Patent application number | Description | Published |
20080244151 | METHOD AND APPARATUS FOR EMULATING REWRITABLE MEMORY WITH NON-REWRITABLE MEMORY IN AN MCU - An integrated circuit having an embedded multiple time programmable memory includes a processing core for executing stored instructions with a data memory and a non volatile memory. The non-volatile memory block provides for storage of program instructions and includes a plurality of blocks of non-volatile memory, each of which can be written to once and read from many times and each having a size that is equal to or less than a program memory address space addressable by the processing core for output of data there from. It also includes a reserve storage location for storing a status word defining the one of the plurality of blocks addressable by the processing core, the status word operable to be changed in response to external signals when another of the plurality of blocks is to be selected, such that once another of the plurality of blocks is selected, the status word cannot indicate as addressable by the processing core a prior one of the plurality of blocks that was defined by the status word as being previously addressable by the processing core. | 10-02-2008 |
20080317106 | MCU WITH INTEGRATED VOLTAGE ISOLATOR AND INTEGRATED GALVANICALLY ISOLATED ASYNCHRONOUS SERIAL DATA LINK - An integrated circuit comprises a first microcontroller unit for executing instructions in accordance with a first clock frequency. The microcontroller located on a first die and includes a first processing core for providing a parallel stream of data in accordance with the first clock frequency. A second microcontroller unit executes instructions in accordance with the first clock frequency. The second microcontroller is located on a second die and includes a second processing core for receiving the parallel stream of data in accordance with the first clock frequency. Capacitive isolation circuitry connected with the first microcontroller unit and the second microcontroller unit provides a high voltage isolation link between the first and the second microcontroller units. The capacitive isolation circuitry distributing a first portion of a high voltage isolation signal across a first group of capacitors associated with the first microcontroller unit and distributes a second portion of the high voltage isolation signal across a second group of capacitors associated with the second microcontroller unit. The capacitive isolation circuitry further transmits data from the parallel data stream between the first microcontroller and the second microcontroller in a serial data stream in accordance with the second clock frequency. | 12-25-2008 |
20090013199 | DIGITAL POWER SUPPLY CONTROLLER WITH INTEGRATED MICROCONTROLLER - A digital power supply controller is disclosed for controlling the operation of a switched power supply. The controller is contained within an integrated circuit package enclosing an integrated circuit chip. A plurality of inputs are provided on the package for interfacing with the switched power supply for receiving sensed inputs therefrom. A plurality of outputs provide switch control signals for turning on and off switches in the switched power supply. An integrated digital controller on the chip receives the inputs and generates the outputs, and includes an integrated instruction based processing engine for providing a portion of the digital control of the digital controller. A memory associated with the processing engine stores instructions for the processing engine. | 01-08-2009 |
20090017773 | CAPACITIVE ISOLATOR - An integrated circuit provides high voltage isolation capabilities. The circuit includes a first area containing a first group of functional circuitry located in a substrate of the integrated circuit. This circuit also includes a second area containing a second group of functional circuitry also contained within the substrate of the integrated circuit. Capacitive isolation circuitry located in the conductive layers in the integrated circuit provide a high voltage isolation link between the first group of functional circuitry and the second group of functional circuitry. The capacitive isolation circuitry distributes a first portion of the high voltage isolation signal across the first group of capacitors in the capacitive isolation circuitry and distributes a second portion of the high voltage isolation circuitry across the second group of capacitors in the capacitive isolation circuitry. | 01-15-2009 |
20090027243 | MCU WITH INTEGRATED VOLTAGE ISOLATOR TO PROVIDE A GALVANIC ISOLATION BETWEEN INPUT AND OUTPUT - An integrated circuit comprises a first microcontroller unit located on a first die. The first microcontroller unit includes a first processing core for providing a parallel stream of data. A second microcontroller unit is located on a second die and includes a second processing core for receiving the parallel stream of data. Voltage isolation circuitry transmits data from the parallel data stream between the first microcontroller and the second microcontroller in a serial data stream and provides galvanic isolation between the first microcontroller unit and the second microcontroller unit. | 01-29-2009 |
20090213914 | CAPACITIVE ISOLATION CIRCUITRY - An integrated circuit having voltage isolation capabilities includes a plurality of communications channels for transceiving data from the integrated circuit. Each of the communications channel includes capacitive isolation circuitry located in conductive layers of the integrated circuit for providing a high voltage isolation link. The capacitive isolation circuitry distributes a first portion of a high voltage isolation signal across a first group of capacitors on a first link and a second link in the capacitive isolation circuitry and distributes a second portion of the high voltage isolation signal across a second group of capacitors in the first link and the second link in the capacitive isolation circuitry. A differential receiver on each of the plurality of communications channels receives the data on the first link and the second link. A differential transmitter on each of the plurality of communications channels transmits the data on the first link at a selected one of a first phase and a second phase and for transmitting the data on the second link at the selected one of the first phase and the second phase. The second phase is 180 degrees out of phase with the first phase. Each of the differential transmitters controls the selection of the first phase and the second phase on each of the first link and the second link such that only the first phase or the second phase is cross coupled onto a selected communications channel from adjacent communications channels. | 08-27-2009 |
20090243028 | CAPACITIVE ISOLATION CIRCUITRY WITH IMPROVED COMMON MODE DETECTOR - An integrated circuit having voltage isolation capabilities comprising a first galvanically isolated area of the integrated circuit containing a first group of functional circuitry for processing a data stream. The first group of functional circuitry located in a substrate of the integrated circuit. Capacitive isolation circuitry located in conductive layers of the integrated circuit provides a high voltage isolation link between the first group of functional circuitry and a second group of functional circuitry connected to the integrated circuit through the capacitive isolation circuitry. The capacitive isolation circuitry includes a differential transmitter for transmitting data in a differential signal to the second group of functional circuitry via the capacitive isolation circuitry. A differential receiver receives data within the differential signal from the second group of functional circuitry via the capacitive isolation circuitry. A detector circuit within the differential receiver detects the received data. The detector circuit monitors the differential signal and generates a first logical output when a voltage generated responsive to the differential signal exceeds a programmable voltage threshold level and generates a second logical output when the voltage generated responsive to the differential signal falls below the programmable voltage threshold level. | 10-01-2009 |
20100052826 | ISOLATOR WITH COMPLEMENTARY CONFIGURABLE MEMORY - An isolator that includes first and second substantially identical circuitry galvanically isolated from each other and each having at least one communications channel thereon for communicating signals across an isolation boundary therebetween and each of said first and second circuitry having configurable functionality associated with the operation thereof. A coupling device is provided for coupling signal across the isolation boundary between the at least one communication channels of the first and second circuitry. First and second configuration memories are provided, each associated with a respective one of the first and second circuitry. First and second configuration control devices are provided, each associated with a respective one of the first and second circuitry and each configuring the functionality of the associated one of the first and second circuitry. The first and second configurable memories have stored therein complementary configuration information to control each of the functionalities of the first and second circuitry to operate in a complementary manner for communication of signals across the isolation boundary. | 03-04-2010 |
20110073996 | MULTIPLE DIE LAYOUT FOR FACILITATING THE COMBINING OF AN INDIVIDUAL DIE INTO A SINGLE DIE - A semiconductor wafer including a plurality of die fabricated therein in a defined pattern. They are separated from each other by a dicing area or street and at least a portion of adjacent die on the wafer include at least a conductive connection between given adjacent die that is electrically interfaced to circuitry disposed on the given adjacent die. | 03-31-2011 |
20120161841 | CAPACATIVE ISOLATOR WITH SCHMITT TRIGGER - High voltage isolation capabilities are provided using a first integrated circuit die that includes an inverting circuit path and a non-inverting circuit path coupled to receive a single-ended signal and to generate a differential signal from the single-ended signal for transmission over an isolation link. A second integrated circuit die includes a differential Schmitt trigger circuit coupled to the differential signal communicated over the isolation link and to supply at least one output signal corresponding thereto. An isolation barrier is disposed between the inverting and non-inverting circuit paths and the differential Schmitt trigger circuit and includes at least two isolation capacitors coupled to respectively transmit each portion of the differential signal. | 06-28-2012 |
20130222162 | DIGITAL TO ANALOG CONVERTER - An input digital signal is converted to an analog signal using a main digital to analog converter (DAC) and a sub DAC. An offset value is subtracted from the input digital signal to generate an offset adjusted digital signal. The main DAC converts the offset adjusted digital signal to a first analog signal. A second digital signal is generated based on the offset value and a correction factor determined, at least in part, during calibration of the main DAC. The sub DAC converts the second digital to a second analog signal, which when combined with the first analog signal, provides an analog representation of the input digital signal. | 08-29-2013 |