Patent application number | Description | Published |
20090114972 | Integrated Circuit Embedded With Non-Volatile One-Time-Programmable And Multiple-Time Programmable Memory - A programmable non-volatile device uses a floating gate that functions as a FET gate that overlaps a portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through capacitive coupling, thus changing the state of the device. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-07-2009 |
20090116291 | METHOD OF MAKING INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE ONE-TIME - PROGRAMMABLE AND MULTIPLE-TIME PROGRAMMABLE MEMORY - A programmable non-volatile device is made which uses a floating gate that functions as a FET gate that overlaps a portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through capacitive coupling, thus changing the state of the device. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-07-2009 |
20090116295 | METHOD OF OPERATING INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE ONE-TIME - PROGRAMMABLE AND MULTIPLE-TIME PROGRAMMABLE MEMORY - A programmable non-volatile device is operated using a floating gate that functions as a FET gate that overlaps a portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through capacitive coupling, thus changing the state of the device. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-07-2009 |
20090122603 | INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE PROGRAMMABLE MEMORY HAVING VARIABLE COUPLING - A programmable non-volatile device uses a floating gate that functions as a FET gate that overlaps a variable portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. Multi-state embodiments are also possible. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-14-2009 |
20090122604 | METHOD OF OPERATING INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE PROGRAMMABLE MEMORY HAVING VARIABLE COUPLING RELATED APPLICATION DATA - A programmable non-volatile device is operated with a floating gate that functions as a FET gate that overlaps a portion of a source/drain region and allows for variable coupling through geometry and/or biasing conditions. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. Multi-state embodiments are also possible. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-14-2009 |
20090122605 | INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE MULTIPLE-TIME PROGRAMMABLE MEMORY HAVING VARIABLE COUPLING - A multi-programmable non-volatile device is operated with a floating gate that functions as a FET gate that overlaps a portion of a source/drain region and allows for variable coupling through geometry and/or biasing conditions. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-14-2009 |
20090124054 | METHOD OF MAKING INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE PROGRAMMABLE MEMORY HAVING VARIABLE COUPLING - A programmable non-volatile device is made with a floating gate that functions as a FET gate that overlaps a portion of a source/drain region and allows for variable coupling through geometry and/or biasing conditions. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. Multi-state embodiments are also possible. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-14-2009 |
20100109066 | COMMON DRAIN NON-VOLATILE MULTIPLE-TIME PROGRAMMABLE MEMORY - An array of programmable non-volatile devices use a floating gate that functions as a FET gate that overlaps a portion of a common source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through capacitive coupling, thus changing the state of the device. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-06-2010 |
20100165698 | NON-VOLATILE ONE-TIME - PROGRAMMABLE AND MULTIPLE-TIME PROGRAMMABLE MEMORY CONFIGURATION CIRCUIT - A programmable non-volatile configuration circuit uses a pair of non-volatile memory devices arranged in a pull-up and pull-down arrangement. The non-volatile memory devices have floating gates that overlaps a variable portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. The invention can be used in environments to store configuration data for programmable logic devices, field programmable arrays, and many other applications. | 07-01-2010 |
20100322001 | INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE PROGRAMMABLE MEMORY HAVING VARIABLE COUPLING AND SEPARATE READ/WRITE PATHS - A multi-programmable non-volatile device is operated with a floating gate that functions as a FET gate that overlaps a portion of a source/drain region and allows for variable coupling through geometry and/or biasing conditions. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. Different source/drain regions can be used for program and read operations. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 12-23-2010 |
20100322010 | NON-VOLATILE MEMORY PROGRAMMABLE THROUGH AREAL CAPACITIVE COUPLING - A programmable non-volatile device is made which uses a floating gate that functions as a FET gate that overlaps a portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through capacitive coupling, thus changing the state of the device. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 12-23-2010 |
20110116314 | METHOD OF OPERATING INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE PROGRAMMABLE MEMORY HAVING VARIABLE COUPLING RELATED APPLICATION DATA - A programmable non-volatile device is operated with a floating gate that functions as a FET gate that overlaps a portion of a source/drain region and allows for variable coupling through geometry and/or biasing conditions. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. Multi-state embodiments are also possible. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-19-2011 |
20110145048 | System & Method for Presenting Content To Captive Audiences - Marketing/advertising presentations are customized for transit passengers, such as commercial airline passengers. The passengers offer a good captive audience during long-duration trips since there is little opportunity for distraction. The passengers' attention and participation can be guaranteed by offering differing levels of incentives (e.g. reduced fare, upgraded seats, product/service discounts, etc.). | 06-16-2011 |
20110176365 | TWO TERMINAL PROGRAMMABLE HOT CHANNEL ELECTRON NON-VOLATILE MEMORY - A programmable two terminal non-volatile device uses a floating gate that can be programmed by a hot electron injection induced by a potential between a source and drain. The floating gate layer can also function as a FET gate for other circuits in an integrated circuit containing an array of the devices. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 07-21-2011 |
20120062276 | CAPACITIVELY COUPLED LOGIC GATE - An electronic logic circuit uses areal capacitive coupling devices coupled together to process a set of data inputs. Each areal capacitive coupling device can be configured such that a floating gate potential of such device can be altered to at least a first state or a second state in response to receiving an input signal from the set of data inputs, which is coupled electrically to the floating gate. A majority function logic circuit (and other similar circuits) can be interconnected this way using far fewer gates than with a conventional CMOS implementation. Selective logic gates can also be enabled or disabled by configuring them effectively as memory devices. | 03-15-2012 |
20120140564 | NON-VOLATILE ONE-TIME-PROGRAMMABLE AND MULTIPLE-TIME PROGRAMMABLE MEMORY CONFIGURATION CIRCUIT - A programmable non-volatile configuration circuit uses a pair of non-volatile memory devices arranged in a pull-up and pull-down arrangement. The non-volatile memory devices have floating gates that overlaps a variable portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. The invention can be used in environments to store configuration data for programmable logic devices, field programmable arrays, and many other applications. | 06-07-2012 |
20120287715 | Zero Cost NVM Cell Using High Voltage Devices in Analog Process - A non-volatile memory cell and array structure is disclosed situated within a high voltage region of an integrated circuit. The cell utilizes capacitive coupling based on an overlap between a gate and a drift region to impart a programming voltage. Programming is effectuated using a drain extension which can act to inject hot electrons. The cell can be operated as a one-time programmable (OTP) or multiple-time programmable (MTP) device. The fabrication of the cell relies on processing steps associated with high voltage devices, thus avoiding the need for additional masks, manufacturing steps, etc. | 11-15-2012 |
20130120023 | NON-VOLATILE ONE-TIME-PROGRAMMABLE AND MULTIPLE-TIME PROGRAMMABLE MEMORY CONFIGURATION CIRCUIT - A programmable non-volatile configuration circuit uses a pair of non-volatile memory devices arranged in a pull-up and pull-down arrangement. The non-volatile memory devices have floating gates that overlaps a variable portion of a source/drain region. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. The invention can be used in environments to store configuration data for programmable logic devices, field programmable arrays, and many other applications. | 05-16-2013 |
20130128674 | METHOD OF OPERATING INTEGRATED CIRCUIT EMBEDDED WITH NON-VOLATILE PROGRAMMABLE MEMORY HAVING VARIABLE COUPLING RELATED APPLICATION DATA - A programmable non-volatile device is operated with a floating gate that functions as a FET gate that overlaps a portion of a source/drain region and allows for variable coupling through geometry and/or biasing conditions. This allows a programming voltage for the device to be imparted to the floating gate through variable capacitive coupling, thus changing the state of the device. Multi-state embodiments are also possible. The invention can be used in environments such as data encryption, reference trimming, manufacturing ID, security ID, and many other applications. | 05-23-2013 |
20150036427 | INCREMENTALLY PROGRAMMABLE NON-VOLATILE MEMORY - An array of programmable non-volatile devices, such as a nominal OTP cell, is adapted such that a V | 02-05-2015 |
20150036428 | METHOD OF OPERATING INCREMENTALLY PROGRAMMABLE NON-VOLATILE MEMORY - An array of programmable non-volatile devices, such as a nominal OTP cell, is operated such that a V | 02-05-2015 |