least two data states which are representative of an amount of charge in the storage node in the body region. First circuitry is coupled to the punch-through mode transistor of the memory cell to: (1) generate first and second sets of write control signals, and (2a) apply the first set of write control signals to the transistor to write a first data state in the memory cell and (2b) apply the second set of write control signals to the transistor to write a second data state in the memory cell. In response to the first set of write control signals, the punch-through mode transistor provides at least the first charge in the body region via impact ionization. The transistor may be disposed on a bulk-type substrate or SOI-type substrate. | 08-11-2011 |
20120002467 | SINGLE TRANSISTOR MEMORY CELL - A semiconductor device along with circuits including same and methods of operating same are disclosed. In one particular embodiment, the device may comprise a memory cell including a transistor. The transistor may comprise a gate, an electrically floating body region, and a source region and a drain region adjacent the body region. Data stored in memory cells of the device may be refreshed during hold operations. | 01-05-2012 |
20120073634 | Solar Cells and Solar Cell Arrays - A solar cell disposed in a substrate, the solar cell comprising (A) a first sub-cell having a conductor disposed in the substrate which is adapted to receive a first voltage, a collection region, and an insulating layer disposed on the conductor and (i) between the conductor and the collection region and (ii) between the conductor and the substrate, and (B) a second sub-cell, having a conductor disposed in the substrate which is adapted to receive a second voltage, a collection region, and an insulating layer disposed (i) between the conductor and collection region and (ii) between the conductor and substrate. The ratio of a depth of the conductors to a width of the conductors is greater than or equal to 10:1; in one embodiment, a distance between the first and second sub-cells is greater than the sum of the widths of depletion/inversion layers formed during operation. | 03-29-2012 |
20120092942 | TECHNIQUES FOR READING A MEMORY CELL WITH ELECTRICALLY FLOATING BODY TRANSISTOR - A semiconductor device along with circuits including the same and methods of operating the same are described. The device comprises a memory cell consisting essentially of one transistor. The transistor comprises a gate, an electrically floating body region, and a source region and a drain region adjacent the body region. The device includes data sense circuitry coupled to the memory cell. The data sense circuitry comprises a word line coupled to the gate region and a bit output coupled to the source region or the drain region. | 04-19-2012 |
20120236671 | REFRESHING DATA OF MEMORY CELLS WITH ELECTRICALLY FLOATING BODY TRANSISTORS - A semiconductor device along with circuits including the same and methods of operating the same are described. The device comprises a memory cell including one transistor. The transistor comprises a gate, an electrically floating body region, and a source region and a drain region adjacent the body region. Data stored in memory cells of the device can be refreshed within a single clock cycle. | 09-20-2012 |
20120273888 | SEMICONDUCTOR DEVICE WITH ELECTRICALLY FLOATING BODY - A semiconductor device along with circuits including the same and methods of operating the same are described. The device includes an electrically floating body region, and a gate is disposed over a first portion of the body region. The device includes a source region adjoining a second portion of the body region, the second portion adjacent the first portion and separating the source region from the first portion. The device includes a drain region adjoining a third portion of the body region, the third portion adjacent the first portion and separating the drain region from the first portion. | 11-01-2012 |
20120313155 | Photo Detector and Methods of Manufacturing and Operating Same - A photo detector comprising a first doped impurity region (adapted to receive a first voltage) disposed in or on a substrate; a body region, juxtaposed the first doped impurity region; a gate (adapted to receive a second voltage) spaced from a first portion of the body region; a light absorbing region, juxtaposed a second portion of the body region, includes a material which, in response to light incident thereon, generates carrier pairs including a first and second type carriers; a contact region (adapted to receive a third voltage) juxtaposed the light absorbing region; wherein, in response to incident light, the gate attracts first type carriers of the carrier pairs to the first portion of the body region which causes second carriers from the first doped impurity region to flow to the contact region, and the contact region attracts second type carriers. | 12-13-2012 |
20130250674 | REFRESHING DATA OF MEMORY CELLS WITH ELECTRICALLY FLOATING BODY TRANSISTORS - A semiconductor device along with circuits including the same and methods of operating the same are described. The device comprises a memory cell including one transistor. The transistor comprises a gate, an electrically floating body region, and a source region and a drain region adjacent the body region. Data stored in memory cells of the device can be refreshed within a single clock cycle. | 09-26-2013 |
20130250699 | TECHNIQUES FOR PROVIDING A SEMICONDUCTOR MEMORY DEVICE - Techniques for providing a semiconductor memory device are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus including a first region and a second region. The apparatus may also include a body region disposed between the first region and the second region and capacitively coupled to a plurality of word lines, wherein each of the plurality of word lines is capacitively coupled to different portions of the body region. | 09-26-2013 |
20130308379 | SEMICONDUCTOR DEVICE WITH ELECTRICALLY FLOATING BODY - A semiconductor device along with circuits including the same and methods of operating the same are described. The device includes an electrically floating body region, and a gate is disposed over a first portion of the body region. The device includes a source region adjoining a second portion of the body region, the second portion adjacent the first portion and separating the source region from the first portion. The device includes a drain region adjoining a third portion of the body region, the third portion adjacent the first portion and separating the drain region from the first portion. | 11-21-2013 |
20130322148 | TECHNIQUES FOR PROVIDING A DIRECT INJECTION SEMICONDUCTOR MEMORY DEVICE - Techniques for providing a direct injection semiconductor memory device are disclosed. In one particular exemplary embodiment, the techniques may be realized as a method for biasing a direct injection semiconductor memory device. The method may comprise applying a first voltage potential to a first N-doped region via a bit line and applying a second voltage potential to a second N-doped region via a source line. The method may also comprise applying a third voltage potential to a word line, wherein the word line is spaced apart from and capacitively coupled to a body region that is electrically floating and disposed between the first N-doped region and the second N-doped region. The method may further comprise applying a fourth voltage potential to a P-type substrate via a carrier injection line. | 12-05-2013 |
20130329501 | SEMICONDUCTOR DEVICE WITH FLOATING GATE AND ELECTRICALLY FLOATING BODY - Techniques for providing floating body memory devices are disclosed. In one particular exemplary embodiment, the techniques may be realized as a semiconductor device comprising a floating gate, a control gate disposed over the floating gate, a body region that is electrically floating, wherein the body region is configured so that material forming the body region is contained under at least one lateral boundary of the floating gate, and a source region and a drain region adjacent the body region. | 12-12-2013 |
20140312206 | PROXIMITY SENSOR SYSTEMS AND METHODS OF OPERATING SAME - Techniques for using photo detectors as tunable proximity sensors for detection of target objects and ascertaining their distance from the proximity sensors are disclosed. In one embodiment, the techniques may be realized as a proximity sensor system including a photo detector having a first doped region, a gate, a second doped region and a light absorbing region, a control circuitry for generating a plurality of control signals to be applied to the photo detector, and a signal detector to detect an output signal from the photo detector. | 10-23-2014 |
20140334229 | SEMICONDUCTOR DEVICE WITH FLOATING GATE AND ELECTRICALLY FLOATING BODY - Techniques for providing floating body memory devices are disclosed. In one particular exemplary embodiment, the techniques may be realized as a semiconductor device comprising a floating gate, a control gate disposed over the floating gate, a body region that is electrically floating, wherein the body region is configured so that material forming the body region is contained under at least one lateral boundary of the floating gate, and a source region and a drain region adjacent the body region. | 11-13-2014 |
20140349450 | TECHNIQUES FOR PROVIDING A SEMICONDUCTOR MEMORY DEVICE - Techniques for providing a semiconductor memory device are disclosed. In one particular exemplary embodiment, the techniques may be realized as an apparatus including a first region and a second region. The apparatus may also include a body region disposed between the first region and the second region and capacitively coupled to a plurality of word lines, wherein each of the plurality of word lines is capacitively coupled to different portions of the body region. | 11-27-2014 |
20150036425 | MEMORY CELL AND MEMORY CELL ARRAY HAVING AN ELECTRICALLY FLOATING BODY TRANSISTOR, AND METHODS OF OPERATING SAME - Techniques are disclosed for writing, programming, holding, maintaining, sampling, sensing, reading and/or determining a data state of a memory cell of a memory cell array, such as a memory cell array having a plurality of memory cells each comprising an electrically floating body transistor. In one aspect, the techniques are directed to controlling and/or operating a semiconductor memory cell having an electrically floating body transistor in which an electrical charge is stored in the body region of the electrically floating body transistor. The techniques may employ bipolar transistor currents to control, write and/or read a data state in such a memory cell. In this regard, the techniques may employ a bipolar transistor current to control, write and/or read a data state in/of the electrically floating body transistor of the memory cell. | 02-05-2015 |
20150054133 | TECHNIQUES FOR PROVIDING A DIRECT INJECTION SEMICONDUCTOR MEMORY DEVICE - Techniques for providing a direct injection semiconductor memory device are disclosed. In one particular exemplary embodiment, the techniques may be realized as a method for biasing a direct injection semiconductor memory device. The method may comprise applying a first voltage potential to a first N-doped region via a bit line and applying a second voltage potential to a second N-doped region via a source line. The method may also comprise applying a third voltage potential to a word line, wherein the word line is spaced apart from and capacitively coupled to a body region that is electrically floating and disposed between the first N-doped region and the second N-doped region. The method may further comprise applying a fourth voltage potential to a P-type substrate via a carrier injection line. | 02-26-2015 |