Patent application number | Description | Published |
20090134844 | APPARATUS AND METHOD FOR RECYCLING AND REUSING CHARGE IN AN ELECTRONIC CIRCUIT - An apparatus and method for recycling and reusing charge in an electronic circuit. The apparatus includes at least one capacitor coupled to a circuit block in the electronic circuit, the capacitor being configured to collect current charge consumed by the circuit block when set to a charge collection mode, and a voltage level comparator configured to detect a fully charged state when the capacitor is fully charged. Further, the apparatus includes a first electrical switch configured to allow, once the fully charged state is detected, the capacitor to switch to a discharge mode for discharging the current charge collected back into the power supply for reuse by the electrical system and a second switch configured to allow, after the capacitor has fully discharged the current charge collected, the capacitor to switch back to the charge collection mode, such that, the current charge is recycled and reused by the electrical system. | 05-28-2009 |
20100019908 | CIRCUIT STRUCTURE AND METHOD OF FABRICATION FOR FACILITATING RADIO FREQUENCY IDENTIFICATION (RFID) - A radio frequency identification (RFID) device and method of fabrication are presented. The RFID device includes an RFID antenna, a capacitor, and an RFID integrated circuit. The RFID antenna includes an elongate conductive trace disposed within an antenna area of the RFID device, and the capacitor includes an elongate capacitive structure for storing power. The elongate capacitive structure is aligned with the elongate conductive trace and embedded within the antenna area of the RFID device. The RFID integrated circuit is electrically coupled to the RFID antenna and to the capacitor, and the capacitor stores power within the antenna area of the RFID device to facilitate RFID integrated circuit functionality. | 01-28-2010 |
20100032814 | CIRCUIT STRUCTURES AND METHODS WITH BEOL LAYERS CONFIGURED TO BLOCK ELECTROMAGNETIC EDGE INTERFERENCE - Back-end-of-line (BEOL) circuit structures and methods are provided for blocking externally-originating or internally-originating electromagnetic edge interference. One such BEOL circuit structure includes a semiconductor substrate supporting one or more integrated circuits, and multiple BEOL layers disposed over the semiconductor substrate. The multiple BEOL layers extend to an edge of the circuit structure and include at least one vertically-extending conductive pattern disposed adjacent to the edge of the circuit structure. The vertically-extending conductive pattern is defined, at least partially, by a plurality of elements disposed in the multiple BEOL layers. The plurality of elements are uniformly arrayed at the edge of the circuit structure in a first direction or a second direction throughout at least a portion thereof. The plurality of elements are sized and positioned in the first direction or the second direction to block electromagnetic interference of a particular wavelength from passing therethrough. | 02-11-2010 |
20100060344 | TRANSITIONING DIGITAL INTEGRATED CIRCUIT FROM STANDBY MODE TO ACTIVE MODE VIA BACKGATE CHARGE TRANSFER - Circuits and methods are provided for facilitating transitioning of a digital circuit from backgate biased standby mode to active mode. The digital circuit includes a semiconductor substrate, multiple n-channel transistors disposed at least partially in one or more p-type wells in the semiconductor substrate, multiple p-channel transistors disposed at least partially in one or more n-type wells in the semiconductor substrate, and a backgate control circuit. The backgate control circuit is electrically coupled to the p-type well(s) and to the n-type well(s) to facilitate transitioning of the multiple n-channel transistors and the multiple p-channel transistors from backgate biased standby mode to active mode by automatically shunting charge from the n-type well(s) to the p-type well(s) until a well voltage threshold is reached indicative of a completed transition of the transistors from backgate biased standby mode to active mode. | 03-11-2010 |
20100066496 | ACOUSTIC WAVE AND RADIO FREQUENCY IDENTIFICATION DEVICE AND METHOD - An identification method and identification device are presented employing radio frequency and acoustic wave communication modes. The identification method includes: receiving at an acoustic wave and radio frequency identification device an acoustic wave signal of a first frequency and a radio frequency signal of a second frequency, where the acoustic wave signal and the radio frequency signal are received from an acoustic wave and radio frequency identification reader, and the first frequency and the second frequency are different frequencies; and responding to the receiving by transmitting at least one of an acoustic wave identification (AWID) or a radio frequency identification (RFID) from the acoustic wave and radio frequency identification device. | 03-18-2010 |
20100127730 | Internal charge transfer for circuits - The present invention enables fast transition between sleep and normal modes for circuits such as digital circuits. This invention utilizes chip internal charge transfer operations to put the circuit into fast sleep. The invention reduces external power involvement, and it expedites the sleep mode transition time by limiting charge transfers within the circuit. The fast sleep and fast wake-up enable more efficient power management of the system. This functionality also maximizes performance per power, and provides a more energy efficient computing architecture. | 05-27-2010 |
20100285616 | TRANSITIONING DIGITAL INTEGRATED CIRCUIT FROM STANDBY MODE TO ACTIVE MODE VIA BACKGATE CHARGE TRANSFER - Circuits and methods are provided for facilitating transitioning of a digital circuit from backgate biased standby mode to active mode. The digital circuit includes a semiconductor substrate, multiple n-channel transistors disposed at least partially in one or more p-type wells in the semiconductor substrate, multiple p-channel transistors disposed at least partially in one or more n-type wells in the semiconductor substrate, and a backgate control circuit. The backgate control circuit is electrically coupled to the p-type well(s) and to the n-type well(s) to facilitate transitioning of the multiple n-channel transistors and the multiple p-channel transistors from backgate biased standby mode to active mode by automatically shunting charge from the n-type well(s) to the p-type well(s) until a well voltage threshold is reached indicative of a completed transition of the transistors from backgate biased standby mode to active mode. | 11-11-2010 |
20100295156 | STRUCTURE FOR SYMMETRICAL CAPACITOR - Capacitance circuits are provided disposing a lower vertical-native capacitor metal layer above a planar front-end-of-line semiconductor base substrate, planar metal bottom plates spaced a bottom plate distance from the base and top plates above the bottom plates spaced a top plate distance from the base defining metal-insulator-metal capacitors, top plate footprints disposed above the base substrate smaller than bottom plate footprints and exposing bottom plate remainder upper lateral connector surfaces; disposing parallel positive port and negative port upper vertical-native capacitor metal layers over and each connected to top plate and bottom plate upper remainder lateral connector surface. Moreover, electrical connecting of the first top plate and the second bottom plate to the positive port metal layer and of the second top plate and the first bottom to the negative port metal layer impart equal total negative port and positive port metal-insulator-metal capacitor extrinsic capacitance. | 11-25-2010 |
20120135599 | CIRCUIT STRUCTURES AND METHODS WITH BEOL LAYERS CONFIGURED TO BLOCK ELECTROMAGNETIC EDGE INTERFERENCE - Back-end-of-line (BEOL) circuit structures and methods are provided for blocking externally-originating or internally-originating electromagnetic edge interference. One such BEOL circuit structure includes a semiconductor substrate supporting one or more integrated circuits, and multiple BEOL layers disposed over the semiconductor substrate. The multiple BEOL layers extend to an edge of the circuit structure and include at least one vertically-extending conductive pattern disposed adjacent to the edge of the circuit structure. The vertically-extending conductive pattern is defined, at least partially, by a plurality of elements disposed in the multiple BEOL layers. The plurality of elements are uniformly arrayed at the edge of the circuit structure in a first direction or a second direction throughout at least a portion thereof. The plurality of elements are sized and positioned in the first direction or the second direction to block electromagnetic interference of a particular wavelength from passing therethrough. | 05-31-2012 |
20120194792 | METHOD AND SYSTEM TO PREDICT LITHOGRAPHY FOCUS ERROR USING SIMULATED OR MEASURED TOPOGRAPHY - A method and system to predict lithography focus error using chip topography data is disclosed. The chip topography data may be measured or simulated topography data. A plane is best fitted to the topography data, and residuals are computed. The residuals are then used to make a prediction regarding the focus error. The density ratio of metal to dielectric may also be used as a factor in determining the predicted focus error. | 08-02-2012 |