Patent application number | Description | Published |
20080204147 | Method and System for Power Amplifier (PA) With On-Package Matching Transformer - Aspects of a system for a power amplifier with an on-package matching transformer may include a DC/DC converter that enables generation of a bias voltage level within an IC die based on an amplitude of an input signal to a PA circuit within the IC die. The bias voltage level may be applied to a transformer, which is external to the IC die but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels, derived from the bias voltage level applied to the transformer, may be applied to the PA circuit. | 08-28-2008 |
20080204150 | Method and System for a Fast-Switching Phase-Locked Loop Using a Direct Digital Frequency Synthesizer - Aspects of a method and system for a fast-switching Phase-Locked Loop using a Direct Digital Frequency synthesizer may include generating a second signal from a first signal by: frequency translating an inphase component of the first signal utilizing a filtered fast-switching oscillating signal generated using at least a direct digital frequency synthesizer (DDFS), and frequency translating a corresponding quadrature component of the first signal utilizing a phase-shifted version of the generated and filtered fast-switching oscillating signal. The inphase and quadrature components of the first signal may be multiplied with the filtered fast-switching oscillating signal and a phase-shifted version of the filtered fast-switching oscillating signal, respectively. The filtered fast-switching oscillating signal may be obtained by removing at least one frequency-sum term of the fast-switching oscillating signal, where the fast-switching signal oscillating signal may be generated from a signal generated by the DDFS that may be multiplied with an oscillating reference signal. | 08-28-2008 |
20080204338 | METHOD AND SYSTEM FOR SOFTWARE DEFINED ANTENNA CONTROL - Methods and systems for reducing AM/PM and AM/AM distortion are disclosed and may comprise selectively coupling and impedance matching one of a plurality of tunable antennas to a single programmable output stage comprising a single power amplifier on a chip in a transmitter. A programmable matching circuit comprising adjustable inductance and capacitance may be used to impedance match the antenna to the output stage. The selected tunable antenna may be coupled to the output stage utilizing a programmable switch array, which may comprise at least one integrated transistor, for example. The tunable antennas may be designed to operate in different frequency bands and to be tuned within one or more frequency bands. The programmable matching circuit may be integrated on the chip or external to the chip. The matching circuit capacitance may be integrated on-chip, and the inductance may be located off-chip. | 08-28-2008 |
20080205541 | METHOD AND SYSTEM FOR POLAR MODULATION USING A DIRECT DIGITAL FREQUENCY SYNTHESIZER - Methods and systems for polar modulation using a digital direct frequency synthesizer (DDFS) are disclosed and may comprise generating a phase modulated signal in a DDFS, amplitude modulating the generated phase modulated signal in a non-linear device and transmitting the signal via a wireless medium. A processor may control the generation of the phase and amplitude modulated signals. The non-linear device may comprise a non-linear power amplifier or a mixer. The method may also comprise generating a first phase modulated signal in a first DDFS and generating a second phase modulated signal in a second DDFS, or in a single DDFS with two integrated digital-to-analog converters, and upconverting and combining the first and second phase modulated signals and amplitude modulating the combined upconverted signals in a non-linear device. A processor may be enabled to control the generation of the first and second phase modulated signals. | 08-28-2008 |
20080205542 | METHOD AND SYSTEM FOR EFFICIENT TRANSMISSION AND RECEPTION OF RF ENERGY IN MIMO SYSTEMS USING POLAR MODULATION AND DIRECT DIGITAL FREQUENCY SYNTHESIS - Aspects of a method and system for efficient transmission and reception of RF energy in MIMO systems using polar modulation and direct digital frequency synthesis are provided. A plurality of carrier signals in a MIMO system may be polar modulated utilizing polar modulation. One or more direct digital frequency synthesizer may be utilized to phase modulate the plurality of carrier signals. The direct digital frequency synthesizer may be modulated utilizing a single reference clock. The clock may be a single fixed-frequency reference clock. The plurality of carrier signals may be amplitude modulated by controlling a gain of a power amplifier. | 08-28-2008 |
20080205543 | Method and System for a High-Precision Frequency Generator using a Direct Digital Frequency Synthesizer for Transmitters and Receivers - Aspects of a method and system for a high-precision frequency generator using a direct digital frequency synthesizer for transmitters and receivers may include generating a second signal from a first signal by frequency translating an inphase component of the first signal utilizing a high-precision oscillating signal that may be generated using at least a direct digital frequency synthesizer (DDFS) and at least a Phase-Locked Loop (PLL). A corresponding quadrature component of the first signal may be frequency translated utilizing a phase-shifted version of the high-precision oscillating signal. The inphase component of the first signal may be multiplied with the high-precision oscillating signal and the quadrature component of the first signal may be multiplied with the phase-shifted version of the high-precision oscillating signal. The second signal may be generated from the first signal by adding the frequency translated inphase component to the frequency translated quadrature component. | 08-28-2008 |
20080205545 | Method and System for Using a Phase Locked Loop for Upconversion in a Wideband Crystalless Polar Transmitter - Certain aspects of a method and system for using a phase locked loop (PLL) as a filter in a wideband crystalless polar transmitter may be disclosed. Exemplary aspects of the method may include modifying a clock signal generated by a voltage controlled oscillator within a phase locked loop. A modulated signal may be generated via a direct digital frequency synthesizer based on the modified clock signal. The modulated signal may be upconverted to a radio frequency (RF) signal utilizing a phase locked loop and the RF signal may be amplitude modulated. The phase locked loop may be enabled to filter the RF signal. | 08-28-2008 |
20080205547 | METHOD AND SYSTEM FOR SOFTWARE DEFINED POWER AMPLIFIER FOR MULTI-BAND APPLICATIONS - Methods and systems for software definition of a power amplifier for multi-band applications are disclosed and may comprise configuring a single programmable output stage of a transmitter to transmit a signal via one of a plurality of selectively coupled antennas, wherein each antenna handles signals in a different frequency band. A power amplifier within the single programmable output stage may be tuned to a frequency within a range of frequencies handled by the selectively coupled antenna. The tuning may be accomplished by programmably adjusting at least one inductance and capacitance. The antennas may be impedance matched to the power amplifier using transformers and may be activated by at least one integrated transistor. The power amplifier may be biased in a class of operation, which may include Class A, AB, C and F, and may be biased utilizing a digitally-controlled current source and a digitally-controlled voltage source. | 08-28-2008 |
20080205548 | METHOD AND SYSTEM FOR A SOFTWARE DEFINED POWER AMPLIFIER FOR MULTI-BAND, MULTI-STANDARD APPLICATIONS - Methods and systems for a software defined power amplifier for multi-band, multi-standard applications are disclosed and may comprise configuring a single programmable output stage of a multi-band, multi-standard transmitter to handle transmission of a signal according to multiple wireless communication protocols and frequency ranges. The output stage may be configured by coupling a power amplifier (PA) within the programmable output stage to a switch or a duplexer, which may be coupled to one or more of multiple antennas, each of which may handle signals in a different frequency range. Each antenna may be impedance matched with the power amplifier using transformers, and may be coupled by activating at least one integrated transistor. The PA may be biased to operate in one of a plurality of classes of operation comprising Class A, AB, C and F associated with the wireless communication protocols, which may comprise EDGE, GSM, WCDMA and wireless LAN. | 08-28-2008 |
20080205549 | Method and System for a Wideband Polar Transmitter - Certain aspects of a method and system for a wideband polar transmitter may be disclosed. Aspects of the method may include polar modulating a plurality of signals by generating a plurality of modulated intermediate frequency (IF) signals corresponding to each of a plurality of wireless communication protocols within a transmitter that handles the plurality of wireless communication protocols. The generated plurality of modulated IF signals may be upconverted to a plurality of radio frequency (RF) signals. The plurality of RF signals may be combined and the combined plurality of RF signals may be amplitude modulated. | 08-28-2008 |
20080205550 | Method and System for Using a Phase Locked Loop for Upconversion in a Wideband Polar Transmitter - Certain aspects of a method and system for using a phase locked loop (PLL) as a filter in a wideband polar transmitter may be disclosed. Aspects of the method may include polar modulating a signal by generating a modulated intermediate frequency (IF) signal utilizing a direct digital frequency synthesizer. The modulated IF signal may be upconverted to a radio frequency (RF) signal utilizing a phase locked loop, and the RF signal may be amplitude modulated. The phase locked loop may be enabled to filter the RF signal. | 08-28-2008 |
20080205560 | METHOD AND SYSTEM FOR UTILIZING DIRECT DIGITAL FREQUENCY SYNTHESIS TO PROCESS SIGNALS IN MULTI-BAND APPLICATIONS - Aspects of a method and system for utilizing direct digital frequency synthesis in multi-band applications are provided. A direct digital frequency synthesizer integrated in a multiband wireless receiver chip may be enabled to generate one or more reference signals that may be utilized to down-convert VHF, UHF and L-band signals to baseband signals. The direct digital frequency synthesizer may further generate one or more reference signals, which may be utilized to calibrate one or more circuits that process received VHF, UHF, and L-band signals. In this regard, the signals generated by the direct digital frequency synthesizer may be utilized to calibrate one or more LNAs in a receive processing chain of the chip and/or one or more filters that may be utilized to process baseband signals. | 08-28-2008 |
20080207139 | Method and System for a Multisystem Polar Transmitter - Aspects of a method and system for a Multisystem Polar Transmitter may include a single integrated circuit comprising one or more Direct Digital Frequency Synthesizer (DDFS). The single integrated circuit may generate a plurality of signals compliant with at least a first wireless protocol and a second wireless protocol. At least one of the plurality of signals is polar modulated using the DDFS. The single integrated circuit may comprise a plurality of wireless transmitters. In another embodiment of the invention, a plurality of baseband signals compliant with the first and second protocols may be combined. The first protocol may be Bluetooth® and the second protocol may be Wireless LAN. The combined plurality of baseband signals may be modulated via a single wireless transmitter on the integrated circuit. The phase and frequency for polar modulation may be adjusted using the DDFS, while the amplitude may be adjusted using an amplifier. | 08-28-2008 |
20080207144 | Method and System for Improving Efficiency Over Power Control for Linear and Class AB Power Amplifiers - Aspects of a system for improving efficiency over power control for linear and class AB power amplifiers may include a current source circuit that enables determination of a bias current level for a PA circuit within an IC die based on an amplitude of an input modulation signal. The PA circuit may enable generation of an output signal based on a differential input signal and the input modulation signal to the current source circuit. A generated bias voltage may be applied to a transformer external to the IC die, but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels may be applied to the PA circuit wherein the amplifier bias voltage levels may be derived from the generated bias voltage level and/or the determined bias current level. | 08-28-2008 |
20080207148 | Voice, data and RF integrated circuit with multiple modulation modes and methods for use therewith - A voice data and RF integrated circuit (IC) includes a driver that generates an RF signal to a power amplifier module from an up-converted signal. A modulation controller provides a first modulation signal to the driver for modulating the up-converted signal when a modulation control signal has a first value and provides a second modulation signal to the power amplifier module for modulating the RF signal when the modulation control signal has a second value. | 08-28-2008 |
20080212658 | METHOD AND SYSTEM FOR COMMUNICATION OF SIGNALS USING A DIRECT DIGITAL FREQUENCY SYNTHESIZER (DDFS) - Aspects of a method and system for communication of signals using a direct digital frequency synthesizer (DDFS) are provided. A DDFS may enable generation of signals for down converting and/or up converting radio frequency (RF) signals in reception and transmission operations respectively. The DDFS may utilize a clock signal generated by a PLL and at least one frequency control word generated by a processor. The DDFS may generate the same frequency or different frequencies for the down converting signal and for the up converting signal. When different signals are needed for transmission and reception of RF signals, a first DDFS may be utilized for generating signals for down conversion and a second DDFS may be utilized for generating signals for up conversion. In this regard, a processor may generate separate frequency control words for the first DDFS and for the second DDFS. | 09-04-2008 |
20080212707 | METHOD AND SYSTEM FOR A DIGITAL POLAR TRANSMITTER - Aspects of a system for a digital polar transmitter may include a digital to analog converter circuit (DAC), for which an analog voltage and/or current step size generated in response to a sequence of received binary numbers may be dynamically programmable based on an input control signal. The input control signal may be based on an amplitude modulation (AM) signal. The DAC may receive the sequence of binary numbers, generated based on a phase modulation (PM) signal, from an accumulator circuit. The dynamically programmable-step-size DAC may generate an analog signal, which is amplified by a power amplifier circuit (PA) and transmitted via an antenna. The dynamically programmable-step-size DAC may enable utilization of a linear PA circuit. | 09-04-2008 |
20080231422 | METHOD AND SYSTEM FOR SIMULTANEOUS TRANSMISSION AND RECEPTION OF FM SIGNALS UTILIZING A DDFS CLOCKED BY AN RFID PLL - Aspects of a method and system for simultaneous transmission and reception of FM signals utilizing a DDFS clocked by an RFID PLL are provided. In this regard, a plurality of signals utilized to transmit or receive FM communication may be generated by clocking a plurality of DDFSs via a signal generated to enable RFID communication. | 09-25-2008 |
20080231535 | Method and System for Using a Transformer for FM Transmit and FM Receive Functionality - Aspects of a method and system for using a transformer for FM transmit and FM receive functionality may include communicating radio frequency signals via an antenna coupled to primary windings of a radio frequency transformer, wherein secondary windings of the radio frequency transformer may be utilized for receiving and/or transmitting the communicated radio frequency signals. The secondary windings may be utilized as a load of a power amplifier used for the transmitting. By applying an electrical signal at a terminal of the secondary windings, the secondary windings and/or the power amplifier may be biased. Receiving and transmitting may be operated in time division duplex mode or simultaneously. The electrical signal applied at the center terminal may be a biasing voltage. By using a plurality of capacitors, DC signal components for receiving may be blocked. | 09-25-2008 |
20080231536 | Method and System for Using a Single Transformer for FM Transmit and FM Receive Functions - Aspects of a method and system for using a single transformer for FM transmit and FM receive functions may include communicating radio frequency signals via an antenna coupled to primary windings of a radio frequency transformer, wherein first secondary windings of the radio frequency transformer may be utilized for receiving the communicated radio frequency signals, and second secondary windings of the radio frequency transformer may be utilized for transmitting the communicated radio frequency signals. Receiving and transmitting may be performed in time division duplex mode or simultaneously. A number of windings of the second secondary windings that may be used for transmitting of the radio frequency signals, may be less than or equal to a number of windings of the primary windings. | 09-25-2008 |
20080231537 | METHOD AND SYSTEM FOR FM TRANSMIT AND FM RECEIVE USING A TRANSFORMER AS A DUPLEXER - Aspects of a method and system for FM transmit and FM receive using a transformer as a duplexer may include communicating radio frequency signals via an antenna coupled to primary windings of a radio frequency transformer, wherein secondary windings of the radio frequency transformer may be utilized for receiving and/or transmitting the communicated radio frequency signals. The receiving and transmitting may be operated in time division duplex mode or simultaneously. A number of windings between a pair of connector terminals of the secondary windings used for transmitting of the radio frequency signals may be less than or equal to a number of windings of the primary windings. A number of windings between a pair of connector terminals of the secondary windings used for receiving of the radio frequency signals may be greater than or equal to a number of windings of the primary windings. | 09-25-2008 |
20080231543 | METHOD AND SYSTEM FOR EQUALIZING ANTENNA CIRCUIT MATCHING VARIATIONS - Aspects of a method and system for equalizing antenna circuit matching variations may include adjusting a frequency response of an antenna via a programmable filter and a gain of the antenna by varying a programmable amplifier. The antenna frequency response and the antenna gain may be adjusted dynamically and/or autonomously. The programmable amplifier and the programmable filter may be adjusted sequentially or simultaneously. The programmable filter may be an LC-type circuit and the programmable amplifier may be a low-noise amplifier. In an exemplary embodiment of the invention, the programmable filter may comprise a programmable capacitance in a matrix arrangement and/or a programmable inductance in a matrix arrangement. | 09-25-2008 |
20080232507 | Method and System for Simultaneous FM Transmission and FM Reception Using a Shared Antenna and an Integrated Local Oscillator Generator - Certain aspects of a method and system for simultaneous FM transmission and FM reception using a shared antenna and an integrated local oscillator generator may be disclosed. In a chip that handles communication of Bluetooth signals and FM signals, a clock signal may be generated at a particular frequency to enable transmission and/or reception of Bluetooth signals. A plurality of signals may be generated via a plurality of direct digital frequency synthesizers (DDFSs), which enable simultaneous transmission of FM signals and reception of FM signals. The plurality of DDFSs may be clocked by the generated clock signal. | 09-25-2008 |
20080232512 | METHOD AND SYSTEM FOR BLOCKER AND/OR LEAKAGE SIGNAL REJECTION BY DC BIAS CANCELLATION - Methods and systems for blocker and/or leakage signal rejection by DC bias cancellation are disclosed and may include undersampling a received signal including a desired signal and an undesired signal. A biasing current in the wireless system may be utilized to reduce a measured DC signal generated by the undersampling of the received signal. The received signal may be undersampled at a frequency of or an integer sub-harmonic of the undesired signal, which may include a leakage signal and/or a blocker signal. The DC biasing current may be controlled utilizing successive approximation, control logic and a digital to analog converter. The output DC voltage may correspond to said undesired signal, and the received signal may be undersampled utilizing a mixer. | 09-25-2008 |
20080232522 | Method and System for Integration of Bluetooth and FM Local Oscillator Generation into a Single Unit Using a DDFS - Certain aspects of a method and system for integration of Bluetooth and FM local oscillator generation in a single unit using a direct digital frequency synthesizer (DDFS) may be disclosed. Aspects of the method may include generating a clock signal at a particular frequency in a chip that handles communication of Bluetooth signals and FM signals. The generated clock signal may be divided to produce a frequency divided clock signal, which may be mixed with the generated clock signal to enable transmission and/or reception of Bluetooth signals. The generated clock signal or the frequency divided clock signal may be selected for clocking one or more direct digital frequency synthesizers (DDFSs) to enable transmission and/or reception of the FM signals. | 09-25-2008 |
20080233864 | Method And System For Integrated Bluetooth Transceiver, FM Transmitter And FM Receiver - An integrated circuit may enable transmission and reception of Bluetooth signals as well as FM signals. One or more clock signals may be generated via a phase-locked loop and may be utilized to enable Bluetooth transmission and reception. Bluetooth clock signals and frequency control words may be utilized by a direct digital frequency synthesizer to generate FM carrier signals that enable FM reception as well as digitally modulated signals for FM transmission. FM reception and transmission may be time division duplex. Frequency control words may be adjusted to compensate for variations in the Bluetooth clock signal frequency for FM carrier signals used in FM reception. Moreover, frequency control words may be adjusted to modulate a signal about the frequency of an FM carrier for transmission. Each of the Bluetooth clock signals, carrier signals and modulated signals comprise an in-phase component and a quadrature-phase component. | 09-25-2008 |
20080233867 | METHOD AND SYSTEM FOR SHARING A SINGLE ANTENNA FOR FREQUENCY MODULATION (FM) RECEPTION OR FM TRANSMISSION AND NEAR FIELD COMMUNICATION (NFC) - Aspects of a method and system for sharing a single antenna for frequency modulation (FM) transmission or FM reception, and near field communication (NFC) are presented. Aspects of a system may include at least one circuit that enables, via a single antenna, simultaneous transmission of an FM signal and transmission of an NFC signal or reception of an NFC signal. | 09-25-2008 |
20080233868 | METHOD AND SYSTEM FOR SHARING A SINGLE ANTENNA FOR FREQUENCY MODULATION (FM) TRANSMIT OR FM RECEIVE, AND NEAR FIELD COMMUNICAITON (NFC) - Aspects of a method and system for sharing a single antenna for frequency modulation (FM) transmission or FM reception, and near field communication (NFC) are presented. Aspects of a system may include at least one circuit that enables, via a single antenna, transmission of an FM signal or reception of an FM signal, and simultaneous transmission of an NFC signal or reception of an NFC signal. | 09-25-2008 |
20080233871 | Method and System For Bluetooth, Near Field Communication And Simultaneous FM Transmission and Reception Functions - Methods and systems for wireless communication are disclosed and may comprise generating a first signal to enable transmission and/or reception of Bluetooth signals, and clocking direct digital frequency synthesizers (DDFSs) via the first signal to enable simultaneous transmission and reception of FM and NFC signals. The first signal may be generated via a Bluetooth LOGEN or PLL, and may comprise in-phase and quadrature components. The frequency of the first signal may be within the range of 2.4 GHz to 2.483 GHz, or mixed to result in a frequency within the same range. Control word inputs may be generated to control the DDFSs, and may be adjusted to compensate for changes in frequency of the first signal. Simultaneous NFC transmission and reception may be simulated by switching the control word inputs between a plurality of values in successive time intervals to perform time division duplexing, and may occur at different frequencies. | 09-25-2008 |
20080233872 | Method and System for Clocking FM Transmit FM Receive, and Near Field Communication Functions Using DDFS - Methods and systems for clocking FM transmit, FM receive and near field communication functions using DDFS are disclosed. Aspects of one method may include generating a Bluetooth signal that may comprise, for example, I and Q components, or Bluetooth local oscillator (LO) signals, for use in Bluetooth communication. One of the two Bluetooth LO signals may then be used by a DDFS to generate I and Q LO signals for FM reception and/or transmission. One of the I and Q LO signals for FM communication may be used by another DDFS to generate at least one LO signal for near field communication (NFC) transmission and/or reception. While the Bluetooth LO signal may vary in frequency as Bluetooth frequency hopping occurs, the FM LO signals may remain constant for a specific channel frequency. Similarly, while the FM LO signals may be changed to tune to different FM channels, the NFC LO signals may remain at a constant frequency. | 09-25-2008 |
20080233880 | METHOD AND SYSTEM FOR SHARING A SINGLE ANTENNA FOR FREQUENCY MODULATION (FM) TRANSMISSION, FM RECEPTION AND NEAR FIELD COMMUNICATION (NFC) - Aspects of a method and system for sharing a single antenna for frequency modulation (FM) transmission, FM reception and near field communication (NFC) are presented. Aspects of a system may include at least one circuit that enables, via a single antenna, simultaneous transmission of an FM signal and reception of an FM signal, and transmission of an NFC signal or reception of an NFC signal. | 09-25-2008 |
20080233889 | Method and System for Simultaneous FM Transmission and FM Reception Using a Shared Antenna and A Direct Digital Frequency Synthesizer - Certain aspects of a method and system for simultaneous FM transmission and FM reception using a shared antenna and a direct digital frequency synthesizer (DDFS) may be disclosed. In a FM transceiver that receives FM signals at a frequency f | 09-25-2008 |
20080233891 | Method And System For Wireless Communication Using Integrated Clock Generation For Bluetooth And FM Transmit And FM Receive Functions - A method and system for wireless communication using integrated clock generation for Bluetooth and FM transmit and FM receive functions may include generating a clock signal to enable transmission and/or reception of Bluetooth signals; and clocking a Direct Digital Frequency Synthesizer (DDFS) via the generated clock signal to generate one or more signals by the DDFS that enable transmission or reception of FM signals. The generated clock signals for the Bluetooth and for the FM transmit and receive functions may include an in phase and quadrature phase component. Time Division Duplex of FM transmission and reception and simultaneous FM transmission and FM reception may be simulated by switching the control frequency word at a certain rate. The DDFS may also receive control words to compensate for frequency changes in the Bluetooth LO. The FM signals reception and transmission may be controlled by a bi-directional coupler. | 09-25-2008 |
20080233908 | METHOD AND SYSTEM FOR TRANSMISSION OR RECEPTION OF FM SIGNALS UTILIZING A DDFS CLOCKED BY AN RFID PLL - Aspects of a method and system for transmission or reception of FM signals utilizing a DDFS clocked by an RFID PLL are provided. In this regard, one or more signals utilized to transmit or receive FM communication may be generated by clocking a DDFS via a signal generated to enable RFID communication. | 09-25-2008 |
20080233910 | METHOD AND SYSTEM FOR MITIGATING RECEIVER SATURATION DURING SIMULTANEOUS FM TRANSMISSION AND RECEPTION - Aspects of a method and system for mitigating receiver saturation during simultaneous FM transmission and reception may include detecting a power of an RF signal received at an antenna. A power of one or more baseband signal components corresponding to the RF signal may be determined. A power of signals transmitted via the antenna may be controlled, based on a cost function derived from at least the detected RF signal power received and/or the determined power of the one or more baseband signal components. One or more of the baseband signal components may be an in-phase signal, a quadrature signal or both an in-phase signal and a quadrature signal associated with a same carrier frequency. In one embodiment of the invention, the radio frequency signal may be an intermediate frequency (IF) radio signal. | 09-25-2008 |
20080290966 | ADAPTIVE RADIO TRANSCEIVER WITH FILTERING - An exemplary embodiment of the present invention described and shown in the specification and drawings is a transceiver with a receiver, a transmitter, a local oscillator (LO) generator, a controller, and a self-testing unit. All of these components can be packaged for integration into a single IC including components such as filters and inductors. The controller for adaptive programming and calibration of the receiver, transmitter and LO generator. The self-testing unit generates is used to determine the gain, frequency characteristics, selectivity, noise floor, and distortion behavior of the receiver, transmitter and LO generator. It is emphasized that this abstract is provided to comply with the rules requiring an abstract which will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or the meaning of the claims. | 11-27-2008 |
20090010310 | ADAPTIVE RADIO TRANSCEIVER - An exemplary embodiment of the present invention described and shown in the specification and drawings is a transceiver with a receiver, a transmitter, a local oscillator (LO) generator, a controller, and a self-testing unit. All of these components can be packaged for integration into a single IC including components such as filters and inductors. The controller for adaptive programming and calibration of the receiver, transmitter and LO generator. The self-testing unit generates is used to determine the gain, frequency characteristics, selectivity, noise floor, and distortion behavior of the receiver, transmitter and LO generator. It is emphasized that this abstract is provided to comply with the rules requiring an abstract which will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or the meaning of the claims. | 01-08-2009 |
20090017770 | Noise cancellation system for transceivers - According to one exemplary embodiment, a transceiver providing noise cancellation has a transmitter and a receiver, and comprises a noise cancellation system receiving input from the transmitter. The noise cancellation system generates a noise cancellation signal injected into the receiver such that the noise cancellation signal has an amplitude substantially matching an amplitude of a noise signal in the receiver, and a phase substantially opposite to a phase of the noise signal in the receiver. In one exemplary embodiment, a noise cancellation system comprises a forward injection circuit including a scaling and rotation block, and first and second phase shift and attenuation controllers providing feedback from outputs of the receiver. In one exemplary embodiment, the scaling and rotation block includes first, second, third, and fourth amplifiers to receive a down-converted noise signal and provide a noise cancellation signal. | 01-15-2009 |
20090033414 | METHOD AND SYSTEM FOR POLAR MODULATING OFDM SIGNALS WITH DISCONTINUOUS PHASE - Aspects of a method and system for polar modulating OFDM signals with discontinuous phase may include amplifying an OFDM signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain and an amplitude offset gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain. The setting of the coarse amplitude gain and/or the amplitude offset gain may be adjusted dynamically and/or adaptively. | 02-05-2009 |
20090033415 | METHOD AND SYSTEM FOR AMPLITUDE CALIBRATION FOR POLAR MODULATION WITH DISCONTINUOUS PHASE - Aspects of a method and system for amplitude calibration for polar modulation with discontinuous phase may include amplifying a signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain, an amplitude offset gain and a calibration gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain and the calibration gain. The setting of the coarse amplitude gain, the calibration gain and/or said amplitude offset gain may be adjusted dynamically and/or adaptively. | 02-05-2009 |
20090033416 | METHOD AND SYSTEM FOR POLAR MODULATING QAM SIGNALS WITH DISCONTINUOUS PHASE - Aspects of a method and system for polar modulating QAM signals with discontinuous phase may include amplifying a signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain and an amplitude offset gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain. The setting of the coarse amplitude gain and/or said amplitude offset gain may be adjusted dynamically and/or adaptively. The signal may be generated by phase-modulation of a radio-frequency carrier. The combined gain of the plurality of amplifiers may be controlled based on a desired amplitude modulation. The plurality of amplifiers may be integrated within an integrated circuit (IC) or chip. | 02-05-2009 |
20090033417 | METHOD AND SYSTEM FOR POLAR MODULATION WITH DISCONTINUOUS PHASE FOR RF TRANSMITTERS WITH POWER CONTROL - Aspects of a method and system for polar modulation with discontinuous phase for RF Transmitters with power control may include amplifying a signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain, a power level gain and an amplitude offset gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain and the power level gain. A gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain. The setting of the coarse amplitude gain, the power level gain and/or the amplitude offset gain may be adjusted dynamically and/or adaptively. | 02-05-2009 |
20090033526 | METHOD AND SYSTEM FOR EXTENDING DYNAMIC RANGE OF AN RF SIGNAL - Aspects of a method and system for extending dynamic range of an RF signal are provided. In this regard, a signal representative of an amplitude of a pair of baseband signals may be generated. The amplitude of the generated signal may be expanded, and the amplitude of the baseband signals may be compressed. In this regard, the compression and the expansion may be inverse functions of each other. Additionally, the compressed baseband signals may be combined to generate an intermediate signal which may be amplitude modulated by the expanded signal. The amplitude modulation may result from controlling a gain, a voltage source, and/or a current source of a power amplifier. The intermediate signal may be generated by up-converting the baseband signals and subsequently combining the up-converted signals. | 02-05-2009 |
20090034642 | METHOD AND SYSTEM FOR POWER SUPPLY ADJUSTMENT AND POLAR MODULATION IN A MIMO SYSTEM - Aspects of a method and system for power supply adjustment and polar modulation in a MIMO system are provided. In each RF transmit chain of a MIMO system that utilizes polar modulation, aspects of the invention may enable generating a signal representative of an amplitude of a pair of phase-quadrature baseband signals; and controlling a voltage and/or current regulator utilizing said generated signal. In this regard, a voltage and/or current supplied to a power amplifier and/or mixer of one or more of the transmit chains may be controlled based on the generated signal. Additionally, a gain of a power amplifier for each RF transmit chain may be controlled utilizing said signal representative of an amplitude. The signal representative of an amplitude may be generated by squaring each of the phase-quadrature baseband signals and calculating a square root of a sum of the squared signals. | 02-05-2009 |
20090034653 | METHOD AND SYSTEM FOR POLAR MODULATION WITH DISCONTINUOUS PHASE - Aspects of a method and system for polar modulation with discontinuous phase are provided. In this regard, in-phase and quadrature-phase components may be generated from a modulated baseband signal, and the signal components may be utilized to generate a signal representative of the amplitude of the baseband signal. Furthermore, the signal components may be pulse shaped and the pulse-shaped components may be divided by the signal representative of the amplitude of the baseband signal. The resulting signals may be up-converted to RF, summed, and amplified, where the amplification may be controlled via a quantized representation of the signal representative of the amplitude of the baseband signal. In this regard, one or more bias points, and/or one or more binary weighted current sources coupled to one or more power amplifiers may be controlled. The pulse-shaping may comprise passing the signal components through a raised cosine filter. | 02-05-2009 |
20090036072 | METHOD AND SYSTEM FOR POWER SUPPLY ADJUSTMENT AND POLAR MODULATION IN AN RF TRANSMITTER - Aspects of a method and system for power supply adjustment for polar modulation of an RF signal are provided. In an RF transmitter, a signal representative of an amplitude of a pair of phase-quadrature baseband signals may be generated, and a voltage and/or current supplied to one or more components of said RF transmitter may be controlled based on said generated signal. Additionally, aspects of the invention may enable dividing each signal of said pair of baseband signals by said generated signal, up-converting the divided signals, and combining the up-converted signals to generate a phase modulated RF signal. The one or more components may comprise, for example, one or more amplifiers, and/or one or more mixers. The generated signal may result from squaring each signal of the pair of baseband signals and calculating a square root of a sum of the squared signals. | 02-05-2009 |
20090075688 | METHOD AND SYSTEM FOR CALIBRATING A POWER AMPLIFIER - Aspects of a method and system for calibrating a power amplifier are provided. In this regard, one or more reference signals may be generated and may be utilized to characterize a signal strength indicator (SSI). Additionally, measurements of power output by a power amplifier by the SSI may be corrected based on the characterization of the SSI. Accordingly, the power amplifier may be adjusted based on the corrected measurements. The reference signals utilized to characterize the SSI may be limited to a determined range. In this regard, signal strength of the reference signals, as measured by the SSI, may be compared to the expected signal strength in order to characterize the SSI. The SSI may be characterized over a range of frequencies and/or signal strengths. Similarly the power amplifier may be adjusted over a range of frequencies and/or signal strengths. | 03-19-2009 |
20090079474 | METHOD AND SYSTEM FOR GENERATION OF SIGNALS UP TO EXTREMELY HIGH FREQUENCIES USING A DELAY BLOCK - Aspects of a method and system for generation of signals up to extremely high frequency using a delay block are provided. In this regard, a first signal may be delayed, via at least a portion of a plurality of delay elements and via a variable capacitance, to generate a second signal that is 90° out of phase relative to the first signal. Additionally, the first signal and second signal may be mixed to generate a third signal, wherein a frequency of the third signal is twice a frequency of said first signal. The portion of the delay elements utilized for delaying the signal may be controlled via one or more switching elements. In this regard, one of the plurality of delay elements may be selected to output the second signal. Moreover, the portion of the delay elements utilized for delaying the signal may be programmably controlled. | 03-26-2009 |
20090079475 | METHOD AND SYSTEM FOR TRANSMISSION AND/OR RECEPTION OF SIGNALS UP TO EXTREMELY HIGH FREQUENCIES UTILIZING A DELAY CIRCUIT - Aspects of a method and system for transmission and/or reception of signals up to EHF utilizing a delay circuit are provided. In this regard, a transceiver may comprise at least one delay circuit which may, in turn, comprise a plurality of delay elements and a variable capacitance. The delay circuit may be enabled to delay a first signal, via at least a portion of the delay elements and via the variable capacitance, to generate a second signal that is 90° phase shifted relative to said first signal. Additionally, the delay circuit may be enabled to mix the first signal with the second signal to generate a third signal that is twice a frequency of the first signal. The third signal may be utilized for up-conversion and/or down-conversion of signals to and/or from baseband, intermediate frequencies, and/or RF frequencies of up to EHF. | 03-26-2009 |
20090079482 | METHOD AND SYSTEM FOR CONTROLLING A DELAY CIRCUIT FOR GENERATION OF SIGNALS UP TO EXTREMELY HIGH FREQUENCIES - Aspects of a method and system for generation of signals up to extremely high frequencies using a delay circuit are provided. In this regard, a variable delay circuit may be adjusted such that an output signal generated by the delay circuit may be twice the frequency of a signal input to the delay circuit. The adjustment may be via an variable capacitance and/or a variable number of delay elements utilized to generate the output signal. Moreover, the adjustment may be based on a signal strength of the output signal. In this regard, the delay may be adjusted to maximize the signal strength of the output signal. The input signal may be delayed to generate a second signal that is 90° phase shifted relative to the input signal. The second signal and the input signal may be mixed to generate the output signal. The output signal may be filtered by a a bandpass filter centered at twice the frequency of the input signal. Accordingly, the center frequency of the bandpass filter may be tunable. | 03-26-2009 |
20090080502 | METHOD AND SYSTEM FOR DISTRIBUTED TRANSCEIVERS BASED ON RF QUADRATURE AND LO QUADRATURE FILTERING FOR HIGH FREQUENCY APPLICATIONS - Aspects of a method and system for distributed quadrature transceiver using phase shifting may include frequency-translating a first signal to generate a second signal and a third signal, utilizing a plurality of conversion stages, wherein in at least one of said plurality of conversion stages, a first frequency scaled signal and a second frequency scaled signal may be summed. A third frequency scaled signal and a fourth frequency scaled signal may be summed. The first signal may be the corresponding input signal to at least one of the plurality of conversion stages, and the second signal and the third signal may be generated from one or more output signals of the plurality of conversion stages. | 03-26-2009 |
20090080541 | METHOD AND SYSTEM FOR TRANSMISSION AND/OR RECEPTION OF SIGNALS UTILIZING A DELAY CIRCUIT AND DDFS - Aspects of a method and system for transmission and/or reception of signals utilizing a delay circuit and a DDFS are provided. In this regard, a first signal may be delayed by 90°, via a plurality of delay elements and variable capacitance, to generate a second signal. The first and second signal may be mixed to generate a first LO signal, which may be utilized for a first frequency conversion. A second LO signal may be generated via a DDFS and may be utilized for a second frequency conversion. A digital input word of the DDFS, a value of the variable capacitance, and/or at least a portion of the delay elements, may be programmatically controlled based on a desired frequency for transmission and/or desired frequency for reception. The first frequency conversions may be up-conversions and/or down-conversions to/from baseband, one or more intermediate frequencies, and/or RF. | 03-26-2009 |
20090081954 | METHOD AND SYSTEM FOR A DISTRIBUTED QUADRATURE TRANSCEIVER USING PHASE SHIFTING - Aspects of a method and system for distributed quadrature transceiver using phase shifting may include frequency-translating a first signal to generate a second signal utilizing a plurality of conversion stages. In at least one of the plurality of conversion stages, a first frequency scaled signal and a phase-shifted version of a second frequency scaled signal may be summed, where the first frequency scaled signal may be generated by multiplying a corresponding input signal with a local oscillator signal or a fractional local oscillator signal, and the second frequency scaled signal may be generated by multiplying said corresponding input signal with a phase-shifted version of the local oscillator signal or a phase-shifted version of the fractional local oscillator signal. | 03-26-2009 |
20090081961 | METHOD AND SYSTEM FOR INJECTION LOCKING AN OSCILLATOR VIA FREQUENCY MULTIPLICATION OF A MULTIPHASE SIGNAL - Aspects of a method and system for injection locking an oscillator via frequency multiplication of a multi-phase signal are provided. A plurality of signals, each of which may be a phase shifted version of a reference signal, may be generated and utilized to generate an output signal. The output signal may be utilized to control a frequency of an oscillator. The frequency of the output signal may be a multiple of the reference frequency, and may be equal to the number of said first signals comprising said plurality. The frequency of the reference signal may be determined based on the number of said first signals comprising said plurality and on a desired frequency of the output signal. The number of signals comprising the plurality of first signals may be determined based on a frequency of said reference signal and on a desired frequency of said output signal. | 03-26-2009 |
20090081981 | METHOD AND SYSTEM FOR A DISTRIBUTED TRANSCEIVER FOR HIGH FREQUENCY APPLICATIONS - Aspects of a method and system for a distributed transceiver for high frequency applications may include generating a second signal from a first signal by frequency-translating the first signal via a plurality of conversion stages. Each of the plurality of conversion stages may frequency-translate a corresponding input signal by a local oscillator frequency or by a fraction of said local oscillator frequency. The first signal may be the corresponding input signal to an initial stage of a the plurality of conversion stages, an output signal of a previous one of the plurality of conversion stages may be the corresponding input signal to a subsequent one of the plurality of conversion stages, and the second signal may be an output signal of a final stage of the plurality of conversion stages. | 03-26-2009 |
20090081982 | METHOD AND SYSTEM FOR DISTRIBUTED TRANSCEIVERS BASED ON NOTCH FILTERS AND PASSIVE MIXERS - Aspects of a method and system for a distributed transceiver for high frequency applications may include generating a second signal from a first signal by frequency-translating the first signal via a plurality of conversion stages. Each of the plurality of conversion stages may frequency-translate a corresponding input signal by a local oscillator frequency or by a fraction of said local oscillator frequency, and each of the plurality of conversion stages may comprise a multiplier and a notch filter. The first signal may be the corresponding input signal to an initial stage of a the plurality of conversion stages, an output signal of a previous one of the plurality of conversion stages may be the corresponding input signal to a subsequent one of the plurality of conversion stages, and the second signal may be an output signal of a final stage of the plurality of conversion stages. | 03-26-2009 |
20090081983 | METHOD AND SYSTEM FOR A DISTRIBUTED QUADRATURE TRANSCEIVER FOR HIGH FREQUENCY APPLICATIONS - Aspects of a method and system for a distributed quadrature transceiver for high frequency applications may include frequency-translating a first signal to generate a second signal utilizing a plurality of conversion stages. The frequency-translating may comprise receiving in each one of the plurality of conversion stages, a local oscillator signal or a fractional local oscillator signal which may be utilized for mixing a corresponding input signal to each one of the plurality of conversion stages, wherein the first signal may be the corresponding input signal to an initial stage of the plurality of conversion stages. An output signal from a prior one of the plurality of conversion stages may be the corresponding input signal to a successive one of the plurality of conversion stages, and the second signal may be an output signal of a final stage of the plurality of conversion stages. | 03-26-2009 |
20090081985 | METHOD AND SYSTEM FOR A DISTRIBUTED TRANSCEIVER WITH DDFS CHANNEL SELECTION - Aspects of a method and system for a distributed transceiver with DDFS channel selection may include frequency-translating a first signal to generate one or more second signals utilizing a distributed mixer and an in-phase and quadrature mixing stage. The first signal may be an input signal to the distributed mixer, which may comprise a plurality of frequency conversion stages. The input signal to the distributed mixer may be an input signal to at least one of the plurality of frequency conversion stages and an output signal of the distributed mixer may be generated from one or more output signals or the plurality of conversion stages. The output signal from the distributed mixer may be an input signal to the in-phase and quadrature mixing stage and the one or more second signals may be generated from one or more output signals of the in-phase and quadrature mixing stage. | 03-26-2009 |
20090085611 | Method And System For A Programmable Local Oscillator Generator Based On Quadrature Mixing Using A Phase Shifter - Methods and systems for a local oscillator generator based on quadrature mixing using a phase shifter. Aspects of one method may include generating a local oscillator signal, where a frequency of the local oscillator signal may be determined by controlling a phase of in-phase (I) components and quadrature phase (Q) components of a first signal and a second signal. For example, by appropriately controlling a phase of each component that is to be mixed, the local oscillator signal may have a frequency that is the sum of a frequency of the first signal and a frequency of the second signal, or a difference of the frequency of the first signal and the frequency of the second signal. | 04-02-2009 |
20090085673 | METHOD AND SYSTEM FOR SIGNAL GENERATION VIA A PLL WITH DDFS FEEDBACK PATH - Aspects of a method and system for signal generation via a PLL with a DDFS feedback path are provided. In this regard, a phase difference between a reference signal and a feedback signal may be utilized to control a VCO, wherein the feedback signal is generated by a DDFS. Voltage, current and/or power levels of the generated feedback signal may be limited to a determined range of values. Moreover, the feedback signal may be based on an output of the VCO and a digital control word input to the DDFS. The digital control word may be programmatically controlled by, for example, a processor. Additionally, the control word may be determined based on a desired frequency of the generated feedback signal and a desired output frequency of the VCO. Accordingly, the DDFS may be clocked by the output of the VCO, or by a divided down version of the VCO output. | 04-02-2009 |
20090085674 | METHOD AND SYSTEM FOR SIGNAL GENERATION VIA A PLL WITH DIGITAL PHASE DETECTION - Aspects of a method and system for signal generation via a PLL with a digital feedback path are provided. In this regard, an output of a VCO may clock an accumulator to generate a digital feedback signal for phase comparison with a digital reference signal, wherein a value of a digital control word is added to a value stored in said accumulator on each cycle of said VCO output. The phase comparison may be performed by multiplying the feedback signal and the reference signal. Accordingly, a control voltage of the VCO may be determined based on a product of the multiplication. The value of the control word may be programmatically controlled and may be determined based on a frequency of the VCO output and/or of the reference signal. In this regard, the value of the control word may be retrieved from a look-up table. | 04-02-2009 |
20090085675 | METHOD AND SYSTEM FOR SIGNAL GENERATION VIA A PLL WITH UNDERSAMPLED FEEDBACK - Aspects of a method and system for signal generation via a PLL with undersampled feedback are provided. In this regard, the output of a VCO may clock a DDFS to generate a sampling frequency, and the output of the VCO may be undersampled at the sampling frequency to generate a feedback signal for controlling the VCO. Additionally, a control word for controlling the DDFS may be generated, and may be based on a phase difference between the feedback signal and a reference signal. The sampling frequency may be determined such that an aliasing product of the undersampling occurs at a frequency of the reference signal. Also, the feedback signal may be filtered to select a desired aliasing product from a plurality of aliasing products. The output of the VCO may be frequency divided before clocking the DDFS, and a divisor of the division may be programmatically controlled. | 04-02-2009 |
20090085678 | METHOD AND SYSTEM FOR SIGNAL GENERATION VIA A DIGITALLY CONTROLLED OSCILLATOR - Aspects of a method and system for digitally controlling a VCO are provided. In this regard, a phase difference between two signals may be determined, represented digitally, and utilized to adjust the output frequency of a LOGEN. In this regard, the output frequency may be adjusted by controlling one or more switching elements coupled to one or more reactances, which may comprise a plurality of capacitors coupled in parallel, within the LOGEN. The phase difference may be determined by digitally multiplying the two signals, and the resulting product may be delta-sigma modulated. The two signals may be generated via one or more accumulators, which may be controlled, at least in part, by a digital control word. The control word may be retrieved from a look-up table. The accumulators may be clocked by a frequency divided version of the LOGEN output. | 04-02-2009 |
20090085698 | METHOD AND SYSTEM FOR LOGEN BASED ON HARMONICS USING MICROSTRIP TECHNIQUES - Aspects of a method and system for LOGEN based on harmonics using microstrip techniques may include generating an output local oscillator signal from a non-sinusoidal input local oscillator signal by filtering the non-sinusoidal input local oscillator signal via a microstrip filter, wherein the output local oscillator signal may comprise a fundamental frequency that may be given by a harmonic frequency of the non-sinusoidal input local oscillator signal. The microstrip filter may be a programmable bandpass filter or a programmable stopband filter. The microstrip filter may be tuned to the harmonic frequency. The microstrip filter may be configured by adjusting a center frequency via a capacitance and/or an inductance. The bandwidth of the microstrip filter may be configured. The microstrip filter may be a programmable coplanar waveguide filter, and its center frequency may be configured via an inductance and/or a capacitance. | 04-02-2009 |
20090086703 | METHOD AND SYSTEM FOR UTILIZING UNDERSAMPLING FOR CRYSTAL LEAKAGE CANCELLATION - Methods and systems for utilizing undersampling for crystal leakage cancellation are disclosed and may include undersampling a composite signal comprising a desired signal and leakage signals due to one or more clock signals. Measured DC signals generated by each of the undersampled signals may be reduced by adjusting the phase and/or amplitude of the clock signals. The undersampling may be performed at one or more of the one or more clock signals, or at integer sub-harmonics of the clock signals. The composite signal may include a signal received by a wireless system or a signal to be transmitted by the wireless system. The undersampled signals may be low-pass filtered. The desired signal may include in-phase and quadrature signals or a polar signal. The undersampling may be performed by one or more sample and hold circuits and the clock signals may be generated utilizing one or more crystal oscillators. | 04-02-2009 |
20090086795 | METHOD AND SYSTEM FOR A LOW-COMPLEXITY VARIABLE FREQUENCY OSCILLATOR USING DIRECT DIGITAL FREQUENCY SYNTHESIS - Aspects of a method and system for a low-complexity variable frequency oscillator using direct digital frequency synthesis may include generating one or more digital output signals via a Direct Digital Frequency Synthesizer (DDFS) that may be clocked by a high frequency clock signal. The one or more generated digital output signals may be converted into an analog signal via a Digital-to-Analog Converter (DAC), wherein the analog signal comprises at least a local oscillator signal and a corresponding frequency image signal, and the DAC is clocked by the high frequency clock signal. A low-frequency output local oscillator signal may be generated by bandpass filtering the analog signal in a single-pole bandpass filter, the single-pole bandpass filter may be configured to retain the local oscillator signal component of the analog signal. An effective capacitance and/or an effective inductance of the single-pole bandpass filter may be programmably adjusted. | 04-02-2009 |
20090086796 | Method And System For A High Frequency Signal Repeater Using A DDFS - Certain embodiments of the invention may be found in a method and system for a high frequency signal repeater using DDFS. Aspects of the method may comprise generating a first signal via a direct digital frequency synthesizer (DDFS), frequency translating a received RF signal using the first signal, and transmitting the frequency translated RF signal. The DDFS may generate the first signal using, for example, a local oscillator signal as a reference clock. A processor, which may comprise a CPU and/or hardware circuitry, may communicate one or more frequency control words to the DDFS to control generation of the first signal. Various embodiments of the invention may comprise mixing the first signal and the received RF signal via one or more mixers to generate the frequency translated RF signal. | 04-02-2009 |
20090086844 | Method And System For A Programmable Local Oscillator Generator Utilizing A DDFS For Extremely High Frequencies - Methods and systems for a programmable LO generator utilizing a DDFS for extremely high frequencies are disclosed. Aspects of one method may include generating a first signal and a second signal using a base signal. The DDFS may generate the first signal, where the base signal may be divided down to provide a reference clock for the DDFS. The base signal may be divided to a lower frequency to generate the second signal. The first and second signals may be mixed to generate a third signal, which may be, for example, bandpass filtered to generate a local oscillator signal. Accordingly, the local oscillator signal, which may comprise I and Q components, may range to EHS band frequencies. | 04-02-2009 |
20090086850 | METHOD AND SYSTEM FOR A RECEIVER WITH UNDERSAMPLING MIXING USING MULTIPLE CLOCK PHASES - Methods and systems for a receiver with undersampling mixing using multiple clock phases are disclosed and may include undersampling a received wireless signal utilizing multiple undersamplers and clocking each of the undersamplers with a separate clock signal. Each of the clock signals may be at a sampling frequency but with a different phase angle. The difference of the phase angle between each of the clock signals may be adjusted and may be determined by the number of undersamplers. A gain ratio may be configured for two signals summed to generate each of the clock signals for the phase angle adjusting. The two signals may include in-phase and quadrature signals. Each of the summed signals may be normalized utilizing limiters. The sampling frequency may be an integer sub-harmonic of the received signal. The undersamplers may include track and hold or sample and hold circuits. | 04-02-2009 |
20090086851 | Method And System For Quadrature Local Oscillator Generator Utilizing A DDFS For Extremely High Frequencies - Methods and systems for a quadrature local oscillator generator utilizing a DDFS for extremely high frequencies. Aspects of one method may include utilizing the DDFS to generate a first signal that may comprise an in-phase (I) component and a quadrature phase (Q) component. A base signal may be divided to generate a second signal with an in-phase (I) component and a quadrature phase (Q) component. The I and Q components of the first and second signals may be mixed by a plurality of mixers, and the outputs of the mixers may be combined to generate an in-phase component of a local oscillator signal and a quadrature phase component of the local oscillator signal. The frequency of the local oscillator signal may be controlled by inverting or not inverting outputs of one or more of the mixers. | 04-02-2009 |
20090088072 | METHOD AND SYSTEM FOR COMMUNICATING UP TO EXTREME HIGH FREQUENCIES USING A MESH NETWORK OF REPEATERS - A plurality of repeater devices, each of which may enable forwarding extreme high frequency (EHF) communication between EHF-enabled wireless devices, may form a repeater mesh network. One or more routes may be formed within the repeater mesh network to enable forwarding EHF RF signals via the repeater mesh network. Different technique may be utilized, while forming routes within the repeater mesh network, to reduce and/or prevent interference that might be caused by EHF RF signals received and/or transmitted by repeater devices in the routes to other repeater devices in the repeater mesh network. These techniques may comprise frequency shifting, spatial isolation, and/or polarization isolation. Multiple routes may be utilized simultaneously to forward EHF RF communication. The simultaneous use of multiple routes may enable increasing the bandwidth and/or improving reliability of forwarding EHF RF communication within the repeater mesh network. | 04-02-2009 |
20090088073 | METHOD AND SYSTEM FOR UTILIZING EHF REPEATERS AND/OR TRANSCEIVERS FOR DETECTING AND/OR TRACKING AN ENTITY - A plurality of repeater devices may utilize extreme high frequency (EHF) interface to detect and/or track entities that may be located within the plurality of repeater devices. Each of the plurality of repeater devices may transmit EHF signals that may enable identification of the transmitting repeater device. Identification of the transmitting repeater devise may comprise use of unique information and/or transmission parameters. Each of the plurality of repeater devices may determine characteristics of received EHF signals to enable determining presence and/or location of entities within the plurality of repeater devices. These characteristics may comprise identity of transmitting repeater devices, signal power, signal amplitude, delay of signal, and/or reception angle. Non-extremely high frequency (non-EHF) connections may be utilized within the plurality of repeater devices to coordinate and/or update detection and/or tracking of entities within the plurality of repeater devices. | 04-02-2009 |
20090088079 | METHOD AND SYSTEM FOR UTILIZING UNDERSAMPLING TO REMOVE IN-BAND BLOCKER SIGNALS - Methods and systems for wireless communication are disclosed and may include band-limiting a wireless signal utilizing a programmable bandpass filter, generating a first signal by undersampling utilizing a clock signal and generating a second signal by undersampling the signal utilizing a delayed version of the clock signal, which may then be subtracted from the first signal. The filter may comprise a microstrip or a coplanar waveguide bandpass filter. The delay may be variable, and may be defined as an inverse of a frequency difference between the desired channel and a blocker signal. The bandwidth of the filter may be centered at the desired channel. The clock signal may be generated at a frequency which may be an integer sub-harmonic of the desired channel, and may be greater than twice a bandwidth of the filter. The delay may be controlled by a programmable delay circuit, which may comprise CMOS inverters. | 04-02-2009 |
20090088105 | METHOD AND SYSTEM FOR UTILIZING A PROGRAMMABLE COPLANAR WAVEGUIDE OR MICROSTRIP BANDPASS FILTER FOR UNDERSAMPLING IN A RECEIVER - Methods and systems for a programmable coplanar or microstrip bandpass filter for undersampling in a receiver are disclosed and may include band-limiting a received wireless signal utilizing one or both of a programmable microstrip bandpass filter and a coplanar waveguide bandpass filter and undersampling the band-limited received wireless signal. A center frequency of the programmable microstrip bandpass filter may be tuned by adjusting a capacitance or an inductance of the programmable microstrip bandpass filter. The bandwidth of the programmable microstrip bandpass filter may be also be adjusted. A center frequency of the programmable coplanar waveguide bandpass filter may be tuned by adjusting a capacitance or an inductance of the programmable coplanar waveguide bandpass filter. The bandwidth of the programmable coplanar waveguide bandpass filter may also be adjusted. The band-limited, received wireless signal may be undersampled utilizing a sample and hold circuit. | 04-02-2009 |
20090088107 | METHOD AND SYSTEM FOR UTILIZING UNDERSAMPLING AND/OR A DIGITAL DELAY LINE TO REMOVE OUT-OF-BAND BLOCKER SIGNALS - Methods and systems for wireless communication are disclosed and may include generating first and second signals by band-limiting a received wireless signal in two frequency ranges utilizing programmable bandpass filters. The first and second signals may be undersampled utilizing a clock signal. A delay of the second signal may be coarse-tuned by delaying the undersampling clock signal and may be fine-tuned by delaying the undersampled second signal utilizing a programmable delay line. The delayed, undersampled second signal may be subtracted from the undersampled first signal. A center frequency of the first range may be configured to a desired signal frequency, and a center frequency of the second range may be configured to a blocker signal frequency. The delay line may include an array of CMOS inverters, and may be fine-tuned utilizing programmable capacitors. The bandpass filters may include one or more coplanar waveguide or microstrip bandpass filters. | 04-02-2009 |
20090088119 | METHOD AND SYSTEM FOR USING A MICROSTRIP TO SWITCH CIRCUITS IN CMOS APPLICATIONS - Aspects of a method and system for using a microstrip to switch circuits in CMOS applications may include generating a second signal from a first signal by frequency-translating the first signal by switching a first current associated with the first signal between a first signal path and a second signal path. The switched first current may be filtered via a microstrip filter that may be tuned to a desired frequency component of the frequency-translated first signal, and the second signal may be generated from the difference between the voltage of the first signal path and the second signal path. | 04-02-2009 |
20090098824 | METHOD AND SYSTEM FOR UTILIZING OUT OF BAND SIGNALING FOR CALIBRATION AND CONFIGURATION OF A MESH NETWORK OF EHF TRANSCEIVERS/REPEATERS - A plurality of repeater devices, each of which may enable forwarding extreme high frequency (EHF) communication between EHF-enabled wireless devices, may form a repeater mesh network. Some or all of the plurality of repeater devices may utilize non-extremely high frequency (non-EHF) control connection in communicating with other repeater devices in the repeater mesh network. The non-EHF control connections may be utilized in establishing, configuring, and/or managing the repeater mesh network. The non-EHF control connections may be also be utilized to enable sending, requesting, and/or receiving periodic and/or dynamic control information. The non-EHF control connections may also be utilized while forming, and/or managing forwarding routes of EHF communication via the repeater mesh network, to enable negotiating and/or setting different isolation techniques among the repeater devices, such as polarization isolation, spatial isolation, and/or use of different frequencies. | 04-16-2009 |
20090130991 | METHOD AND SYSTEM FOR LNA ADJUSTMENT TO COMPENSATE FOR DYNAMIC IMPEDANCE MATCHING - Aspects of a method and system for LNA adjustment to compensate for dynamic impedance matching are provided. In this regard, an antenna matching network may be configured to maximize received signal strength for a determined frequency and an amplifier gain may be adjusted based on the maximized signal strength such that output levels of the amplifier are between specified limits. The antenna matching network may be programmatically controlled via one or more switching elements. The amplifier gain may be programmatically controlled via one or more bias points. The antenna matching network may be configured for a plurality of frequencies in a frequency band, such as an FM broadcast band, and a configuration for each frequency may be stored. Accordingly, when the receiver is tuned to a frequency, a corresponding configuration may be retrieved from memory. | 05-21-2009 |
20090137213 | ADAPTIVE RADIO TRANSCEIVER WITH OFFSET PLL WITH SUBSAMPLING MIXERS - An exemplary embodiment of the present invention described and shown in the specification and drawings is a transceiver with a receiver, a transmitter, a local oscillator (LO) generator, a controller, and a self-testing unit. All of these components can be packaged for integration into a single IC including components such as filters and inductors. The controller for adaptive programming and calibration of the receiver, transmitter and LO generator. The self-testing unit generates is used to determine the gain, frequency characteristics, selectivity, noise floor, and distortion behavior of the receiver, transmitter and LO generator. It is emphasized that this abstract is provided to comply with the rules requiring an abstract which will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or the meaning of the claims. | 05-28-2009 |
20090152739 | METHOD AND SYSTEM FOR FILTERS EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for filters embedded in an integrated circuit package are disclosed and may include controlling filtering of signals within an integrated circuit via one or more filter components embedded within a multi-layer package bonded to the integrated circuit. The one or more filter components may be electrically coupled to one or more switchable capacitors within the integrated circuit. The filter components may include transmission line devices, microstrip filters, transformers, surface mount devices, inductors, and/or coplanar waveguide filters. The filter components may be fabricated utilizing metal conductive layers and/or ferromagnetic layers deposited on and/or embedded within the multi-layer package. The integrated circuit may be electrically coupled to the multi-layer package utilizing a flip-chip bonding technique. | 06-18-2009 |
20090153250 | METHOD AND SYSTEM FOR SCALING SUPPLY, DEVICE SIZE, AND LOAD OF A POWER AMPLIFIER - Aspects of a method and system for scaling supply, device size, and load of a power amplifier (PA) are provided. In this regard parameters of a PA, and a voltage, a current, and/or a load of the PA may be configured based on a determined amplitude of a baseband signal and based on a transmit power of the PA. In this regard, the PA may be configured by configuring device size of and/or selecting one or more transistors within the PA. The load may be a transformer and may be configured by adjusting a windings ratio. The PA may comprise one or more differential pairs. In this regard, device size of the differential pair(s) may be configured based on the determined amplitude of the baseband signal and based on a transmit power of the PA. | 06-18-2009 |
20090153260 | METHOD AND SYSTEM FOR A CONFIGURABLE TRANSFORMER INTEGRATED ON CHIP - Aspects of a method and system for a configurable transformer integrated on-chip are provided. In this regard, an integrated circuit may comprise a transformer with a configurable windings ratio, and the windings ratio may be configured to enable transmitting and/or receiving signals via an antenna communicatively coupled to said transformer. The windings ratio may be configured based on an impedance of the antenna, a transmitter communicatively coupled to the transformer, a receiver communicatively coupled to the transformer, and/or a power level or transmitted and/or received signals. The windings ratio may be configured via one or more switching elements which may be active devices integrated on-chip. The transformer may comprise a plurality of loops fabricated on a corresponding plurality of metal layers in said integrated circuit and the loops may be coupled with one or more vias. The IC may also comprise ferrimanetic and/or ferromagnetic materials. | 06-18-2009 |
20090153261 | METHOD AND SYSTEM FOR MATCHING NETWORKS EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for matching networks embedded in an integrated circuit package are disclosed and may include controlling impedance within an integrated circuit via one or more impedance matching networks. The impedance matching networks may be embedded within a multi-layer package bonded to the integrated circuit. The impedance of one or more devices within the integrated circuit may be configured utilizing the impedance matching networks. The multi-layer package may include one or more impedance matching networks. The impedance matching networks may provide impedance matching between devices internal to the integrated circuit and external devices. The impedance matching networks may be embedded within the multi-layer package, and may include transmission lines, inductors, capacitors, transformers and/or surface mount devices. The impedance matching networks may be deposited on top of and/or on bottom of the multi-layer package. The integrated circuit may be flip-chip bonded to the multi-layer package. | 06-18-2009 |
20090153265 | METHOD AND SYSTEM FOR CONTROLLING MEMS SWITCHES IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for controlling MEMS switches in an integrated circuit package are disclosed and may include controlling one or more arrays of MEMS switches utilizing a control chip. The arrays of MEMS switches and one or more circuit components may be integrated in and/or on a multi-layer package. The control chip may be bonded to the multi-layer package. The circuit components may be coupled to the arrays of MEMS switches via electrical traces embedded in and/or deposited on the multi-layer package. The control chip may be flip-chip bonded to the multi-layer package. The MEMS switches may be actuated electrostatically or magnetically. The circuit components may include integrated circuits, inductors, capacitors, surface mount devices, and/or transformers. | 06-18-2009 |
20090153281 | METHOD AND SYSTEM FOR AN INTEGRATED CIRCUIT PACKAGE WITH FERRI/FERROMAGNETIC LAYERS - Methods and systems for an integrated circuit package with ferri/ferromagnetic layers are disclosed and may include processing a received signal via a hybrid including an integrated circuit bonded to a multi-layer package including integrated layers of ferrimagnetic material and/or ferromagnetic material, metal interconnect materials and insulating materials. The received signal may be filtered, amplified, and/or impedance matched via the integrated layers of ferrimagnetic material and/or ferromagnetic material. The integrated circuit may be hybridized to the multi-layer package utilizing a flip-chip bonding technique. The hybridized multi-layer package and integrated circuit may be coupled to a printed circuit board utilizing a flip-chip bonding technique. The ferromagnetic material and/or ferrimagnetic material may be deposited on the multi-layer package. The magnetic material may be deposited on the multi-layer package using an ink printing technique and/or a spin-on technique. One or more surface mount devices may be coupled to the multi-layer package. | 06-18-2009 |
20090153384 | METHOD AND SYSTEM FOR VARIABLE RESOLUTION DATA CONVERSION IN A RECEIVER - Aspects of a method and system for variable resolution data conversion in a receiver are provided. In this regard, an analog received signal may be converted to a corresponding digital signal, wherein a resolution of the corresponding digital signal may be varied (e.g., by configuring one or more switching elements) for the conversion based on one or more determined characteristics of said received signal. The resolution of the conversion may be determined based on characteristics of in-band and/or out-of-band signals. The resolution may be increased when received signal strength is below a threshold and may be decreased when received signal strength is above a threshold. Similarly, the resolution may be increased when interference is above a threshold and may be decreased when interference is below a threshold. The resolution may be increased when error rates are above a threshold and decreased when error rates are below a threshold. | 06-18-2009 |
20090153421 | METHOD AND SYSTEM FOR AN INTEGRATED ANTENNA AND ANTENNA MANAGEMENT - Aspects of a method and system for an integrated antenna and antenna management are provided. In this regard, one or more reactances coupled to an antenna in a hybrid circuit may be tuned and signals may be transmitted and/or received based on the tuning. The hybrid circuit may comprise an integrated circuit (IC) bonded to a multi-layer package. The antenna may be embedded within and/or on the multi-layer package. The reactances may be within and/or on the IC and/or the multi-layer package. In this regard, the IC may be bonded to or mounted to an underside of the multi-layer package. The reactances may be tuned via one or more switching elements and/or logic, circuitry, and/or code within the IC. The reactances may comprise one or more inductors and/or capacitor arrays. The multi-layer package may comprise one or more layers of ferromagnetic and/or ferrimagnetic material. | 06-18-2009 |
20090153427 | METHOD AND SYSTEM FOR CONFIGURABLE ANTENNA IN AN INTEGRATED CIRCUIT PACKAGE - Aspects of a method and system for a configurable antenna in an integrated circuit package are provided. In a hybrid circuit comprising an integrated circuit bonded to a multi-layer package, one or more antenna parameters may be adjusted by configuring a plurality of antenna elements via one or more switching elements. In this regard, the antenna elements and/or the switching elements may be within and/or on the multi-layer package and/or within the integrated circuit. The switching elements may be MEMS switches on and/or within the IC and/or the multi-layer package. The IC may be bonded or mounted to the underside of the package and signals may be communicated between the IC and the package via one or more solder balls. The IC may comprise suitable logic, circuitry, and/or code for configuring the antenna elements. The antenna elements may be configured based on desired polarization, antenna gain, and/or frequency. | 06-18-2009 |
20090153428 | METHOD AND SYSTEM FOR A PHASED ARRAY ANTENNA EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Aspects of a method and system for configurable antenna in an integrated circuit package are provided. In this regard, a phased array antenna embedded in a multi-layer integrated circuit (IC) package may be utilized for transmitting and/or receiving signals. An IC enabled to transmit and/or receive signals may be bonded to the multi-layer IC package and may communicate a reference signal and/or one or more phase shifted versions of said reference signal to the antenna. One or more phase shifters (fabricated, for example, in planar transmission line) may be embedded in the multi-layer IC package and may be controlled via an IC bonded to the multi-layer IC package. The phased array antenna may comprise a plurality of antenna elements which may each comprise an interconnection for communicatively coupling to an associated transmitter and/or receiver, a feeder line, a quarter wavelength transformer, and a radiating portion (e.g., a folded dipole). | 06-18-2009 |
20090154575 | METHOD AND SYSTEM FOR ADC CALIBRATION IN OFDM SYSTEMS - Aspects of a method and system for ADC calibration in OFDM systems may include receiving a plurality of Orthogonal Frequency Division Multiplexing (OFDM) tones at an OFDM receiver comprising a ping-pong Analog-to-Digital Converter (ADC) and a Fast-Fourier Transform (FFT). A transfer function of the ping-pong ADC may be calibrated via one or more adjustment coefficients at one or more corresponding outputs of the FFT, based on processing of the plurality of the OFDM tones. The plurality of OFDM tones may be received in an OFDM preamble, or the received plurality of OFDM tones may be generated in a calibration signal generator. The output levels of the outputs of the FFT may be equalized to achieve the calibration of the transfer function. The adjustment coefficients may be varied, and said calibrating may be performed dynamically. | 06-18-2009 |
20090154612 | METHOD AND SYSTEM FOR DYNAMIC FILTERING AND DATA CONVERSION RESOLUTION ADJUSTMENTS IN A RECEIVER - Aspects of a method and system for dynamic filtering and data conversion adjustments in a receiver are provided. Exemplary aspects of the invention may include a receiver comprising a data converter and one or more filters, and a resolution of the data converter and/or a frequency response of the filters may be varied/configured (e.g., via one or more switching elements) based on one or more characteristics of a received signal. The received signals may be amplified and/or filtered prior to determining the characteristics. The resolution of the data converter and/or a quality factor of one or more of the filters may be reduced when measured interference is below a threshold and increased when measured interference is above a threshold. The resolution of the data converter and/or the frequency response of the filter may be determined based on an error rate associated with the received signals. | 06-18-2009 |
20090156120 | METHOD AND SYSTEM FOR PORTABLE DATA STORAGE WITH INTEGRATED 60 GHZ RADIO - Aspects of a method and system for portable data storage with an integrated 60 GHz radio may include establishing a microwave communication link between a wireless portable storage device and a wireless transmitter and/or wireless receiver. Beamforming parameters of a first antenna array coupled to said wireless portable storage device and a second antenna array coupled to said wireless transmitter and/or wireless receiver may be adjusted automatically and/or dynamically. The wireless portable storage and the wireless transmitter and/or wireless receiver may exchange data via said first antenna array and said second antenna array. A secondary wireless communication link may be established to initialize the establishing of the microwave communication link. The secondary wireless communication link may be established via Bluetooth protocol. The wireless portable storage and the wireless transmitter and/or wireless receiver may receive and transmit in the 60 GHz frequency band. | 06-18-2009 |
20090156133 | Method and System for Dynamically Adjusting Intermediate Frequency (IF) and Filtering for Microwave Circuits - Certain aspects of a method and system for dynamically adjusting intermediate frequency (IF) and filtering in microwave circuits may include generating one or more intermediate frequency (IF) signals from one or more baseband signals and/or one or more radio frequency (RF) signals. The generated one or more IF signals may be filtered to avoid detected interference and/or detected noise from out-of-band radio sources. The frequency of the generated one or more IF signals may vary depending on the detected interference and/or detected noise. The filtering of the generated one or more IF signals may be adjusted based on the variation in the frequency of the generated one or more IF signals. The one or more RF signals may be down-converted to generate the one or more IF signals. The generated IF signals may be further down-converted and dynamically filtered to generate the desired baseband signals. | 06-18-2009 |
20090156137 | METHOD AND SYSTEM FOR INCREASED RESOLUTION SWITCHING USING MEMS AND SWITCHED CAPACITORS - Certain aspects of a method and system for increased resolution switching using MEMS and switched capacitors may include a mobile terminal that includes an integrated circuit bonded to a multi-layer package. A capacitance of a first switched capacitor array in the multi-layer package may be tuned via one or more MEMS switches integrated in and/or on the multi-layer package. A capacitance of a second switched capacitor array in the integrated circuit may be tuned via one or more NMOS switches. A plurality of signals may be transmitted and/or received via one or more antennas in the mobile terminal. | 06-18-2009 |
20090156147 | METHOD AND SYSTEM FOR ON-DEMAND RECEIVER SUPPLY VOLTAGE AND CURRENT - Aspects of a method and system for on-demand receiver supply voltage and current are provided. In this regard, strength of a signal received by one or more antennas may be measured and a voltage and/or current supplied to one or more of a LNA, a filter, a mixer and/or a data converter within said receiver may be varied based on the measured signal strength. The voltage and/or current may be varied based on signal strength of in-band and/or out-of-band signals. In this regard, the voltage and/or current may be increased when measured signal strength is above a threshold and decreased when the signal strength is below a threshold. The voltage and/or current may be controlled via a bias voltage determined based on the measurement. Similarly, the voltage and/or current may be controlled via a periodic signal with frequency and/or duty cycle determined based on the measurement. | 06-18-2009 |
20090156157 | METHOD AND SYSTEM FOR A TRANSFORMER IN AN INTEGRATED CIRCUIT PACKAGE - Aspects of a method and system for a transformer in an integrated circuit package are provided. In this regard, signals may be transmitted and/or received via an antenna communicatively coupled to a transformer embedded in multi-layer integrated circuit package. The windings ratio of the transformer may be configured based on an impedance of the antenna, an impedance of a transmitter coupled to the transformer, an impedance of an LNA coupled to the transformer, and/or a power level of the received and/or transmitted signals. The windings ratio may be configured via one or more switching elements which may be MEMS switches embedded in the multi-layer IC package. The transformer may comprise a plurality of loops fabricated on a corresponding plurality of metal layers in the multi-layer IC package, and the loops may be communicatively coupled with one or more vias. The multi-layer IC package may comprise ferromagnetic and/or ferromagnetic materials. | 06-18-2009 |
20090156276 | METHOD AND SYSTEM FOR SHARING ANTENNAS FOR HIGH FREQUENCY AND LOW FREQUENCY APPLICATIONS - Aspects of a method and system for sharing antennas for high frequency and low frequency applications may include configuring a multi-frequency antenna system by coupling a plurality of antennas together communicatively via one or more frequency-dependent coupling elements. Radio signals may be received and/or transmitted on one or more radio frequencies via said configured multi-frequency antenna system. The one or more frequency-dependent coupling elements may be frequency-tunable, and may comprise microstrips, transmission lines, and/or RLC circuits. The multi-frequency antenna system may be configured for concurrent operation or time-division duplex operation during the transmitting and/or the receiving. The one or more radio frequencies may operate concurrently or in time-division duplex. The radio signals for transmission may be generated in one or more radio frequency front-ends, and the received radio signals may be demodulated in one or more radio frequency front-ends. | 06-18-2009 |
20090157927 | METHOD AND SYSTEM FOR CHIP-TO-CHIP COMMUNICATIONS WITH WIRELINE CONTROL - Aspects of a method and system for chip-to-chip communications with wireline control may include initializing a microwave communication link between a first chip and a second chip via a wireline communication bus, wherein the initializing comprises adjusting beamforming parameters of a first antenna array communicatively coupled to the first chip, and of a second antenna array communicatively coupled to the second chip. The first chip and the second chip may communicate data via said microwave communication link. The microwave communication link may be routed via one or more relay chips, when the first chip and the second chip cannot directly communicate satisfactorily. Control data may be transferred between the first chip, the second chip, and/or the one or more relay chips, which may comprise one or more antennas. The relay chips may be dedicated relay ICs or multi-purpose transmitter/receivers. | 06-18-2009 |
20090206944 | METHOD AND SYSTEM FOR FREQUENCY SELECTION USING MICROSTRIP TRANSCEIVERS FOR HIGH-SPEED APPLICATIONS - Aspects of a method and system for frequency selection using microstrip transceivers for high-speed applications may include determining an operating frequency for operating one or both of a transmitter and a receiver. A frequency response and/or impedance of one or more transmission lines that may be utilized by the transmitter and/or the receiver may be controlled by adjusting one or more capacitances, communicatively coupled to the transmission lines based on the determined operating frequency. The capacitances may be coupled to the one or more transmission line at arbitrary physical spots, and may comprise capacitors and/or varactors. The capacitors and/or the varactors may be adjusted with a digital signal or an analog signal. The capacitances may comprise a matrix arrangement of capacitors and/or varactors. The one or more transmission lines may comprise a microstrip. | 08-20-2009 |
20090209208 | METHOD AND SYSTEM FOR SHARING MODULATION INFORMATION BETWEEN MULTIPLE ACCESS POINTS - Aspects of a method and system for sharing modulation information between multiple access points may include receiving modulation control information and demodulation control information at an access point comprising one or more receivers and one or more transmitters. One or more modulation frequencies may be adjusted and utilized to generate transmit signals by the one or more transmitters based on the received modulation control information. One or more demodulation frequencies may be adjusted and utilized to generate intermediate frequency signals by the one or more receivers based on the received demodulation control information. The modulation control information and the demodulation control information may be received via a control point. The modulation control information and demodulation control information may be received on a link operating in a frequency band different from said transmit frequencies and said receive frequencies. | 08-20-2009 |
20090212879 | METHOD AND SYSTEM FOR A BALUN EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for a balun embedded in an integrated circuit package are disclosed and may include a multi-layer package bonded to an integrated circuit. The multi-layer package may include an integrated balun which may be enabled to process RF signals received from and/or communicated to an antenna. The integrated circuit may be flip-chip bonded to the multi-layer package. The balun may include ferromagnetic layers integrated in the multi-layer package, and may be bypassed via bypass switches integrated in the multi-layer package. The switches integrated in the multi-layer package may include MEMS switches. The balun may be bypassed via bypass switches in the integrated circuit. The switches in the integrated circuit may include CMOS switches. The balun may be impedance matched to the integrated circuit via surface mount devices, which may be coupled to the multi-layer package. | 08-27-2009 |
20090212887 | METHOD AND SYSTEM FOR PROCESSING SIGNALS VIA DIRECTIONAL COUPLERS EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for processing signals via directional couplers embedded in an integrated circuit package are disclosed and may include generating via a directional coupler, one or more output RF signals that may be proportional to a received RF signal. The directional coupler may be integrated in a multi-layer package. The generated RF signal may be processed by an integrated circuit electrically coupled to the multi-layer package. The directional coupler may include quarter wavelength transmission lines, which may include microstrip or coplanar structures. The directional coupler may be electrically coupled to one or more variable capacitances in the integrated circuit. The variable capacitance may include CMOS devices in the integrated circuit. The directional coupler may include discrete devices, which may be surface mount devices coupled to the multi-layer package or may be devices integrated in the integrated circuit. The integrated circuit may be flip-chip bonded to the multi-layer package. | 08-27-2009 |
20090219098 | METHOD AND SYSTEM FOR POLAR MODULATION WITH DISCONTINUOUS PHASE FOR RF TRANSMITTERS WITH POWER CONTROL - Aspects of a method and system for polar modulation with discontinuous phase for RF Transmitters with power control may include performing by one or more circuits comprising a plurality of amplifiers, configuring one or more of the plurality of amplifiers to provide a coarse amplitude gain and a power level gain. One or more remaining ones of the plurality of amplifiers may be configured to provide an amplitude offset gain, and a signal may be amplified utilizing a combined gain provided by the one or more of the plurality of amplifiers and by the one or more remaining ones of the plurality of amplifiers. The signal may comprise modulated RF signal, and/or a phase modulated RF signal. An RF carrier signal may be modulated to generate the signal. | 09-03-2009 |
20090219908 | METHOD AND SYSTEM FOR PROCESSING SIGNALS VIA DIPLEXERS EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for processing signals via diplexers embedded in an integrated circuit package are disclosed and may include generating via a diplexer, one or more RF signals at different frequencies from one or more received RF signals. The diplexer may be integrated in a multi-layer package. The generated RF signals may be processed via an integrated circuit that may be electrically coupled to the multi-layer package. The diplexer may include hybrid couplers, which may include quarter wavelength transmission lines. The diplexer may be electrically coupled to one or more capacitors in the integrated circuit. The diplexer may be configured via switches in the integrated circuit and/or via MEMS switches in the multi-layer package. The diplexers may include lumped devices, which may include surface mount devices coupled to the multi-layer package or devices integrated in the integrated circuit. The integrated circuit may be flip-chip bonded to the multi-layer package. | 09-03-2009 |
20090221313 | METHOD AND SYSTEM FOR A MULTISTANDARD PROXY - Aspects of a method and system for a multistandard proxy may include establishing a microwave communication link between a wireless portable storage device and a wireless transmitter and/or wireless receiver via a secondary wireless link. Beamforming parameters of a first antenna array coupled to the wireless portable storage device and a second antenna array coupled to the wireless transmitter and/or wireless receiver may be adjusted based on data received via the secondary wireless link. The wireless portable storage and the wireless transmitter and/or wireless receiver may exchange data via the first antenna array and the second antenna array. A secondary wireless link may be established to transmit setup data for the microwave communication link. The secondary wireless link may be established via a Bluetooth and/or WAN protocol. | 09-03-2009 |
20090243740 | METHOD AND SYSTEM FOR REDUCED JITTER SIGNAL GENERATION - Aspects of a method and system for reduced jitter signal generation are provided. In this regard, an output frequency of an oscillator circuit may be controlled via a digital control word, wherein a least significant bit of the digital control word may control one or more variable capacitors and remaining bits of the digital control word may control one or more banks of fixed capacitors. The least significant bit may be filtered to generate a signal corresponding to an average voltage of the least significant bit. In this regard, the generated signal may be a voltage corresponding to the average voltage of the least significant bit and may control the variable capacitor. The digital control word may be representative of a phase difference between a reference signal and a feedback signal and may be generated via a digital multiplier. | 10-01-2009 |
20090243741 | METHOD AND SYSTEM FOR PROCESSING SIGNALS VIA AN OSCILLATOR LOAD EMBEDDED IN AN INTEGRATED CIRCUIT (IC) PACKAGE - Aspects of a method and system for processing signals via an oscillator load embedded in an IC package are provided. In this regard, a hybrid circuit may comprise an oscillator, and a frequency of the oscillator may be controlled via a digital control word. Furthermore, the hybrid circuit may comprise an integrated circuit bonded to a multi-layer package and at least a portion of the oscillator may be within and/or on the multi-layer package. The at least a portion of the oscillator may be fabricated in one or more metal layers of the multi-layer package. The at least a portion of the oscillator in the multi-layer package may be fabricated utilizing microstrip and/or stripline transmission line. A frequency of the oscillator may be controlled via one or more inductors and/or capacitors in the portion of the oscillator in the multi-layer package. | 10-01-2009 |
20090243742 | METHOD AND SYSTEM FOR FREQUENCY TUNING BASED ON CHARACTERIZATION OF AN OSCILLATOR - Aspects of a method and system for frequency tuning based on characterization of an oscillator are provided. In this regard, a frequency of an oscillator in an integrated circuit may be controlled based on a first digital control word, a frequency of a tuned circuit may be controlled based on a second digital control word, and the second control word may be determined utilizing a mapping between the first control word and the second control word. The frequency of the oscillator and the tuned circuit may be controlled by adjusting a capacitance of the oscillator and tuned circuit, respectively. The mapping may be based on a relationship between the oscillator and the tuned circuit, such as logical and/or mathematical relationship between the capacitance of the oscillator and the capacitance of the tuned circuit and/or the relationship between the frequency of the oscillator and the frequency of the tuned circuit. | 10-01-2009 |
20090243749 | METHOD AND SYSTEM FOR CONFIGURABLE DIFFERENTIAL OR SINGLE-ENDED SIGNALING IN AN INTEGRATED CIRCUIT - Aspects of a method and system for configurable differential or single-ended signaling in an integrated circuit. In this regard, a balun comprising one or more loops fabricated in a plurality of metal layers in an integrated circuit may enable conversion between unbalanced and balanced signals. In this regard, balanced signal output by a power amplifier may be converted to a balanced signal for transmission via an antenna. Similarly, an unbalanced signal received by an antenna may be converted to a balanced signal for amplification by an amplifier with a balanced input. The loops may be fabricated in transmission line media such as microstrip and/or stripline. The loops may comprise ferromagnetic material which may be deposited on and/or within the IC. Signals converted via the balun may be in the 61 GHz-61.5 GHz ISM band. | 10-01-2009 |
20090243753 | METHOD AND SYSTEM FOR PROCESSING SIGNALS VIA POWER SPLITTERS EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for processing signals via power splitters embedded in an integrated circuit package may include generating via a power splitter, one or more RF signals proportional to one or more received RF signals. The power splitter may be integrated in a multi-layer package. The generated RF signals may be processed via an integrated circuit, which may be electrically coupled to the multi-layer package. The power splitters may include quarter wavelength transmission lines. The transmission lines may include a microstrip structure or a coplanar structure. The power splitters may be bonded to one or more capacitors in the integrated circuit. The capacitors may include CMOS devices in the integrated circuit. The power splitters may include lumped devices which may include surface mount devices coupled to the multi-layer package or devices within the integrated circuit, which may be flip-chip bonded to the multi-layer package. | 10-01-2009 |
20090243767 | METHOD AND SYSTEM FOR CONFIGURING A TRANSFORMER EMBEDDED IN A MULTI-LAYER INTEGRATED CIRCUIT (IC) PACKAGE - Aspects of a method and system for configuring a transformer embedded in a multi-layer integrated circuit package are provided. In this regard, a windings ratio of a transformer embedded in a multi-layer IC package bonded to an IC may be configured, via logic, circuitry, and/or code in the IC, based on signal levels at one or more terminals of the transformer. The transformer may comprise a plurality of inductive loops fabricated in transmission line media. The integrated circuit may be flip-chip bonded to the multi-layer package. The IC may comprise a signal strength indicator enabled to measure signal levels input to or output by the transformer. The windings ratio may be configured via one or more switches in the IC and/or in the multi-layer package. The IC and/or the multi-layer package may comprise ferromagnetic material which may improve magnetic coupling of the transformer. | 10-01-2009 |
20090243779 | METHOD AND SYSTEM FOR RECONFIGURABLE DEVICES FOR MULTI-FREQUENCY COEXISTENCE - Aspects of a method and system for reconfigurable devices for multi-frequency coexistence are provided. In this regard, an IC may be configured based on a frequency of signals processed by the IC. In instances that the IC may process signals of a first frequency, the IC may be configured such that a loop communicatively coupled to the integrated circuit may function as an inductor. In instances that the IC may process signals of a second frequency, the IC may be configured such that the loop may function as an antenna for transmitting and/or receiving the signals. The loop may be within and/or on the IC and/or a package such as a multilayer package to which the IC may be bonded. The loop may be fabricated with stripline and/or microstrip transmission line. In instances that the loop may function as an inductor, the loop may be communicatively coupled as part of a VCO tank circuit. | 10-01-2009 |
20090245808 | METHOD AND SYSTEM FOR INTER-CHIP COMMUNICATION VIA INTEGRATED CIRCUIT PACKAGE WAVEGUIDES - Methods and systems for inter-chip communication via integrated circuit package waveguides are disclosed and may include communicating one or more signals between or among a plurality of integrated circuits via one or more waveguides integrated in a multi-layer package. The integrated circuits may be bonded to the multi-layer package. The waveguides may be configured via switches in the integrated circuits or by MEMS switches integrated in the multi-layer package. The signals may include a microwave signal and a low frequency control signal that may configure the microwave signal. The low frequency control signal may include a digital signal. The waveguides may comprise metal and/or semiconductor layers deposited on and/or embedded within the multi-layer package. | 10-01-2009 |
20090247075 | METHOD AND SYSTEM FOR A LOW-COMPLEXITY MULTI-BEAM REPEATER - Aspects of a method and system for a low-complexity multi-beam repeater may include receiving one or more information signals at one or more receiver antennas, and receiving one or more local oscillator control signals via an out-of-band link. The one or more received information signals may be demodulated to one or more intermediate-frequency signals via one or more frequency carrier signals, wherein the frequency carrier signals may be controlled by the one or more received local oscillator control signals. One or more intermediate-frequency signals and/or one or more signals generated from the one or more intermediate-frequency signals may be modulated to one or more radio-frequency signals via the one or more frequency carrier signals. One or more transmit signals comprising at least one of the one or more radio-frequency signals may be transmitted via one or more transmit antennas. | 10-01-2009 |
20090247109 | METHOD AND SYSTEM FOR COMMUNICATING VIA A FREQUENCY SHIFTING REPEATER - Aspects of a method and system for communicating via a frequency shifting repeater are provided. In this regard, a signal having a first frequency may be received, the received signal may be quadrature down-converted by mixing it with a pair of phase-quadrature local oscillator (LO) signals, the down-converted signals may be up-converted by mixing them with the LO signals, and the up-converted signals may be added or subtracted to generate a signal, having a second frequency, for transmission. In this manner, a wireless communication range may be extended by repeating the received signal on a different frequency than at which it was received. The frequency of the LO signals may be based on a desired difference between the first and second frequencies, a frequency at which a target device receives signals, and/or noise present. | 10-01-2009 |
20090247213 | METHOD AND SYSTEM FOR FREQUENCY-SHIFT BASED CHIP-TO-CHIP COMMUNICATIONS - Aspects of a method and system for frequency-shift based chip-to-chip communications may include receiving and/or generating modulation control information and demodulation control information within a chip comprising one or more receivers and one or more transmitters. One or more modulation frequencies may be adjusted and utilized to generate transmit signals by the one or more transmitters based on the received modulation control information, wherein the one or more modulation frequencies may be distinct. One or more demodulation frequencies may be adjusted and utilized to generate intermediate frequency signals by the one or more receivers based on the received demodulation control information wherein the one or more demodulation frequencies may be distinct. The modulation control information and the demodulation control information may be received via a communication device comprising said chip. | 10-01-2009 |
20090248929 | METHOD AND SYSTEM FOR INTER-PCB COMMUNICATIONS WITH WIRELINE CONTROL - Aspects of a method and system for inter-PCB communications with wireline control may include setting up a microwave communication link between a first PCB and a second PCB via a wireline communication bus. The initialization may comprise adjusting beamforming parameters of a first antenna array communicatively coupled to the first PCB, and of a second antenna array communicatively coupled to the second PCB. The first PCB and the second PCB may communicate data via the microwave communication link. The microwave communication link may be routed via one or more relay PCBs, when the first PCB and the second PCB cannot directly communicate satisfactorily. Control data may be transferred between the first PCB, the second PCB, and/or the one or more relay PCBs, which may comprise one or more antennas. The relay PCBs may be dedicated relay PCBs or multi-purpose transmitter/receivers. | 10-01-2009 |
20090264074 | Integrated Multimode Radio and Components Thereof - An integrated multimode radio includes a multimode receiver and a multimode transmitter. The multimode receiver includes a shared receiver front-end, a receiver multiplexor, and a plurality of receiver IF stages. The multimode transmitter includes a shared transmitter front-end, a transmitter multiplexor, and a plurality of transmitter IF stages. | 10-22-2009 |
20090270055 | METHOD AND SYSTEM FOR COMPENSATING FOR USING A TRANSMITTER TO CALIBRATE A RECEIVER FOR CHANNEL EQUALIZATION - Aspects of a method and system for compensating for using a transmitter to calibrate a receiver for channel equalization are provided. Various embodiments of the invention may be applicable wireless devices in TDM systems, Bluetooth, and/or WLAN applications, for example. Transmit tones may be generated by a transmitter PLL and the baseband response may be measured for each of the injected tones. The tones may be swept over a frequency range and a corresponding oscillator signal may be mixed with the received signal to determine the response of, for example, the receiver filters. Adjusting any of a plurality of receiver and/or transmitter parameters based on baseband measurements may provide appropriate channel compensation or calibration. Accordingly, the baseband circuitry may generate equalization signals, which may be utilized to adjust receiver and/or transmitter circuitry. This approach may be provide I/Q balancing and transmit filtering calibration after receiver calibration is completed. | 10-29-2009 |
20090278596 | Method And System For Communicating Via A Spatial Multilink Repeater - Aspects of a method and system for communicating via a spatial multilink repeater are provided. In this regard, a received signal may be frequency shifted to generate a plurality of repeated signals, wherein each repeated signal may be shifted by a different frequency with respect to the received signal. Each repeated signal may comprise one or more signal components and a phase and/or amplitude of each of the components may be controlled to control a directivity of the repeated signals. Each of the repeated signals may be generated by quadrature down-converting said received signal by mixing the received signal with a first LO signal pair, up-converting the down-converted signal by mixing it with a second LO signal pair, and adding or subtracting an in-phase portion and a quadrature-phase portion of the up-converted signal. | 11-12-2009 |
20090279593 | Method And System For Inter-PCB Communication Utilizing A Spatial Multi-Link Repeater - Aspects of a method and system for inter-PCB communication utilizing a spatial multi-link repeater are provided. In this regard, a signal may be transmitted between printed circuit boards via one or more repeaters, wherein the repeaters may frequency shift received signals to generate repeated signals. Each of the repeated signals may be generated by quadrature down-converting said received signal by mixing the received signal with a first LO signal pair, up-converting the down-converted signal by mixing it with a second LO signal pair, and adding or subtracting an in-phase portion and a quadrature-phase portion of the up-converted signal. Each repeated signal may comprise one or more signal components and a phase and/or amplitude of each of the components may be controlled to control a directivity of the repeated signals. The repeater may reside on one of the plurality of printed circuit boards. | 11-12-2009 |
20090280750 | Method And System For Power Management In A Beamforming System - Aspects of a method and system for on-demand signal notching in a receiver. In this regard, power consumption in a wireless device may be managed by configuring one or more transmitters and/or receivers in the wireless device based on a directivity of a received signal and/or signal strength of a received signal. At least a portion of the transmitters and/or receivers may be disabled and/or enabled based on strength of undesired in-band components of the received signal, undesired out-of-band components of the received signal, signal to noise ratio of a desired component of the received signal, a user selected power mode, and/or a direction from said wireless device to a communication partner. A splitter and/or combiner of the wireless device may be configured based on which portion of the transmitters and/or receivers are enabled. A scaling factor and/or a phase shift of the splitter and/or combiner may be configured. | 11-12-2009 |
20090280751 | Method And System For On-Demand Beamforming - Aspects of a method and system for on-demand beamforming are provided. In this regard, a directivity of a plurality of antennas coupled to a wireless device may be controlled in response to signal strength measurements of one or more signals received via the antennas. The directivity may be controlled by enabling and/or disabling at least a portion on one or more transmitters and/or receivers in said wireless device based on, for example, strength of undesired in-band signal components, strength of out-of-band components, a signal to noise ratio, and/or a direction from said wireless device to a communication partner. Additionally, a scaling factor and/or a phase shift of a splitter and/or combiner in said wireless device may be configured in response to the signal measurements. | 11-12-2009 |
20090280764 | Method And System For On-Demand Linearity In A Receiver - Aspects of a method and system for on-demand linearity in a receiver are provided. In this regard, in a receiver such as on-chip receiver, a strength of a signal received by one or more antennas may be measured and linearity of the receiver may be controlled in response to the measured signal strength. The linearity may be controlled based on signal strength of in-band and/or out-of-band signals and by configuring component(s) of the receiver. Exemplary components may comprise one or more filter, amplifier, mixer, analog-to-digital converter, feedback loop, and equalizer and/or post corrector. Linearity may be increased, by switching one or more feedback loops and/or an equalizers and/or post correctors into a signal path of the receiver. Power consumption may be decreased, at the expense of reduced linearity, by switching one or more feedback loops and/or an equalizers and/or post correctors out of a signal path of the receiver. | 11-12-2009 |
20090280765 | Method And System For On-Demand Filtering In A Receiver - Aspects of a method and system for on-demand filtering in a receiver. In this regard, one or more filters in a receiver may be configured based on measurement and/or characterization of a signal received by the receiver and based on power consumption of the filters. In this regard, the filters may be configured based on a strength of in-band and/or out-of-band signals, and signal to noise ratio of a signal, and/or a dynamic range of a signal. The filters may be configured by switching one or more stages and/or components into and/or out of a signal path. In this manner, a trade off may be made between filter response and power consumption by powering down portions of a filter not in use. Additionally, the filters may be configured by tuning one or more variable elements within the filters. | 11-12-2009 |
20090280766 | Method And System For On-Demand Signal Notching In A Receiver - Aspects of a method and system for on-demand signal notching in a receiver. In this regard, signal strength measurements of a received signal may enable detection of unwanted signal component(s) and one or more filters in an on-chip receiver may be configured in response to the measurements. The filter(s) may additionally be configured based on power consumption of the filter(s). Signal measurements and/or the corresponding configuration may be performed real-time. The filter(s) may be configured such that a notch in a frequency response of the filter(s) is centered at or near the unwanted component. In this manner, the unwanted component(s) may be filtered out. The filter(s) may be configured, for example, by switching one or more filter stages and/or components into and/or out of a signal path and/or by tuning one or more variable circuit elements within the filter(s). | 11-12-2009 |
20090280768 | Method And System For Inter IC Communications Utilizing A Spatial Multi-Link Repeater - Aspects of a method and system for inter integrated circuit (IC) communications utilizing a spatial multilink repeater are provided. In this regard, one or more circuits in an integrated circuit may be enabled to receive a signal and repeat the received signal to a plurality of target integrated circuits. The repeated signals may be generated by frequency shifting the received signal and a different frequency shift may be utilized for each of the repeated signals. In this regard, each of the repeated signals may be generated by quadrature down-converting the received signal by mixing it with a first local oscillator pair, up-converting the down-converted signal by mixing it with a second local oscillator pair, and adding or subtracting an in-phase portion of the up-converted signal with a quadrature-phase portion of the up-converted signal. | 11-12-2009 |
20090286487 | ADAPTIVE RADIO TRANSCEIVER - An exemplary embodiment of the present invention described and shown in the specification and drawings is a transceiver with a receiver, a transmitter, a local oscillator (LO) generator, a controller, and a self-testing unit. All of these components can be packaged for integration into a single IC including components such as filters and inductors. The controller for adaptive programming and calibration of the receiver, transmitter and LO generator. The self-testing unit generates is used to determine the gain, frequency characteristics, selectivity, noise floor, and distortion behavior of the receiver, transmitter and LO generator. It is emphasized that this abstract is provided to comply with the rules requiring an abstract which will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or the meaning of the claims. | 11-19-2009 |
20090289870 | Method and System for Using a Transformer for FM Transmit and FM Receive Functionality - Aspects of a method and system for using a transformer for FM transmit and FM receive functionality may include communicating data-bearing signals via primary windings of a transformer, wherein secondary windings of the transformer may be utilized for receiving and/or transmitting the communicated data-bearing signals, wherein the secondary windings may be utilized as a load for the transmitting. The secondary windings and/or a power amplifier may be biased for the transmitting by applying an electrical signal at a terminal of the secondary windings, wherein the electrical signal that may be applied at the center terminal may be a biasing voltage. The receiving and the transmitting may be operated in time division duplex mode, or simultaneously. DC signal components for the receiving may be blocked by using a plurality of capacitors. | 11-26-2009 |
20090315637 | METHOD AND SYSTEM FOR COMMUNICATING VIA FLIP-CHIP DIE AND PACKAGE WAVEGUIDES - Methods and systems for communicating via flip-chip die and package waveguides are disclosed and may include communicating one or more signals between sections of an integrated circuit via one or more waveguides integrated in a multi-layer package. The integrated circuit may be bonded to the multi-layer package. The waveguides may be configured via switches in the integrated circuit or by MEMS switches integrated in the multi-layer package. The signals may include a microwave signal and a low frequency control signal that may configure the microwave signal. The low frequency control signal may include a digital signal. The waveguides may comprise metal and/or semiconductor layers deposited on and/or embedded within the multi-layer package. | 12-24-2009 |
20090315650 | METHOD AND SYSTEM FOR AN INTEGRATED CIRCUIT WITH FERROMAGNETIC LAYERS - Methods and systems for an integrated circuit package with ferrimagnetic and/or ferromagnetic layers are disclosed and may include processing a received signal via a single chip comprising one or more integrated layers of ferrimagnetic and/or ferromagnetic material. The received signal may be amplified via the single chip and the one or more integrated layers of ferrimagnetic material and/or ferromagnetic material. Circuits within the single chip may be impedance matched via the one or more integrated layers of ferrimagnetic material and/or ferromagnetic material. The received signal may comprise a microwave signal. The ferromagnetic and/or ferrimagnetic material may be deposited on and/or within the single chip. The ferromagnetic and/or ferrimagnetic material may be deposited on the single chip via an ink printing, spin-on, electron beam deposition, and/or an evaporation technique. | 12-24-2009 |
20090315797 | METHOD AND SYSTEM FOR INTER-CHIP COMMUNICATION VIA INTEGRATED CIRCUIT PACKAGE ANTENNAS - Methods and systems for inter-chip communication via integrated circuit package antennas are disclosed and may include communicating one or more signals between or among a plurality of integrated circuits via one or more antennas integrated in a multi-layer package. The integrated circuits may be bonded to the multi-layer package. The antennas may be configured via switches in the integrated circuits or by MEMS switches integrated in the multi-layer package. The signals may include a microwave signal and a low frequency control signal that may configure the microwave signal. The low frequency control signal may include a digital signal. The antennas may comprise metal and/or ferromagnetic layers deposited on and/or embedded within the multi-layer package. | 12-24-2009 |
20090316829 | METHOD AND SYSTEM FOR TRANSMIT DIVERSITY FOR CHIP-TO-CHIP COMMUNICATIONS - Aspects of a method and system for transmit diversity for chip-to-chip communications may include transmitting a plurality of signals generated in accordance with a transmission diversity protocol via a plurality of transmit antennas integrated in/on a first chip. The plurality of signals may be received at a second chip, the second chip comprising one or more receive antennas. One or more received signals may be processed in accordance with the transmission diversity protocol. Modulation frequencies at the first chip and/or demodulation frequencies at the second chip may be received via a communication device comprising the first chip and/or the second chip. The modulation and the demodulation frequencies may be received on a link operating in a frequency band that is different from one or more receive frequencies used for the receiving of the plurality of signals, and the frequency band of the link may be an ISM band. | 12-24-2009 |
20090316846 | METHOD AND SYSTEM FOR 60 GHZ WIRELESS CLOCK DISTRIBUTION - Aspects of a method and system for 60 GHz wireless clock distribution may include configuring a microwave communication link established between a first chip and a second chip via a wireline communication bus. The configuration may comprise adjusting beamforming parameters of a first antenna array communicatively coupled to the first chip, and of a second antenna array communicatively coupled to the second chip. The first chip and the second chip may communicate a clock signal via said microwave communication link. The microwave communication link may be routed via one or more relay chips, when the first chip and the second chip cannot directly communicate. Control data may be transferred between the first chip, the second chip, and/or the one or more relay chips, which may comprise one or more antennas. The relay chips may be dedicated relay ICs or multi-purpose transmitter/receivers. | 12-24-2009 |
20090318086 | METHOD AND SYSTEM FOR FREQUENCY-SHIFT BASED PCB-TO-PCB COMMUNICATIONS - Aspects of a method and system for frequency-shift based PCB-to-PCB communications may include, in a PCB comprising one or more receivers and one or more transmitters, adjusting one or more modulation frequencies and utilizing the adjusted modulation frequencies to generate transmit signals by the one or more transmitters based on received and/or generated modulation control information. One or more demodulation frequencies may be adjusted and utilized to generate intermediate frequency signals by the one or more receivers based on received and/or generated demodulation control information. The modulation control information and the demodulation control information may be received via a communication device comprising the PCB. The modulation control information and demodulation control information may be received on a link operating in a frequency band different from the transmit frequencies and the receive frequencies. | 12-24-2009 |
20090318105 | METHOD AND SYSTEM FOR INTRA-PRINTED CIRCUIT BOARD COMMUNICATION VIA WAVEGUIDES - Methods and systems for intra-printed circuit board communication via waveguides are disclosed and may include communicating one or more signals between or among a plurality of integrated circuits via one or more waveguides integrated on a printed circuit board. The integrated circuits may be bonded to the printed circuit board. The waveguides may be configured via switches integrated within each of the plurality of integrated circuits. The one or more signals may include microwave signals. The one or more waveguides may be configured for communicating microwave signals with a frequency of 60 GHz or greater. The communication of the one or more signals may be configured via a low frequency control signal, which may include a digital signal. The one or more waveguides may include metal and/or semiconductor layers deposited on and/or embedded within the printed circuit board. | 12-24-2009 |
20090318106 | METHOD AND SYSTEM FOR INTRA-CHIP WAVEGUIDE COMMUNICATION - Methods and systems for intra-chip waveguide communication are disclosed and may include configuring one or more waveguides in an integrated circuit and communicating one or more signals between blocks within the integrated circuit via the one or more waveguides. The one or more waveguides may be configured via switches in the integrated circuit by adjusting a length of the one or more waveguides. The one or more signals may include a microwave signal and a low frequency control signal that configures the microwave signal. The low frequency control signal may include a digital signal. The one or more waveguides may include metal layers deposited on the integrated circuit or within the integrated circuit. The one or more waveguides may include semiconductor layers deposited on the integrated circuit or embedded within the integrated circuit. | 12-24-2009 |
20090322423 | METHOD AND SYSTEM FOR POLAR MODULATING QAM SIGNALS WITH DISCONTINUOUS PHASE - Aspects of a method and system for polar modulating QAM signals with discontinuous phase may include amplifying a signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain and an amplitude offset gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain. The setting of the coarse amplitude gain and/or said amplitude offset gain may be adjusted dynamically and/or adaptively. The signal may be generated by phase-modulation of a radio-frequency carrier. The combined gain of the plurality of amplifiers may be controlled based on a desired amplitude modulation. The plurality of amplifiers may be integrated within an integrated circuit (IC) or chip. | 12-31-2009 |
20100003935 | MOBILE COMMUNICATION DEVICE WITH LOW POWER RECEIVER FOR SIGNAL DETECTION - A mobile communication device with a low power receiver for signal detection and a method for utilizing a low power receiver for signal detection in a mobile communication device. Various aspects of the present invention comprise a first receiver module adapted to operate in a sleep mode. The first receiver module may also be adapted to receive a communication signal utilizing a first amount of power, where the communication signal is characterized by a first set of signal characteristics. A second receiver module may be adapted to receive a communication signal characterized by the first set of signal characteristics. The second receiver module may be adapted to receive a communication signal utilizing a second amount of power that is less than the first amount of power. A communication signal received by the second receiver module may be analyzed to determine a mode in which to operate the first receiver module. | 01-07-2010 |
20100003936 | MULTIMODE COMMUNICATION DEVICE WITH SHARED SIGNAL PATH PROGRAMMABLE FILTER - A multimode communication device with a shared signal path programmable filter and a method for utilizing a shared signal path programmable filter in a multimode communication device. Various aspects of the present invention comprise a first module adapted to receive a first communication signal (e.g., corresponding to a first communication protocol) and a second module adapted to receive a second communication signal (e.g., corresponding to a second communication protocol). A shared filter, communicatively coupled to the first and second modules, may be adapted to filter the first and/or second communication signals in accordance with a plurality of selectable sets of filter response characteristics (e.g., associated with the first and second communication protocols). A filter control module may be adapted to select a set of filter response characteristics from a plurality of such sets and program the shared filter to filter a communication signal in accordance with the selected set. | 01-07-2010 |
20100048154 | METHOD AND SYSTEM FOR BLOCKER ATTENUATION USING MULTIPLE RECEIVE ANTENNAS - Methods and systems for blocker attenuation using multiple receive antennas are disclosed. In this regard, a plurality of signals may be received via a corresponding plurality of antennas and a corresponding plurality of interference-suppressed signals may be generated. The interference-suppressed signals may be generated by adjusting a gain and phase of the plurality of received signals to generate a corresponding plurality of adjusted signals, and combining the corresponding plurality of adjusted signals, respectively, with the plurality of received. The gain of the received signals may be adjusted based on a wide bandwidth signal strength measurement and a narrow bandwidth signal strength measurement. A center frequency of one or more of the plurality of antennas may be adjusted based on received signals strength measurements. A gain and/or phase adjustment of each one of said received signals may be independent of gain and/or phase adjustments of other ones of the receive signals. | 02-25-2010 |
20100052794 | METHOD AND SYSTEM FOR IMPROVING EFFICIENCY OVER POWER CONTROL FOR LINEAR AND CLASS AB POWER AMPLIFIERS - Aspects of a system for improving efficiency over power control for linear and class AB power amplifiers may include a current source circuit that enables determination of a bias current level for a PA circuit within an IC die based on an amplitude of an input modulation signal. The PA circuit may enable generation of an output signal based on a differential input signal and the input modulation signal to the current source circuit. A generated bias voltage may be applied to a transformer external to the IC die, but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels may be applied to the PA circuit wherein the amplifier bias voltage levels may be derived from the generated bias voltage level and/or the determined bias current level. | 03-04-2010 |
20100073046 | METHOD AND SYSTEM FOR A FAST-SWITCHING PHASE-LOCKED LOOP USING A DIRECT DIGITAL FREQUENCY SYNTHESIZER - Aspects of a method and system for a fast-switching Phase-Locked Loop using a Direct Digital Frequency synthesizer may include generating a second signal from a first signal by: translating an inphase component of said first signal in frequency via a filtered fast-switching oscillating signal generated using at least a direct digital frequency synthesizer (DDFS), and translating a corresponding quadrature component of said first signal in frequency via a phase-shifted version of said generated filtered fast-switching oscillating signal. The inphase and quadrature components of the first signal may be multiplied with the filtered fast-switching oscillating signal and a phase-shifted version of the filtered fast-switching oscillating signal, respectively. The filtered fast-switching oscillating signal may be obtained by removing at least one frequency-sum term of the fast-switching oscillating signal, where the fast-switching signal oscillating signal may be generated from a signal generated by the DDFS that may be multiplied with an oscillating reference signal. | 03-25-2010 |
20100097144 | METHOD AND SYSTEM FOR POLAR MODULATING OFDM SIGNALS WITH DISCONTINUOUS PHASE - Aspects of a method and system for polar modulating OFDM signals with discontinuous phase may include amplifying a normalized OFDM signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain and an amplitude offset gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain adaptively and/or dynamically. The setting of the coarse amplitude gain and/or the amplitude offset gain may be adjusted dynamically and/or adaptively via an amplitude control. | 04-22-2010 |
20100150287 | METHOD AND SYSTEM FOR DYNAMICALLY TUNING AND CALIBRATING AN ANTENNA USING ANTENNA HOPPING - Methods and systems for dynamically tuning and calibrating an antenna using antenna hopping are disclosed. In this regard, in a wireless device comprising an antenna that is configurable into a plurality of configurations, determining a subset of the configurations, where each configuration of the subset enables received signal strength above a threshold for a wireless channel, may be determined. During a time interval in which the wireless device is receiving signals on the wireless channel, the antenna may be configured to sequentially utilize each configuration of the subset. During the time interval, a plurality of samples of the wireless channel may be generated, where each of the samples corresponds to a different one of the configurations of the subset. The plurality of samples may be aggregated. The aggregated samples may be processed to recover information communicated on the wireless channel. | 06-17-2010 |
20100159859 | METHOD AND SYSTEM FOR FREQUENCY CONTROL IN A FREQUENCY SHIFTING REPEATER - Aspects of a method and system for frequency control in a frequency shifting repeater are provided. In this regard, a reference frequency may be divided to generate a first pair of local oscillator (LO) signals, the first pair of LO signals may be divided to generate a second pair of LO signals. The two pairs of LO signals may be utilized to frequency shift a received signal for repeating the signal on a different frequency. The frequency shifted signal may be generated by down-converting the received signal utilizing the first pair of LO signals, up-converting the down-converted signal utilizing the second pair of LO signals, and combining the resulting up-converted signals. The reference frequency may be divided by a first scaling factor to generate the first pair of LO signal which, in turn, may be divided by a second scaling factor to generate the second pair of LO signals. | 06-24-2010 |
20100177846 | RFIC with on-chip acoustic transducer circuit - An RFIC includes a transmit acoustic transducer, a digital conversion module, a transmit baseband module, an analog conversion module, an up-conversion module, a power amplifier circuit, a low noise amplifier circuit, a down-conversion module, a receive baseband processing module, and a receive acoustic transducer circuit. The transmit acoustic transducer circuit converts transmit sound waves into transmit electrical signals. The digital conversion module converts the transmit electrical signals into digital transmit audio signals and converts down-converted signals into digital receive baseband or low IF signals. The transmit baseband processing module converts the digital transmit audio signals into digital transmit baseband or low IF signals. The analog conversion module converts the digital transmit baseband or low IF signals into analog transmit baseband or low IF signals and converts digital receive audio signals into receive electrical signals. The up-conversion module converts the analog transmit baseband or low IF signals into up-converted signals. The power amplifier circuit amplifies the up-converted signals. The low noise amplifier circuit amplifies receive RF signals. The down-conversion module converts the amplified receive RF signals into the down-converted signals. The receive baseband processing module converts the digital receive baseband or low IF signals into the digital receive audio signals. The receive acoustic transducer circuit converts the receive electrical signals into receive sound waves. | 07-15-2010 |
20100184390 | METHOD AND SYSTEM FOR EXTENDING DYNAMIC RANGE OF AN RF SIGNAL - Aspects of a method and system for extending dynamic range of an RF signal are provided. In this regard, an amplitude signal that is representative of an amplitude of a pair of baseband signals may be generated, an amplitude of the generated amplitude signal may be modified according to a function; and an amplitude of the baseband signals may be modified according to an inverse of the function. The modifications may adjust the peak-amplitude-to-average-amplitude ratio of one or more signals. An intermediate signal may be generated from the modified baseband signals and the amplitude of the intermediate signal may be amplitude modulated by the intermediate signal. The intermediate signal may be amplitude modulated by controlling a gain of a power amplifier. The intermediate signal may be amplitude modulated by controlling a current source and/or voltage source supplying power to a power amplifier. | 07-22-2010 |
20100202326 | METHOD AND SYSTEM FOR A MULTI-PORT DISTRIBUTED ANTENNA - Methods and systems for a multi-port distributed antenna are disclosed and may include configuring one or more amplifiers to communicate signals via one or more ports on a distributed antenna. A characteristic impedance of the distributed antenna at each of the one or more ports may be configured by a location of the one or more ports on the distributed antenna. The amplifiers may be impedance matched to the distributed antenna by coupling each of the amplifiers to the ports based on the characteristic impedance. The amplifiers may include power amplifiers and/or low noise amplifiers. The signals may be time division duplexed. The signals communicated via the ports on the distributed antenna may include RF signals. The distributed antenna may be integrated on a chip with the amplifiers or may be located external to a chip with the amplifiers. The distributed antenna may include a microstrip antenna. | 08-12-2010 |
20100225400 | METHOD AND SYSTEM FOR ON-CHIP IMPEDANCE CONTROL TO IMPEDANCE MATCH A CONFIGURABLE FRONT END - Methods and systems for on-chip impedance control to impedance match a configurable front end are disclosed and may include selectively enabling one or more amplifiers coupled to taps on a multi-tap transformer in a chip including the amplifiers. The impedances of the amplifiers may be matched to impedances of the taps on the transformer. The amplifiers may include low noise amplifiers wherein the input impedance of each of the low noise amplifiers may be different. The amplifiers may include power amplifiers wherein an output impedance of each of the power amplifiers may be different. The transformer may be coupled to an on-chip antenna, or to an antenna integrated on a package coupled to the chip. The multi-tap transformer may be integrated on the package. RF signals may be communicated via the selectively enabled amplifiers and the multi-tap transformer. The multi-tap transformer may include ferromagnetic materials integrated in the chip. | 09-09-2010 |
20100225408 | METHOD AND SYSTEM FOR VOLTAGE CONTROLLED OSCILLATOR IMPEDANCE CONTROL TO OPTIMIZE PERFORMANCE, EFFICIENCY, AND POWER CONSUMPTION - Methods and systems for VCO impedance control to optimize performance, efficiency, and power consumption are disclosed and may include selectively coupling one of a plurality of taps on a multi-tap inductive load to a voltage controlled oscillator (VCO) on a chip comprising a plurality of transmitters and receivers. The multi-tap inductive load may comprise a multi-tap transformer or transmission line, which may be integrated on the chip, or may be integrated on a package to which the chip is coupled. A voltage swing at an output of the VCO and/or a current in the VCO may be adjusted by configuring a load of the VCO utilizing the multi-tap inductive load. The multi-tap inductive load may be coupled to the VCO utilizing one or more CMOS switches. | 09-09-2010 |
20100225413 | METHOD AND SYSTEM FOR RECEIVING SIGNALS VIA MULTI-PORT DISTRIBUTED ANTENNA - Methods and systems for receiving signals via a multi-port distributed antenna are disclosed and may include selectively enabling one or more low noise amplifiers (LNAs) coupled to the antenna. The selective enabling may be based on a desired gain level applied to a signal received from the antenna. The LNAs may be coupled to ports on the antenna based on an input impedance of the LNAs and an impedance of the ports. Each of the LNAs may be configured for optimum linearity in different gain ranges, which may be proportional to the input impedance of the LNAs. The antenna may be integrated on a chip with the LNAs, or may be located external to the chip. The antenna may include a microstrip antenna. The LNAs may include variable gain and may be enabled utilizing a processor. Linearity on demand may be enabled via the selective enabling of the LNAs. | 09-09-2010 |
20100225422 | METHOD AND SYSTEM FOR A CONFIGURABLE FINITE IMPULSE RESPONSE FILTER USING A TRANSMISSION LINE AS A DELAY LINE - Methods and systems for a configurable finite impulse response (FIR) filter using a transmission line as a delay line are disclosed and may include selectively coupling one or more taps of a multi-tap transmission line to configure delays for one or more finite impulse response (FIR) filters to enable transmission and/or reception of signals. The delays may be configured based on a location of the one or more selectively coupled taps on the multi-tap transmission line. The FIR filters, which may include one or more stages, may be impedance matched to the selectively coupled taps. The multi-tap transmission line may be integrated on the chip, or a package to which the chip is coupled. The multi-tap transmission line may include a microstrip structure or a coplanar waveguide structure, and may include ferromagnetic material. The distortion of signals in the chip may be compensated utilizing the FIR filters. | 09-09-2010 |
20100225556 | METHOD AND SYSTEM FOR POWER COMBINING IN A MULTI-PORT DISTRIBUTED ANTENNA - Methods and systems for power combining in a multi-port distributed antenna are disclosed and may include power combining signals from power amplifiers (PAs) on a chip. The PAs may be coupled to a single distributed antenna via antenna ports. A phase of each of the signals may be matched at the antenna ports via phase-matching circuitry. A characteristic impedance may be configured at the ports based on a location of the ports. The PAs may be impedance matched to the antenna ports via impedance matching elements. A power level of the power-combined signals may be monitored via a power detector coupled to the distributed antenna. The power detector may include an envelope detector, such as a diode. The antenna may be integrated on the chip or may be located external to the chip. The signals may include RF signals and the antenna may include a microstrip antenna. | 09-09-2010 |
20100225557 | METHOD AND SYSTEM FOR AN ON-CHIP AND/OR AN ON-PACKAGE TRANSMIT/RECEIVE SWITCH AND ANTENNA - Methods and systems for an on-chip and/or on-package T/R switch and antenna are disclosed and may include selectively coupling one or more low noise amplifiers (LNAs) and/or one or more power amplifiers (PAs) to one or more ports of a multi-port distributed antenna utilizing configurable transmit/receive (T/R) switches integrated on a chip with the LNAs and PAs. The LNAs and PAs may be impedance matched to the antenna by coupling them to a port based on a characteristic impedance at the port. The T/R switches may be integrated on a package to which the chip may be coupled. The signals transmitted and received by the antenna may be time division duplexed. The antenna, which may include a microstrip antenna, may be integrated on the chip or the package. The LNA and the PA may be coupled to different ports on the antenna via the T/R switches. | 09-09-2010 |
20100227575 | METHOD AND SYSTEM FOR POWER CONTROL WITH OPTIMUM POWER EFFICIENCY WITH A MULTI-PORT DISTRIBUTED ANTENNA - Methods and systems for power control with optimum power efficiency with a multi-port distributed antenna are disclosed and may include selectively enabling one or more power amplifiers (PAs) coupled to the antenna. The selective enabling may be based on a desired output power radiated from the antenna, and the PAs may be coupled to ports on the antenna based on an output impedance of the PAs and a characteristic impedance of the ports. Each of the PAs may be configured for maximum efficiency in different power ranges. The power ranges may be inversely proportional to the output impedance of the PAs. The output power may be monitored utilizing a power detector, such as an envelope detector, coupled to the antenna. The antenna may be integrated on a chip with the one or more PAs or may be located external to the chip. The antenna may include a microstrip antenna. | 09-09-2010 |
20100231303 | METHOD AND SYSTEM FOR POWER AMPLIFIER (PA) WITH ON-PACKAGE MATCHING TRANSFORMER - Aspects of a system for a power amplifier with an on-package matching transformer may include a DC/DC converter that enables generation of a bias voltage level within an IC die based on an amplitude of an input signal to a PA circuit within the IC die. The bias voltage level may be applied to a transformer, which is external to the IC die but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels, derived from the bias voltage level applied to the transformer, may be applied to the PA circuit. | 09-16-2010 |
20100253449 | METHOD AND SYSTEM FOR GENERATING QUADRATURE SIGNALS UTILIZING AN ON-CHIP TRANSFORMER - Aspects of a method and system for generating quadrature signals utilizing an on-chip transformer are provided. In this regard, a pair of phase-quadrature signals may be generated from a single-phase signal via a transformer, one or more variable capacitors, and one or more variable resistors integrated on-chip. The transformer may comprise a plurality of loops fabricated in a plurality of metal layers in the chip. Each of the one or more variable capacitors may comprise a configurable capacitor bank and each of the one or more variable resistors may comprise a configurable resistor bank. The one or more capacitor banks may be programmatically configured on-chip, based on a frequency of the single-phase signal. The one or more resistor banks may be programmatically configured on-chip, based on a frequency of said single-phase signal. | 10-07-2010 |
20100285745 | METHOD AND SYSTEM FOR CHIP TO CHIP COMMUNICATION UTILIZING SELECTABLE DIRECTIONAL ANTENNAS - A wireless device comprising a plurality of chips may be operable to wirelessly communicate information between a plurality of chips via selectable directional antennas. Each of the chips may comprise one or more transmitters and receivers, and one or more integrated directional antennas communicatively coupled to the transmitters and/or receivers. The directional antennas may include patch antennas that may be configured to transmit signals in the direction of another chip intended to receive the transmitted signals. The patch antennas may be configured to transmit signals at a frequency matching a configured frequency of a directional antenna integrated on another of the plurality of chips intended to receive the transmitted signals. The directional antennas may include dipole antennas. The inter-chip communication may include baseband signals, radio frequency signals, and/or intermediate frequency signals. The plurality of chips may be integrated on a single package or on a plurality of packages. | 11-11-2010 |
20100285757 | METHOD AND SYSTEM FOR A CONFIGURABLE TUNED MOS CAPACITOR - Methods and systems for a configurable tuned MOS capacitor are disclosed and may include filtering undesired signals in a chip utilizing one or more configurable MOS capacitors comprising one or more MOS transistors. The source and drain terminals of the MOS transistors may be coupled together. The filtering frequencies may be tuned by configuring a resonance frequency of a matching circuit coupled to the source and drain terminals. The matching circuit may include a variable capacitor, which may include an array of binary-weighted addressable capacitors. The addressable capacitors may include MOS transistors. The matching circuit may include a variable inductor such as a multi-tap transmission line, and may be integrated on the chip and/or on a package to which the chip is bonded. A capacitance value of the configurable MOS capacitor may be configured utilizing a bias voltage on the matching circuit. | 11-11-2010 |
20100295598 | ADAPTIVE RADIO TRANSCEIVER WITH A LOCAL OSCILLATOR - An exemplary embodiment of the present invention described and shown in the specification and drawings is a transceiver with a receiver, a transmitter, a local oscillator (LO) generator, a controller, and a self-testing unit. All of these components can be packaged for integration into a single IC including components such as filters and inductors. The controller for adaptive programming and calibration of the receiver, transmitter and LO generator. The self-testing unit generates is used to determine the gain, frequency characteristics, selectivity, noise floor, and distortion behavior of the receiver, transmitter and LO generator. It is emphasized that this abstract is provided to comply with the rules requiring an abstract which will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or the meaning of the claims. | 11-25-2010 |
20100297954 | METHOD AND SYSTEM FOR CHIP-TO-CHIP MESH NETWORKS - A wireless device comprising a plurality of chips may be operable to communicate wireless signals via a mesh network comprising a plurality of integrated directional antennas on the plurality of chips. Wireless signals may be communicated between the plurality of the chips and/or with devices external to the wireless device via the mesh network. Beam-formed wireless signals may be communicated via the plurality of integrated directional antennas. The plurality of chips may be integrated on a single package or on a plurality of packages, which may comprise one or more circuit boards. Wireless signals may be communicated with devices external to the single package via the mesh network. The directional antennas may comprise patch antennas and/or dipole antennas. | 11-25-2010 |
20100297963 | METHOD AND SYSTEM FOR DYNAMIC LINK CONTROL FOR A CHIP TO CHIP COMMUNICATION SYSTEM - A wireless device comprising a plurality of chips may be operable to dynamically configure wireless communication between the plurality of chips. Each of the chips may include one or more transceivers and one or more integrated directional antennas communicatively coupled to the one or more transceivers. The communications link between chips in the wireless device may be dynamically configured via control of the transceivers and/or the integrated directional antennas. The antennas may include patch antennas and/or dipole antennas. The transceivers may be configured by controlling output power of power amplifiers or by controlling gain of low noise amplifiers. The communications link may be dynamically configured by controlling a characteristic impedance of the antennas for impedance matching to transceivers. A frequency of the communication link may be controlled by configuring the antennas. A bandwidth of the communications link may be configured based on activity of processors in the wireless device. | 11-25-2010 |
20100308651 | Method and System for an Integrated Leaky Wave Antenna-Based Transmitter and On-Chip Power Distribution - Methods and systems for an integrated leaky wave antenna-based transmitter and on-chip power distribution are disclosed, and may include supplying one or more bias voltages and ground for a chip including a plurality of power amplifiers (PAs) utilizing bias voltage and ground lines. One or more leaky wave antennas (LWAs) may be communicatively coupled to the power amplifiers. Wireless signals may be transmitted utilizing the LWAs integrated in the lines in the chip. Radio frequency (RF) signals may be transmitted via the plurality of LWAs. The RF signals may include 60 GHz signals and the LWAs may include microstrip and/or coplanar waveguides. A cavity length of the LWAs may be configured by a spacing between conductive lines in the microstrip and/or coplanar waveguides. The LWAs may be configured to transmit the wireless signals at a desired angle from a surface of the chip. | 12-09-2010 |
20100308668 | METHOD AND SYSTEM FOR POWER TRANSFER UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for power transfer utilizing leaky wave antennas (LWAs) are disclosed and may include configuring one or more LWAs in a communication device to receive RF signals that are communicated from one or more other LWAs that are external to the communication device. The communication device may be powered utilizing the RF signals that are received via the configured LWAs. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be configured to receive the RF signals from a desired direction. The LWAs may comprise microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be integrated in integrated circuits, integrated circuit packages, and/or printed circuit boards. The packages may be affixed to printed circuit boards and the integrated circuits may be flip-chip-bonded to the packages. | 12-09-2010 |
20100308767 | METHOD AND SYSTEM FOR DISTRIBUTED BATTERY CHARGING UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for distributed battery charging utilizing leaky wave antennas (LWAs) are disclosed and may include receiving RF signals in a wireless device from one or more wireless devices via one or more LWAs, generating power within the first wireless device from the received RF signals, and charging one or more batteries utilizing the generated power. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be configured to receive the RF signals from a desired direction. The LWAs may comprise microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be integrated in one or more integrated circuits, integrated circuit packages, and/or printed circuit boards. The packages may be affixed to one or more printed circuit boards and the integrated circuits may be flip-chip-bonded to the packages. | 12-09-2010 |
20100308885 | METHOD AND SYSTEM FOR CLOCK DISTRIBUTION UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for clock distribution utilizing leaky wave antennas (LWAs) in a wireless device are disclosed and may include configuring voltage-controlled oscillators (VCO) to generate one or more clock signals at desired clock frequencies and configuring LWAs at a resonant frequency corresponding to the clock frequencies, which may be generated at the desired clock frequencies utilizing the VCO. The clock signals may be communicated via LWAs in the wireless device and may be amplified utilizing one or more low-noise amplifiers. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. LWAs may be configured to enable beamforming. One or more of the LWAs may comprise microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be integrated in one or more integrated circuits, integrated circuit packages, and/or printed circuit boards. | 12-09-2010 |
20100308970 | METHOD AND SYSTEM FOR A RFID TRANSPONDER WITH CONFIGURABLE FEED POINT FOR RFID COMMUNICATIONS - A Method and system for a RFID transponder with configurable feed point for RFID communications is provided. In this regard, an RFID transponder may receive RF signals via a leaky wave antenna and modulate an amplitude of a backscattered signal associated with the received RF signals by switching between a plurality of feed points of the leaky wave antenna to vary an input impedance of said RFID transponder. Each of the plurality of feed points may be located in a different position in the resonant cavity of the leaky wave antenna. The input impedance may be controlled by switching a load in and out of a receive path of the RFID transponder. The leaky wave antenna may be integrated within and/or on an integrated circuit, an integrated circuit package, or a combination thereof. | 12-09-2010 |
20100308997 | METHOD AND SYSTEM FOR CONTROLLING CAVITY HEIGHT OF A LEAKY WAVE ANTENNA FOR RFID COMMUNICATIONS - Methods and systems for controlling cavity height of a leaky wave antenna for RFID communications are disclosed. In this regard, an RFID transponder may receive RF signals via a leaky wave antenna and modulate a frequency of a backscattered signal by controlling a height of a resonant cavity of the leaky wave antenna. The height of the resonant cavity may be controlled via a micro-electromechanical system. The RFID transponder may modulate an amplitude of the backscattered signal by controlling an input impedance of the RFID transponder. The input impedance may be controlled by switching a load in and out of a receive path of the RFID transponder. The input impedance of the RFID transponder may be controlled by switching between a plurality of feed points of the leaky wave antenna. Each of the plurality of feed points may be located in a different position in the resonant cavity of the leaky wave antenna. | 12-09-2010 |
20100309040 | METHOD AND SYSTEM FOR DYNAMIC RANGE DETECTION AND POSITIONING UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for dynamic range detection and positioning utilizing leaky wave antennas (LWAs) are disclosed and may include configuring one or more LWAs to enable communication of signals in a particular direction. RF signals that are reflected from an object may be received via the LWAs, and a location of the object may be determined based on the received reflected RF signals. The velocity of the object may be determined based on a Doppler shift associated with the received reflected RF signals. A frequency chirped signal may be transmitted by the LWAs to determine a location of the object. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. LWAs may be situated along a plurality of axes in the wireless device. The LWAs may include microstrip or coplanar waveguides, where a cavity height is dependent on spacing between conductive lines in the waveguides. | 12-09-2010 |
20100309052 | METHOD AND SYSTEM FOR DYNAMIC TRACKING UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for dynamic tracking utilizing leaky wave antennas (LWAs) are disclosed and may include configuring a transmitting angle of a plurality of leaky wave antennas in a wireless device at a desired starting angle. A RF signal strength may be measured at the sweeping transmitting angles for each of the leaky wave antennas, and a location of one or more objects may be tracked from the measured RF signal strength and a corresponding angle of reception of the LWAs. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be situated along a plurality of axes in the wireless device. The LWAs may comprise microstrip or coplanar waveguides, where a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be integrated in integrated circuits, integrated circuit packages, and/or printed circuit boards. | 12-09-2010 |
20100309056 | METHOD AND SYSTEM FOR SCANNING RF CHANNELS UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for scanning RF channels utilizing leaky wave antennas (LWAs) are disclosed and may include configuring a receiving angle of a plurality of LWAs in a wireless device to receive RF signals at a desired starting angle. The receiving angle may be swept while measuring RF signal strength. A location of RF signal sources may be determined based on the measured RF signal strength and corresponding angle of reception. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be configured so that they are situated along a plurality of axes in the wireless device. The LWAs may comprise microstrip or coplanar waveguides, where a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be integrated in integrated circuits, integrated circuit packages, and/or printed circuit boards. | 12-09-2010 |
20100309069 | METHOD AND SYSTEM FOR DYNAMIC CONTROL OF OUTPUT POWER OF A LEAKY WAVE ANTENNA - Methods and systems for dynamic control of output power of a leaky wave antenna (LWA) are disclosed and may include configuring one or more LWAs in a wireless device to transmit RF signals at a desired frequency. The LWAs may be integrated in support structures, including an integrated circuit, an integrated circuit package, and/or a printed circuit board. Impedances that are coupled to the LWAs and to a power amplifier enabled to amplify the RF signals may be dynamically configured. A resonant frequency of the LWAs may be tuned, which may be configured to transmit the RF signals at a desired angle from a surface of the support structure. The LWAs may include microstrip or coplanar waveguides where a cavity height of the LWAs may be configured by controlling spacing between conductive lines in the waveguides. The impedances may include capacitor arrays and/or inductors in the support structures. | 12-09-2010 |
20100309071 | METHOD AND SYSTEM FOR A 60 GHZ LEAKY WAVE HIGH GAIN ANTENNA - Methods and systems for a 60 GHz leaky wave high gain antenna are disclosed and may include communicating RF signals using one or more or more leaky wave antennas (LWAs) in a wireless device. The LWAs may be integrated in metal traces on a chip, a package, and/or a printed circuit board (PCB). The metal traces may supply voltage signals to one or more circuits on the chip, package, and/or PCB. The voltage signals may include DC bias voltages, and/or signals at a frequency that is lower than a resonant frequency of the LWAs. The LWAs may include microstrip or coplanar lines where a cavity height of the LWAs is dependent on a spacing between the lines. An angle of the wireless signals with a surface of the chip, package, and/or PCB may be dynamically configured. The LWAs may be configured via switches in the chip, package, and/or PCB. | 12-09-2010 |
20100309072 | METHOD AND SYSTEM FOR CONFIGURING A LEAKY WAVE ANTENNA UTILIZING MICRO-ELECTRO MECHANICAL SYSTEMS - Methods and systems for configuring a leaky wave antenna (LWA) utilizing micro-electromechanical systems (MEMS) are disclosed and may include configuring a resonant frequency of one or more LWAs in a wireless device utilizing MEMS actuation. RF signals may be communicated using the LWAs. The LWAs may be integrated in metal layers in a chip, an integrated circuit package, and/or a printed circuit board in the wireless device. The LWAs may include microstrip waveguides where a cavity height of the LWAs may be dependent on a spacing between conductive lines in the microstrip waveguides. The LWAs may be configured to transmit the wireless signals at a desired angle. The integrated circuit package may be affixed to a printed circuit board and an integrated circuit may be flip-chip-bonded to the integrated circuit package. An air gap may be integrated adjacent to one or more of the metal layers for the MEMS actuation. | 12-09-2010 |
20100309073 | METHOD AND SYSTEM FOR CASCADED LEAKY WAVE ANTENNAS ON AN INTEGRATED CIRCUIT, INTEGRATED CIRCUIT PACKAGE, AND/OR PRINTED CIRCUIT BOARD - Methods and systems for cascaded leaky wave antennas (LWAs) on an integrated circuit, integrated circuit package, and/or printed circuit board are disclosed and may include communicating RF signals using one or more cascaded LWAs in a wireless device. The cascaded LWAs may include a plurality of cavity heights integrated in metal layers in a multi-layer support structure which may include an integrated circuit, an integrated circuit package, and/or a printed circuit board. The cascaded LWAs may be configured to transmit the wireless signals at a desired angle from the surface of the multi-layer support structure. The cascaded LWAs may include microstrip and/or coplanar waveguides, where the cavity heights of the cascaded LWAs may be dependent on distances between conductive lines in the waveguides. A beam shape of the RF signals may be configured utilizing a frequency of a signal communicated to the cascaded LWAs. | 12-09-2010 |
20100309074 | METHOD AND SYSTEM FOR A LEAKY WAVE ANTENNA ON AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for a leaky wave antenna LWA on an integrated circuit (IC) package are disclosed and may include communicating RF signals using one or more LWAs in a wireless device. The LWAs may be integrated in metal layers in an IC package, and a resonant frequency of the LWAs may be dependent on cavity heights associated with the metal layers. The cavity heights may be configured utilizing micro-electro-mechanical systems deflection. The RF signals may include 60 GHz signals. The LWAs may include microstrip and/or coplanar waveguides where a cavity height of the LWAs may be dependent on a spacing between conductive lines in the waveguides. The LWAs may be configured to transmit the wireless signals at a desired angle from a surface of the IC package. The IC package may be affixed to a printed circuit board, and an IC may be flip-chip-bonded to the IC package. | 12-09-2010 |
20100309075 | METHOD AND SYSTEM FOR AN ON-CHIP LEAKY WAVE ANTENNA - Methods and systems for an on-chip leaky wave antenna (LWA) are disclosed and may include communicating RF signals using one or more LWAs in a wireless device. The LWAs may be integrated in metal layers in an integrated circuit (chip) in the wireless device. The RF signals may be communicated to devices external to the chip via a desired angle from the surface of the chip, or may be communicated between regions within the chip. The LWAs may comprise microstrip waveguides where a cavity height of the LWAs may be controlled by configuring a spacing between conductive lines in the microstrip waveguides. The LWAs may include coplanar waveguides where a cavity height of the leaky wave antennas may be controlled by configuring a spacing between conductive lines in the coplanar waveguides. The chip may be flip-chip-bonded to an integrated circuit package which may be affixed to a printed circuit board. | 12-09-2010 |
20100309076 | METHOD AND SYSTEM FOR COMMUNICATING VIA LEAKY WAVE ANTENNAS ON HIGH RESISTIVITY SUBSTRATES - Methods and systems for communicating via leaky wave antennas (LWAs) on high resistivity substrates are disclosed and may include communicating RF signals using one or more LWAs that may be integrated in an integrated circuit (chip) comprising a high resistivity substrate, which may include a silicon-on-sapphire substrate. The LWAs integrated in the chip may be configured to transmit the RF signals at a desired angle from the surface of the chip. The RF signals may be communicated between regions within the chip. The LWAs may include microstrip or coplanar waveguides where the cavity height of the one or more of the LWAs may be configured by controlling spacing between conductive lines in the waveguides. The RF signals may be communicated from the LWAs integrated in the chip to LWAs in a package to which the chip is bonded or in a printed circuit board to which the package is bonded. | 12-09-2010 |
20100309077 | METHOD AND SYSTEM FOR WIRELESS COMMUNICATION UTILIZING LEAKY WAVE ANTENNAS ON A PRINTED CIRCUIT BOARD - Methods and systems for wireless communication utilizing leaky wave antennas (LWAs) on a printed circuit board are disclosed and may include communicating RF signals via LWAs in an integrated circuit (chip) and/or package in a wireless device to LWAs in a printed circuit board in the wireless device. RF signals may then be communicated via the LWAs in the printed circuit board to external devices, and may communicated vertically or at a desired angle from the surface. The RF signals may be communicated between regions within the printed circuit board. The LWAs may include microstrip or coplanar waveguides where a cavity height of the LWAs may be configured by controlling spacing between conductive lines in the waveguides. The chip may be flip-chip-bonded to an package which may be affixed to a printed circuit board. A pair of the plurality of LWAs may be stacked to communicate signals in opposite directions. | 12-09-2010 |
20100309078 | METHOD AND SYSTEM FOR CONVERTING RF POWER TO DC POWER UTILIZING A LEAKY WAVE ANTENNA - Methods and systems for converting RF power to DC power utilizing a leaky wave antenna (LWA) are disclosed and may include receiving RF wireless signals utilizing one or more LWAs in a wireless device, and generating one or more DC voltages from the received RF signals utilizing cascaded rectifier cells. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be configured to receive the RF signals from a desired direction. The LWAs may comprise microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on a spacing between conductive lines in the waveguides. The LWAs may be integrated in one or more integrated circuits, integrated circuit packages, and/or printed circuit boards. The packages may be affixed to one or more printed circuit boards and the integrated circuits may be flip-chip-bonded to the packages. | 12-09-2010 |
20100309079 | METHOD AND SYSTEM FOR A SMART ANTENNA UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for a smart antenna utilizing leaky wave antennas (LWAs) are disclosed and may include a programmable polarization antenna including one or more pairs of LWAs configured along different axes. One or more pairs of leaky wave antennas may be configured to adjust polarization and/or polarity of one or more RF signals communicated by the programmable polarization antenna. RF signals may be communicated via the configured programmable polarization antenna utilizing the configured one or more pairs of the leaky wave antennas. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The polarization and/or polarity may be configured utilizing switched phase modules. The LWAs may include microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be integrated in one or more integrated circuits, packages, and/or printed circuit boards. | 12-09-2010 |
20100309824 | METHOD AND SYSTEM FOR A DUPLEXING LEAKY WAVE ANTENNA - Methods and systems for a duplexing leaky wave antenna (LWA) are disclosed. In this regard, RF signals may be concurrently transmitted and received via a leaky wave antenna, wherein a height of a first portion of a resonant cavity of the leaky wave antenna is different than a height of a second portion of the resonant cavity. RF signals transmitted may be at or near a first frequency and RF signals received be at or near a second frequency. The height of the first portion of the resonant cavity and/or the height of the second portion of the resonant cavity may be controlled by applying one or more voltages which causes one or both reflective surface of the leaky wave antenna to deflect. The leaky wave antenna may be integrated on and/or within an integrated circuit, an integrated circuit package, a printed circuit board, or a combination thereof. | 12-09-2010 |
20100311324 | METHOD AND SYSTEM FOR WIRELESS COMMUNICATION UTILIZING ON-PACKAGE LEAKY WAVE ANTENNAS - Methods and systems for wireless communication utilizing on-package leaky wave antennas (LWAs) are disclosed and may include communicating wireless signals via an RF digital bus between integrated circuit packages in a wireless device utilizing LWAs integrated in metal layers in the plurality of packages. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. A plurality of the LWAs may be configured to enable beam-forming. The LWAs may include microstrip or coplanar waveguides wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be configured to transmit the wireless signals at a desired angle from a surface of the packages. The packages may be affixed to one or more printed circuit boards. An integrated circuit may be flip-chip-bonded to one or more of the packages. | 12-09-2010 |
20100311333 | METHOD AND SYSTEM FOR POINT-TO-POINT WIRELESS COMMUNICATIONS UTILIZING LEAKY WAVE ANTENNAS - A method and system for point-to-point wireless communications utilizing leaky wave antennas is provided. In this regard, a first device may transmit a RF signal via a leaky wave antenna, and may determine an angle between the leaky wave antenna of the first device and a leaky wave antenna of a second device by adjusting a frequency of the RF signal until a response is received from the second device. The first device may be configured based on the determined angle. A wireless connection may be established between the leaky wave antenna of the first device and the leaky wave antenna of the second device based on the configuration. The first device may generate a notification when the angle is beyond a threshold. The wireless connection may adhere to wireless USB protocols and/or Bluetooth protocols, for example. The second device may generate the response after receiving sufficient energy from the RF signal. | 12-09-2010 |
20100311338 | Method and System for a Low Noise Amplifier Utilizing a Leaky Wave Antenna - Methods and systems for a low noise amplifier utilizing a leaky wave antenna are disclosed and may include one or more low-noise amplifiers (LNAs) coupled to one or more leaky wave antennas (LWAs) in a wireless device. RF signals may be received via one or more LNAs coupled to one or more feed points on a LWA. The one or more LNAs may be coupled to the feed points based on an impedance of the feed points and an input impedance of the one or more LNAs. The impedance of the feed points may be configured by locating them along a vertical axis in a resonant cavity of the LWA. The LWAs may be integrated on a chip, and/or on a package or printed circuit board to which the chip is affixed. The RF signals may be amplified by the LNAs and may be down-converted to baseband signals. | 12-09-2010 |
20100311340 | METHOD AND SYSTEM FOR REMOTE POWER DISTRIBUTION AND NETWORKING FOR PASSIVE DEVICES - A Method and system for remote power distribution and networking for passive devices is provided. In this regard, a sensor comprising a leaky wave antenna may be powered utilizing energy from a radio frequency signal received via the leaky wave antenna. The sensor may be operable to recover a baseband signal from the received radio frequency signal. The sensor may be operable to generate one or more sensor readings in response to the received baseband signal. The sensor may be operable to communicate the sensor reading to a source of the received radio frequency signal via a backscattered signal. The backscattered signal may be generated by controlling spacing between surfaces of the leaky wave antenna. The backscattered signal may be generated by switching a load in and out of a receive path of the sensor and/or by switching between a plurality of feed points of the leaky wave antenna. | 12-09-2010 |
20100311355 | METHOD AND SYSTEM FOR A MESH NETWORK UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for a mesh network utilizing leaky wave antennas (LWAs) are disclosed and may include configuring one or more devices as a mesh network in a wireless device coupled to a plurality of LWAs, and communicating data between said devices via the configured mesh network. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. A plurality of the LWAs may be configured to enable beamforming. The LWAs may comprise microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The plurality of LWAs may be integrated in one or more of: integrated circuits, integrated circuit packages, and printed circuit boards. The devices may be internal to the wireless device. The data may be communicated via the mesh network to devices external to the wireless device. | 12-09-2010 |
20100311356 | METHOD AND SYSTEM FOR A TOUCHSCREEN INTERFACE UTILIZING LEAKY WAVE ANTENNAS - Methods and systems for a touchscreen interface utilizing leaky wave antennas (LWAs) are disclosed and may include configuring one or more leaky wave antennas utilizing conductive traces in the touchscreen interface for communication of wireless RF signals. RF signals may be communicated utilizing the configured LWAs. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be configured to communicate the RF signals in a desired direction. The LWAs may comprise microstrip or coplanar waveguides, where a cavity height of the one or more leaky wave antennas is dependent on spacing between conductive lines in the waveguides. The touch control commands by the touchscreen interface may be sensed utilizing capacitance, inductance, and/or resistance measurements. | 12-09-2010 |
20100311359 | Method and System for an N-Phase Transmitter Utilizing a Leaky Wave Antenna - Methods and systems for an n-phase transmitter utilizing a leaky wave antenna (LWA) are disclosed and may include transmitting an n-phase wireless signal at a first frequency via the LWA utilizing a plurality of second frequency signals from one or more signal sources, and the second frequency may be lower than the first frequency. Each of the second frequency signals may be configured with a phase difference and may be communicated to the LWA utilizing one or more power amplifiers (PAs). The PAs may be operated in switching mode, thereby generating a square wave. The LWAs may be integrated on the chip, on a package to which the chip is affixed, and/or on a printed circuit board to which the chip is affixed. Square wave signals may be generated utilizing the signal sources. The transmitted wireless signal may be amplitude modulated utilizing a bias voltage applied to the LWAs. | 12-09-2010 |
20100311363 | METHOD AND SYSTEM FOR A DISTRIBUTED LEAKY WAVE ANTENNA - Methods and systems for a distributed leaky wave antenna (LWA) are disclosed and may include communicating RF signals at one or more frequencies via distributed LWAs in a wireless communication device. The distributed LWAs may be integrated in one or more multi-layer support structures. The RF signals may be communicated at the one or more frequencies via a plurality of cavity heights in the distributed LWAs or via a plurality of sections of the distributed LWAs with different partially reflective surfaces. The distributed LWAs may be configured to transmit the RF signals at a desired angle from a surface of the multi-layer support structures. The distributed LWAs may include microstrip or coplanar waveguides where the plurality of cavity heights of the one or more distributed LWAs may be configured based on distances between conductive lines in the waveguides. | 12-09-2010 |
20100311364 | METHOD AND SYSTEM FOR CONTROLLING POWER FOR A POWER AMPLIFIER UTILIZING A LEAKY WAVE ANTENNA - Methods and systems for controlling power for a power amplifier utilizing a leaky wave antenna (LWA) are disclosed and may include configuring one or more power amplifiers (PAs) in a wireless device at a desired output power level. The PAs may be coupled to feed points on the LWAs that may exhibit an input impedance corresponding to an output impedance of the PAs. RF signals may be transmitted utilizing the LWAs. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be configured to transmit the RF signals in a desired direction. The LWAs may comprise microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The input impedances of the feed points may be dependent on a position of the feed points in the cavities. | 12-09-2010 |
20100311367 | Method and System for a Sub-Harmonic Transmitter Utilizing a Leaky Wave Antenna - Methods and systems for a sub-harmonic transmitter utilizing a leaky wave antenna are disclosed and may include transmitting wireless signals at a harmonic frequency of a source signal utilizing one or more leaky wave antennas (LWAs) in a wireless device including one or more transceivers on a chip. The LWAs may be configured with a resonant frequency at the harmonic frequency. The source signal may be communicated to the LWAs utilizing a power amplifier, which may be operated in switching mode thereby generating a square wave from the source signal. The LWAs may be integrated on the chip, on a package to which the chip is affixed and/or on a printed circuit board to which the chip is affixed. The harmonic frequency may be three times a frequency of the source signal. The transmitted wireless signal may be amplitude modulated utilizing a bias voltage applied to the LWAs. | 12-09-2010 |
20100311368 | Method and System for a Leaky Wave Antenna as a Load on a Power Amplifier - Methods and systems for utilizing a leaky wave antenna as a load on a power amplifier are disclosed and may include configuring one or more leaky wave antennas as a load for one or more power amplifiers (PAs) in a wireless device. RF signals may be transmitted via the leaky wave antennas which may be integrated on the chip, a package to which the chip is affixed, or on a printed circuit board to which the chip is affixed. The antennas may include an inductive load and/or a balun for the one or more PAs. The leaky wave antennas may be impedance matched to the PAs. The PAs may amplify a signal to be transmitted, and an output power of the PAs may be configured by controlling a bias voltage for the PAs. | 12-09-2010 |
20100311369 | METHOD AND SYSTEM FOR COMMUNICATING VIA LEAKY WAVE ANTENNAS WITHIN A FLIP-CHIP BONDED STRUCTURE - Methods and systems for communicating via leaky wave antennas (LWAs) within a flip-chip bonded structure are disclosed and may include communicating RF signals in a wireless device including one or more LWAs between a plurality of support structures, the structures being coupled via flip-chip bonding. Low-frequency signals may be communicated via flip-chip bonding contacts. The RF signals may be communicated perpendicular to a surface and/or at a desired angle from the surface of the structures, which may include at least one of: an integrated circuit, an integrated circuit package, and a printed circuit board. The LWAs may include microstrip and/or coplanar waveguides where a cavity height of the LWAs may be configured by controlling spacing between conductive lines in the waveguides. The low-frequency signals may include DC bias voltages. The RF signals may be communicated from a single LWA to a plurality of LWAs. | 12-09-2010 |
20100311376 | Method and System for Receiving I and Q RF Signals without a Phase Shifter Utilizing a Leaky Wave Antenna - Methods and systems for receiving in-phase and quadrature (I and Q) radio frequency (RF) signals without a phase shifter utilizing a leaky wave antenna are disclosed and may include generating in-phase and quadrature signals using a leaky wave antenna coupled to one or more low-noise amplifiers (LNAs) on a chip and without a phase shifter. The RF I and Q signals may be communicated from the single leaky wave antenna using coplanar feed points and/or feed points on a top surface and a bottom surface of the single leaky wave antenna. The leaky wave antennas may be integrated on the chip, on a package to which the chip is affixed, and/or on a printed circuit board to which the chip is affixed. The RF I and Q signals may be amplified by the one or more LNAs and may down-convert the RF I and Q signals to baseband signals. | 12-09-2010 |
20100311379 | Method and System for a Voltage-Controlled Oscillator with a Leaky Wave Antenna - Methods and systems for a voltage-controlled oscillator (VCO) with a leaky wave antenna are disclosed and may include transmitting wireless signals via one or more leaky wave antennas in one or more tank circuits coupled to one or more VCOs. The VCOs may be two-point modulated. Two modulating signals may be communicated to the one or more VCOs via varactors coupled to tank circuits on the one or more VCOs. The varactors may include CMOS transistors with source and drain terminals shorted together. The one or more leaky wave antennas may be integrated on the chip, on a package to which the chip is affixed, or on a printed circuit board to which the chip is affixed. The VCOs may be integrated in a phase-locked loop and an output of the one or more VCOs in the phase-locked loop may be fed back via a multi-modulus detector. | 12-09-2010 |
20100311380 | Method and System for Amplitude Modulation Utilizing a Leaky Wave Antenna - Methods and systems for amplitude modulation using a leaky wave antenna are disclosed and may include amplitude modulating an output of one or more power amplifiers in a wireless device by modulating a bias current in the power amplifiers that are coupled to one or more leaky wave antennas. The leaky wave antennas may include a balun that may be integrated on the chip, on a package to which the chip may be affixed, and/or integrated on a printed circuit board to which the chip may be affixed. An output power of the power amplifiers may be adjusted by configuring a bias voltage on the leaky wave antennas. The bias voltage may be configured utilizing a DC to DC voltage controller. The bias current may be modulated via one or more switched current sources. The switched current sources may be binary weighted and/or may be current mirrors. | 12-09-2010 |
20110028111 | METHOD AND SYSTEM FOR FREQUENCY TUNING BASED ON CHARACTERIZATION OF AN OSCILLATOR - Aspects of a method and system for frequency tuning based on characterization of an oscillator are provided. In this regard, a frequency of an oscillator in an integrated circuit may be controlled based on a first digital control word, a frequency of a tuned circuit may be controlled based on a second digital control word, and the second control word may be determined utilizing a mapping between the first control word and the second control word. The frequency of the oscillator and the tuned circuit may be controlled by adjusting a capacitance of the oscillator and tuned circuit, respectively. The mapping may be based on a relationship between the oscillator and the tuned circuit, such as logical and/or mathematical relationship between the capacitance of the oscillator and the capacitance of the tuned circuit and/or the relationship between the frequency of the oscillator and the frequency of the tuned circuit. | 02-03-2011 |
20110037677 | METHOD AND SYSTEM FOR FM TRANSMIT AND FM RECEIVE USING A TRANSFORMER AS A DUPLEXER - A method for processing communication signals is disclosed and may include communicating radio frequency signals via an antenna coupled to primary windings of a radio frequency transformer. Secondary windings of the radio frequency transformer may be utilized for receiving and/or transmitting the communicated radio frequency signals. The receiving and the transmitting may operate in time division duplex mode. A number of windings between a pair of connector terminals of the secondary windings used for the transmitting of the radio frequency signals, may be less than or equal to a number of windings of the primary windings. A number of windings between a pair of connector terminals of the secondary windings used for the receiving of the radio frequency signals, may be greater than or equal to a number of windings of the primary windings. | 02-17-2011 |
20110039505 | INTEGRATED MULTIMODE RADIO TRANSMITTER AND COMPONENTS THEREOF - An integrated multi-mode radio transmitter includes a multiplexor and a shared front-end. The is operable to select an IF signal of a plurality of IF signals based upon a selection signal that is indicative of a particular operational mode of the one of the plurality of IF signals. The shared front-end is coupled to receive the selected IF signal, wherein the shared front-end converts the selected IF signal into a radio frequency (RF) signal that is modulated in accordance with the particular operational mode of the one of the plurality of IF stages. | 02-17-2011 |
20110045767 | METHOD AND SYSTEM FOR 60 GHZ DISTRIBUTED COMMUNICATION UTILIZING A MESH NETWORK OF REPEATERS - Methods and systems for 60 GHz distributed communication utilizing a mesh network of repeaters are disclosed and may include configuring antennas in remote RF modules in a wireless communication device, wherein each of the RF modules receive IF signals via coaxial lines. The RF signals may be transmitted via the antennas to a destination device via a mesh network that comprises the RF modules and one or more external repeaters. The IF signals in the coaxial lines may be tapped at the RF modules. The repeaters may be configured via a processor in the wireless communication device, where the control signals may be communicated to the RF modules via the coaxial lines. The RF modules may be configured utilizing a processor in the wireless communication device, where the control signals may be communicated via the coaxial lines. The RF signals may be generated from IF signals from baseband signals. | 02-24-2011 |
20110045791 | METHOD AND SYSTEM FOR EQUALIZING ANTENNA CIRCUIT MATCHING VARIATIONS - A method for processing signals includes generating a frequency response adjusted signal of an antenna, and adjusting a gain of the antenna by varying a gain of a programmable amplifier that amplifies the frequency response adjusted signal. The generating of the frequency response adjusted signal may take place prior to the gain adjusting. A frequency response of the antenna may be dynamically adjusted during the generating. A programmable filter used for the generating may be autonomously adjusted. The gain of the antenna may be dynamically adjusted. The gain of the programmable amplifier may be autonomously varied. The programmable filter and the programmable amplifier may be adjusted sequentially. | 02-24-2011 |
20110053522 | ADAPTIVE RADIO TRANSCEIVER - An exemplary embodiment of the present invention described and shown in the specification and drawings is a transceiver with a receiver, a transmitter, a local oscillator (LO) generator, a controller, and a self-testing unit. All of these components can be packaged for integration into a single IC including components such as filters and inductors. The controller for adaptive programming and calibration of the receiver, transmitter and LO generator. The self-testing unit generates is used to determine the gain, frequency characteristics, selectivity, noise floor, and distortion behavior of the receiver, transmitter and LO generator. It is emphasized that this abstract is provided to comply with the rules requiring an abstract which will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or the meaning of the claims. | 03-03-2011 |
20110059708 | METHOD AND SYSTEM FOR TUNING AN ANTENNA USING INJECTION - A method for wireless communication includes adding a received DVB-H signal with a reference oscillator signal to generate an added DVB-H signal. The reference oscillator signal may be added at an input of a matching load. The matching load may be used to tune a wireless antenna that receives the received DVB-H signal based on a received signal strength indicator (RSSI) associated with the added DVB-H signal. The reference oscillator signal may be generated, and the generated reference oscillator signal may be amplified. The added DVB-H signal may be amplified subsequent to the adding. The RSSI associated with the added DVB-H signal may be determined. The tuning may occur during receiving of a preamble of a packet for the received DVB-H signal. | 03-10-2011 |
20110077713 | BIO-MEDICAL UNIT NETWORK COMMUNICATION AND APPLICATIONS THEREOF - A bio-medical unit network includes a plurality of bio-medical units, where at least some of the bio-medical units are for implanting within a body. At least one of the bio-medical units coordinates, on behalf of the plurality of bio-medical units, a communication convention with a communication device external to the body. A bio-medical unit includes a power harvesting module, a communication module, and a functional module. The power harvesting module is operable to generate a supply voltage from a wireless power source. The communication module is powered via the supply voltage and is operable to communicate data and/or control information. The functional module is powered by the supply voltage and is operable to perform a bio-medical function. | 03-31-2011 |
20110077736 | BREAST IMPLANT SYSTEM INCLUDING BIO-MEDICAL UNITS - A breast implant system includes a shell, a viscous material for substantially filling the shell, and a plurality of bio-medical units affixed to at least one of the shell and the viscous material. A bio-medical unit of the plurality of bio-medical unit includes a wireless power harvesting module, a functional module, and a wireless communication module. The wireless power harvesting module is operable to generate a supply voltage from a wireless source. The functional module is operable to perform a function when activated and powered by the supply voltage. The wireless communication module is operable to facilitate wireless communication with the functional module. | 03-31-2011 |
20110095842 | Method and System for Processing Signals Via Directional Couplers Embedded in an Integrated Circuit Package - Methods and systems for processing signals via directional couplers embedded in a package are disclosed and may include generating via a directional coupler, one or more output RF signals that may be proportional to a received RF signal. The directional coupler may be integrated in a multi-layer package. The generated RF signal may be processed by an integrated circuit electrically coupled to the multi-layer package. The directional coupler may include quarter wavelength transmission lines, which may include microstrip or coplanar structures. The directional coupler may be electrically coupled to one or more variable capacitances in the integrated circuit. The variable capacitance may include CMOS devices in the integrated circuit. The directional coupler may include discrete devices, which may be surface mount devices coupled to the multi-layer package or may be devices integrated in the integrated circuit. The integrated circuit may be flip-chip bonded to the multi-layer package. | 04-28-2011 |
20110102291 | Method and System for Software Defined Antenna Control - Methods and systems for reducing AM/PM and AM/AM distortion are disclosed and may comprise selectively coupling and impedance matching one of a plurality of tunable antennas to a single programmable output stage comprising a single power amplifier in a transmitter. A programmable matching circuit comprising adjustable inductance and capacitance may be used to impedance match the antenna to the output stage. The selected tunable antenna may be coupled to the output stage utilizing a programmable switch array, which may comprise at least one transistor integrated on an integrated circuit including the output stage, for example. The tunable antennas may be designed to operate in different frequency bands and to be tuned within one or more frequency bands. The programmable matching circuit may be integrated on the chip or external to the chip. The matching circuit capacitance may be integrated on-chip, and the inductance may be located off-chip. | 05-05-2011 |
20110103512 | METHOD AND SYSTEM FOR MINIMIZING POWER CONSUMPTION IN A COMMUNICATION SYSTEM - A method for processing signals in a communication system includes delaying a baseband signal based on at least one calibration signal, and amplifying the delayed baseband signal. The at least one calibration signal may be generated based on an amount of intermodulation distortion associated with the amplified delayed baseband signal. A bias voltage of an amplifier used for the amplifying may be adjusted, where the adjusting is in proportion to an envelope of the baseband signal. A number of samples used for the delaying may be calculated, by minimizing the amount of the intermodulation distortion at an output of the amplifier. The envelope may be measured by evaluating a plurality of I and Q samples of the baseband signal. A supply and/or bias voltage for the amplifier may be generated by using a switching regulator. The bias voltage may control a gain of the amplifier. | 05-05-2011 |
20110122037 | METHOD AND SYSTEM FOR A PHASED ARRAY ANTENNA EMBEDDED IN AN INTEGRATED CIRCUIT PACKAGE - Aspects of a method and system for configurable antenna in an integrated circuit package are provided. In this regard, a phased array antenna embedded in a multi-layer integrated circuit (IC) package may be utilized for transmitting and/or receiving signals. An IC enabled to transmit and/or receive signals may be bonded to the multi-layer IC package and may communicate a reference signal and/or one or more phase shifted versions of said reference signal to the antenna. One or more phase shifters (fabricated, for example, in planar transmission line) may be embedded in the multi-layer IC package and may be controlled via an IC bonded to the multi-layer IC package. The phased array antenna may comprise a plurality of antenna elements which may each comprise an interconnection for communicatively coupling to an associated transmitter and/or receiver, a feeder line, a quarter wavelength transformer, and a radiating portion (e.g., a folded dipole). | 05-26-2011 |
20110165838 | Method and System for Utilizing a Frequency Modulation (FM) Antenna for Near Field Communication (NFC) and Radio Frequency Identification (RFID) - A method for wireless communication is provided and may include configuring at least one capacitor array in an antenna system to control a frequency for receiving external signals. An antenna and at least one inductor in the antenna system may be configured for receiving external signals at a first frequency. An inductor and a voltage source, a capacitor, and/or a ground reference may be configured for receiving the external signals at a different frequency if the frequency is utilized for backscattered signal reception and/or magnetically coupled signal reception. Near field communication (NFC) signals may be received at the different frequency for backscattered signals. Radio frequency identification (RFID) signals may be received at the different frequency for magnetically coupled signals. The first frequency may be within the FM frequency band. The antenna system may be configured to transmit signals to be subsequently received as backscattered signals or magnetically coupled signals. | 07-07-2011 |
20110169708 | METHOD AND SYSTEM FOR CONFIGURABLE ANTENNA IN AN INTEGRATED CIRCUIT PACKAGE - Aspects of a method and system for a configurable antenna in an integrated circuit package are provided. In a hybrid circuit comprising an integrated circuit bonded to a multi-layer package, one or more antenna parameters may be adjusted by configuring a plurality of antenna elements via one or more switching elements. In this regard, the antenna elements and/or the switching elements may be within and/or on the multi-layer package and/or within the integrated circuit. The switching elements may be MEMS switches on and/or within the IC and/or the multi-layer package. The IC may be bonded or mounted to the underside of the package and signals may be communicated between the IC and the package via one or more solder balls. The IC may comprise suitable logic, circuitry, and/or code for configuring the antenna elements. The antenna elements may be configured based on desired polarization, antenna gain, and/or frequency. | 07-14-2011 |
20110171917 | SYSTEM AND METHOD PROVIDING VARIABLE-FREQUENCY IF CONVERSION IN A MULTIMODE COMMUNICATION DEVICE - A system and method providing variable-frequency IF conversion in a multimode communication device. Various aspects of the present invention provide a multimode communication device comprising at least one RF signal receiver adapted to receive at least a first RF signal corresponding to a first communication protocol and a second RF signal corresponding to a second communication protocol. A controllable frequency source may, for example, be adapted to output a mixing signal characterized by one of a plurality of selectable frequencies. Such selectable frequencies may, for example, comprise a first frequency corresponding to the first communication protocol and a second frequency corresponding to the second communication protocol. A mixer may, for example, receive a received RF signal from the RF signal receiver, receive a mixing signal from the controllable frequency source, and convert the received RF signal to an IF signal utilizing the received mixing signal. | 07-14-2011 |
20110183631 | METHOD AND SYSTEM FOR TRANSMISSION OR RECEPTION OF FM SIGNALS UTILIZING A DDFS CLOCKED BY AN RFID PLL - Aspects of a method and system for transmission or reception of signals utilizing a DDFS clocked are provided. A first oscillator signal utilized for transmission and/or reception of signals of a first wireless communication protocol may be generated, and a direct digital frequency synthesizer (DDFS) may be clocked by the first oscillator signal to generate one or more second oscillator signals. The one or more second oscillator signals may be modulated to generate a signal adhering to a second wireless communication protocol. The one or more second oscillator signals may be utilized to demodulate signals of the second wireless communication protocol. A control word input to the DDFS may control a frequency of the one or more second oscillator signals generated by the DDFS. Simultaneous transmission and reception of signals of the second wireless communication protocol may be simulated by switching the control word input to the DDFS between two values. | 07-28-2011 |
20110187473 | METHOD AND SYSTEM FOR POLAR MODULATING QAM SIGNALS WITH DISCONTINUOUS PHASE - Aspects of a method and system for polar modulating QAM signals with discontinuous phase may include amplifying a signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain and an amplitude offset gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain. The setting of the coarse amplitude gain and/or said amplitude offset gain may be adjusted dynamically and/or adaptively. The signal may be generated by phase-modulation of a radio-frequency carrier. The combined gain of the plurality of amplifiers may be controlled based on a desired amplitude modulation. The plurality of amplifiers may be integrated within an integrated circuit (IC) or chip. | 08-04-2011 |
20110201294 | Method and System for LNA Adjustment to Compensate for Dynamic Impedance Matching - Aspects of a method and system for LNA adjustment to compensate for dynamic impedance matching are provided. In this regard, an antenna matching network may be configured to maximize received signal strength for a determined frequency and an amplifier gain may be adjusted based on the maximized signal strength such that output levels of the amplifier are between specified limits. The antenna matching network may be programmatically controlled via one or more switching elements. The amplifier gain may be programmatically controlled via one or more bias points. The antenna matching network may be configured for a plurality of frequencies in a frequency band, such as an FM broadcast band, and a configuration for each frequency may be stored. Accordingly, when the receiver is tuned to a frequency, a corresponding configuration may be retrieved from memory. | 08-18-2011 |
20110206099 | METHOD AND SYSTEM FOR BLUETOOTH, NEAR FIELD COMMUNICATION AND SIMULTANEOUS FM TRANSMISSION AND RECEPTION FUNCTIONS - A method for wireless communication may include, in an RF chip including transmit and receive functions, performing generating a first signal to enable transmission and/or reception of Bluetooth signals. The first signal may be input to a plurality of direct digital frequency synthesizers (DDFSs). The plurality of DDFSs may be clocked via the generated first signal to enable simultaneous transmission and reception of frequency modulated (FM) signals, and to enable transmission and/or reception of near field communication (NFC) signals. The first signal may be generated via a local oscillator generator (LOGEN) to enable the transmission and/or reception of the Bluetooth signals. The first signal may be generated via a phase locked loop (PLL) to enable the transmission and/or reception of the Bluetooth signals. | 08-25-2011 |
20110206149 | METHOD AND SYSTEM FOR EFFICIENT TRANSMISSION AND RECEPTION OF RF ENERGY IN MIMO SYSTEMS USING POLAR MODULATION AND DIRECT DIGITAL FREQUENCY SYNTHESIS - A first oscillating signal may be generated via a first direct digital frequency synthesizer of a communication device. One or more second oscillating signals may be generated via one or more second direct digital frequency synthesizers of the communication device. Signals received via a plurality of antennas may be processed utilizing the first oscillating signal. Signals to be transmitted via the plurality of antennas may be processed utilizing the first oscillating signal and the one or more second oscillating signals. The communication device may comprise a plurality of receive channels, a plurality of transmit channels, and a multiplexer. The first oscillating signal may be coupled, via the multiplexer, to the plurality of receive paths and one of the transmit paths. During time intervals in which the communication device is configured to receive signals via the plurality of antennas, the multiplexer may route the first oscillating signal to the first one or more direct digital frequency synthesizers. | 08-25-2011 |
20110206152 | METHOD AND SYSTEM FOR BLOCKER ATTENUATION USING MULTIPLE RECEIVE ANTENNAS - Methods and systems for blocker attenuation using multiple receive antennas are disclosed. In this regard, a plurality of signals may be received via a corresponding plurality of antennas and a corresponding plurality of interference-suppressed signals may be generated. The interference-suppressed signals may be generated by adjusting a gain and phase of the plurality of received signals to generate a corresponding plurality of adjusted signals, and combining the corresponding plurality of adjusted signals, respectively, with the plurality of received. The gain of the received signals may be adjusted based on a wide bandwidth signal strength measurement and a narrow bandwidth signal strength measurement. A center frequency of one or more of the plurality of antennas may be adjusted based on received signals strength measurements. A gain and/or phase adjustment of each one of said received signals may be independent of gain and/or phase adjustments of other ones of the receive signals. | 08-25-2011 |
20110207424 | METHOD AND SYSTEM FOR DYNAMICALLY TUNING AND CALIBRATING AN ANTENNA USING ANTENNA HOPPING - Methods and systems for dynamically tuning and calibrating an antenna using antenna hopping are disclosed. In this regard, in a wireless device comprising an antenna that is configurable into a plurality of configurations, determining a subset of the configurations, where each configuration of the subset enables received signal strength above a threshold for a wireless channel, may be determined. During a time interval in which the wireless device is receiving signals on the wireless channel, the antenna may be configured to sequentially utilize each configuration of the subset. During the time interval, a plurality of samples of the wireless channel may be generated, where each of the samples corresponds to a different one of the configurations of the subset. The plurality of samples may be aggregated. The aggregated samples may be processed to recover information communicated on the wireless channel. | 08-25-2011 |
20110215958 | METHOD AND SYSTEM FOR VARIABLE RESOLUTION DATA CONVERSION IN A RECEIVER - A received plurality of signals may be filtered to select an in-band signal and/or an out-of-band. A signal strength of the selected signal(s) may be measured. A resolution of an analog-to-digital converter may be controlled based on the measured signal strength(s). The selected in-band signal may be converted to a digital representation via the analog-to-digital converter. The resolution may be decreased when the strength of the in-band signal is higher, and increased when the strength of the in-band signal is lower. The resolution may be increased when the strength of the out-of-band signal is higher, and decreased when the strength of the out-of-band signal is lower. A signal-to-noise ratio and/or dynamic range of the selected signal(s) may be determined based on the measured signal strength(s), and may be utilized to adjust the resolution of the analog-to-digital converter. | 09-08-2011 |
20110217975 | System and Method Providing Concurrent Multimode Communication - A system and method providing concurrent multimode communication through multimode signal multiplexing. Various aspects of the present invention may comprise, during a first time period, transmitting a first portion of a first communication in a first communication mode in a serial wireless transmission stream. During a second time period after the first time period, a first portion of a second communication may be transmitted in a second communication mode in the serial wireless transmission stream. Also, during a third time period after the second time period, a second portion of the first communication may be transmitted in the first communication mode in the serial wireless transmission stream. In an exemplary scenario, prior to communicating various communications, transmission time may be allocated between the first and second communication modes. In another exemplary scenario, transmission may be switched between a plurality of communication modes in response to detected communication conditions. | 09-08-2011 |
20110223967 | METHOD AND SYSTEM FOR BLUETOOTH AND FM RADIO COMMUNICATION - Frequency conversion methods and systems for Bluetooth and FM radio communication are provided. FM data may be received and/or transmitted via the FM radio and Bluetooth data may be received and/or transmitted via the Bluetooth radio. With an integration of frequency conversion for Bluetooth and FM, both systems can operate from a single frequency source, thereby reducing part count and power consumption. Communication between Bluetooth and FM channels may be enabled via a single chip. | 09-15-2011 |
20110285462 | METHOD AND SYSTEM FOR AMPLITUDE CALIBRATION FOR POLAR MODULATION WITH DISCONTINUOUS PHASE - Aspects of a method and system for amplitude calibration for polar modulation with discontinuous phase may include amplifying a signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain, an amplitude offset gain and a calibration gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain and the calibration gain. The setting of the coarse amplitude gain, the calibration gain and/or said amplitude offset gain may be adjusted dynamically and/or adaptively. | 11-24-2011 |
20110291756 | METHOD AND SYSTEM FOR POLAR MODULATION WITH DISCONTINUOUS PHASE FOR RF TRANSMITTERS WITH INTEGRATED AMPLITUDE SHAPING - Aspects of a method and system for polar modulation with discontinuous phase for RF transmitters with integrated amplitude shaping may include amplifying a signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain, an amplitude offset gain and a pulse-shaping gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the amplitude offset gain and the pulse-shaping gain, wherein the one or more of the plurality of amplifiers used to set said amplitude offset gain and said pulse-shaping gain are distinct from the one or more of said plurality of amplifiers used to set the coarse amplitude gain. | 12-01-2011 |
20110291911 | Method and System for Using a Transformer for FM Transmit and FM Receive Functionality - Aspects of a method and system for using a transformer for FM transmit and FM receive functionality may include communicating data-bearing signals via primary windings of a transformer, wherein secondary windings of the transformer may be utilized for receiving and/or transmitting the communicated data-bearing signals, wherein the secondary windings may be utilized as a load for the transmitting. The secondary windings and/or a power amplifier may be biased for the transmitting by applying an electrical signal at a terminal of the secondary windings, wherein the electrical signal that may be applied at the center terminal may be a biasing voltage. The receiving and the transmitting may be operated in time division duplex mode, or simultaneously. DC signal components for the receiving may be blocked by using a plurality of capacitors. | 12-01-2011 |
20110293034 | METHOD AND SYSTEM FOR MINIMIZING POWER CONSUMPTION IN A COMMUNICATION SYSTEM - A method for processing signals in a communication system may include adjusting a supply voltage of a pre-driver of a power amplifier in proportion to an envelope of a baseband signal so that the pre-driver amplifies a delayed version of the baseband signal. The delayed version of the baseband signal may be delayed by a number of samples of the baseband signal. The delay may be selected to minimize power consumption of the pre-driver of the power amplifier. A supply voltage for the power amplifier may be adjusted in proportion to the envelope. A bias voltage of the power amplifier may be adjusted in proportion to the envelope. The number of samples may be calculated by minimizing an amount of intermodulation distortion at an output of the power amplifier. | 12-01-2011 |
20110294419 | Method and System for Clocking FM Transmit, FM Receive, and Near Field Communication Functions Using DDFS - Methods and systems for clocking FM transmit, FM receive and near field communication functions using DDFS are disclosed. Aspects of one method may include generating a Bluetooth signal that may comprise, for example, I and Q components, or Bluetooth local oscillator (LO) signals, for use in Bluetooth communication. One of the two Bluetooth LO signals may then be used by a DDFS to generate I and Q LO signals for FM reception and/or transmission. One of the I and Q LO signals for FM communication may be used by another DDFS to generate at least one LO signal for near field communication (NFC) transmission and/or reception. While the Bluetooth LO signal may vary in frequency as Bluetooth frequency hopping occurs, the FM LO signals may remain constant for a specific channel frequency. Similarly, while the FM LO signals may be changed to tune to different FM channels, the NFC LO signals may remain at a constant frequency. | 12-01-2011 |
20110309842 | Identifying Defective Semiconductor Components on a Wafer Using Thermal Imaging - Methods and apparatus are disclosed to simultaneously, wirelessly test semiconductor components formed on a semiconductor wafer. The semiconductor components transmit respective outcomes of a self-contained testing operation to wireless automatic test equipment via a common communication channel. Multiple receiving antennas observe the outcomes from multiple directions in three dimensional space. The wireless automatic test equipment determines whether one or more of the semiconductor components operate as expected and, optionally, may use properties of the three dimensional space to determine a location of one or more of the semiconductor components. The wireless testing equipment may additionally determine performance of the semiconductor components by detecting infrared energy emitted, transmitted, and/or reflected by the semiconductor wafer before, during, and/or after a self-contained testing operation. | 12-22-2011 |
20110309851 | Tagging of Functional Blocks of a Semiconductor Component on a Wafer - Methods and apparatus are disclosed to simultaneously, wirelessly test semiconductor components formed on a semiconductor wafer. The semiconductor components transmit respective outcomes of a self-contained testing operation to wireless automatic test equipment via a common communication channel. Multiple receiving antennas observe the outcomes from multiple directions in three dimensional space. The wireless automatic test equipment determines whether one or more of the semiconductor components operate as expected and, optionally, may use properties of the three dimensional space to determine a location of one or more of the semiconductor components. The wireless testing equipment may additionally determine performance of the semiconductor components by detecting infrared energy emitted, transmitted, and/or reflected by the semiconductor wafer before, during, and/or after a self-contained testing operation. | 12-22-2011 |
20110309852 | Simultaneously Tagging of Semiconductor Components on a Wafer - Methods and apparatus are disclosed to simultaneously, wirelessly test semiconductor components formed on a semiconductor wafer. The semiconductor components transmit respective outcomes of a self-contained testing operation to wireless automatic test equipment via a common communication channel. Multiple receiving antennas observe the outcomes from multiple directions in three dimensional space. The wireless automatic test equipment determines whether one or more of the semiconductor components operate as expected and, optionally, may use properties of the three dimensional space to determine a location of one or more of the semiconductor components. The wireless testing equipment may additionally determine performance of the semiconductor components by detecting infrared energy emitted, transmitted, and/or reflected by the semiconductor wafer before, during, and/or after a self-contained testing operation. | 12-22-2011 |
20110313710 | Simultaneous Testing of Semiconductor Components on a Wafer - Methods and apparatus are disclosed to simultaneously, wirelessly test semiconductor components formed on a semiconductor wafer. The semiconductor components transmit respective outcomes of a self-contained testing operation to wireless automatic test equipment via a common communication channel. Multiple receiving antennas observe the outcomes from multiple directions in three dimensional space. The wireless automatic test equipment determines whether one or more of the semiconductor components operate as expected and, optionally, may use properties of the three dimensional space to determine a location of one or more of the semiconductor components. The wireless testing equipment may additionally determine performance of the semiconductor components by detecting infrared energy emitted, transmitted, and/or reflected by the semiconductor wafer before, during, and/or after a self-contained testing operation. | 12-22-2011 |
20110313711 | Identifying Defective Semiconductor Components on a Wafer Using Component Triangulation - Methods and apparatus are disclosed to simultaneously, wirelessly test semiconductor components formed on a semiconductor wafer. The semiconductor components transmit respective outcomes of a self-contained testing operation to wireless automatic test equipment via a common communication channel. Multiple receiving antennas observe the outcomes from multiple directions in three dimensional space. The wireless automatic test equipment determines whether one or more of the semiconductor components operate as expected and, optionally, may use properties of the three dimensional space to determine a location of one or more of the semiconductor components. The wireless testing equipment may additionally determine performance of the semiconductor components by detecting infrared energy emitted, transmitted, and/or reflected by the semiconductor wafer before, during, and/or after a self-contained testing operation. | 12-22-2011 |
20110316139 | PACKAGE FOR A WIRELESS ENABLED INTEGRATED CIRCUIT - An integrated circuit (IC) device is provided. The IC device includes a substrate, an IC die coupled to the substrate, and a first wirelessly enabled functional block formed on the IC die. The first wirelessly enabled functional block is configured to wirelessly communicate with a second wirelessly enabled functional block formed on the substrate. | 12-29-2011 |
20110316677 | Method and System for Intra-Chip Waveguide Communication - Methods and systems for configuring one or more electrical waveguides in an integrated circuit by adjusting a geometry of the one or more electrical waveguides, and communicating one or more electrical signals between components within the integrated circuit via the one or more electrical waveguides. The geometry of the one or more electrical waveguides may be configured by adjusting a length of the one or more electrical waveguides utilizing switches in the integrated circuit. The switches may include CMOS transistors. The one or more signals may include a microwave signal and a low frequency digital control signal that configures the microwave signal. The electrical waveguides may include metal and/or semiconductor layers deposited on and/or embedded within the integrated circuit. | 12-29-2011 |
20120068782 | Method and System for Configurable Differential or Single-Ended Signaling in an Integrated Circuit - Aspects of a method and system for configurable differential or single-ended signaling in an integrated circuit. In this regard, a balun comprising one or more loops fabricated in a plurality of metal layers in an integrated circuit may enable conversion between unbalanced and balanced signals. In this regard, balanced signal output by a power amplifier may be converted to a balanced signal for transmission via an antenna. Similarly, an unbalanced signal received by an antenna may be converted to a balanced signal for amplification by an amplifier with a balanced input. The loops may be fabricated in transmission line media such as microstrip and/or stripline. The loops may comprise ferromagnetic material which may be deposited on and/or within the IC. Signals converted via the balun may be in the 61 GHz-61.5 GHz ISM band. | 03-22-2012 |
20120082069 | Method and System for Time Division Duplexing (TDD) in a 60 GHZ Distributed Communication System - Methods and systems for antenna switching for time division duplexing (TDD) in a 60 GHz distributed communication system are disclosed and may include enabling one or more antenna configurations in one or more remote RF modules within a wireless communication device based on a measured signal characteristic. The RF modules may receive IF signals generated from baseband signals via one or more coaxial lines. TDD RF signals may be communicated via the antenna configurations with devices external to the wireless communication device. The IF signals may be tapped in the coaxial lines at taps coupled to the RF modules. The baseband signals may include video, streamed Internet, and/or data from a local data source. The TDD RF signals may be transmitted to a display device. Control signals for the RF devices may be communicated utilizing the coaxial lines. | 04-05-2012 |
20120083207 | Method and System for 60 GHZ Distributed Communication - Methods and systems for 60 GHz distributed communication are disclosed and may include generating IF signals from baseband signals in a computing device with wireless capability. The IF signals may be communicated to remote RF modules within the computing device via coaxial lines. The IF signals may be up-converted to RF signals and transmitted via the RF modules. The IF signals in the coaxial lines may be tapped via taps coupled to the RF modules. The baseband signals may comprise video data, Internet streamed data, and/or data from a local data source. The RF signals may be communicated to a display device. Control signals for the RF devices may be communicated utilizing the coaxial lines. One or more of the RF devices may be selected based on a direction to a receiving device. The remote RF devices may comprise mixers. The RF signals may comprise 60 GHz signals. | 04-05-2012 |
20120083215 | METHOD AND SYSTEM FOR MITIGATING LEAKAGE OF A 60 GHZ TRANSMITTED SIGNAL BACK INTO AN RF INPUT OF A 60 GHZ DEVICE - Methods and systems for antenna switching for mitigating leakage of a 60 GHz transmitted signal back into an RF input of a 60 GHz device are disclosed and may include configuring one or more antennas in the plurality of remote RF modules based on a measured signal characteristic, wherein the RF modules receive IF signals via coaxial lines. In-phase (I) and quadrature phase (Q) signals may be generated from the received IF signals. The generated I and Q signals may be summed before being transmitted via the antennas. The received IF signals may be up-converted into first I and Q signals, filtered, and up-converted a second time into the generated I and Q signals. Control signals for the RF modules may be communicated utilizing the coaxial lines. A local oscillator frequency may be configured for the up-conversion of signals via the communicated control signals. | 04-05-2012 |
20120083225 | METHOD AND SYSTEM FOR A 60 GHZ COMMUNICATION DEVICE COMPRISING MULTI-LOCATION ANTENNAS FOR PSEUDO-BEAMFORMING - Methods and systems for a 60 GHz communication device comprising multi-location antennas for pseudo-beamforming are disclosed and may include configuring antennas in RF modules for beamforming transmitted signals. Each of the RF modules may receive IF signals via coaxial lines. The beamformed RF signals may be transmitted via the antennas to external devices. The RF signals may be generated from IF signals from baseband signals. The RF modules may be configured utilizing a processor in the wireless communication device. The RF signals may be transmitted to a display device. Control signals for the RF devices may be communicated utilizing the coaxial lines. The RF devices may be selected for the beamforming based on a direction to a receiving device. The beamforming may include adding a phase shift in upconverting the IF signals to the RF signals, which may include 60 GHz signals. | 04-05-2012 |
20120083233 | METHOD AND SYSTEM FOR COMMUNICATION VIA SUBBANDS IN A 60 GHZ DISTRIBUTED COMMUNICATION SYSTEM - Methods and systems for communication via subbands in a 60 GHz distributed communication system are disclosed and may include enabling one or more antenna configurations in remote RF modules within a wireless communication device based on a measured signal characteristic. The RF modules may receive IF signals from baseband signals via one or more coaxial lines. Output RF signals may be communicated in frequency subbands via the antenna configurations with external devices. The IF signals in the coaxial lines may be tapped at taps coupled to the RF modules. The baseband signals may include video, Internet streamed, and/or data from a local data source. Frequency division duplexed signals may be communicated to a display device. Control signals may be communicated utilizing the coaxial lines. The signal characteristic may include a received signal strength indicator, and or a bit error rate. The output RF signals may include 60 GHz subband signals. | 04-05-2012 |
20120083306 | METHOD AND SYSTEM FOR ANTENNA SWITCHING FOR 60 GHZ DISTRIBUTED COMMUNICATION - Methods and systems for antenna switching for 60 GHz distributed communication are disclosed and may include enabling antenna configurations in a plurality of remote RF modules within a computing device to receive RF signals. A signal characteristic may be measured for the configurations receiving an RF signal from a remote device. IF signals may be generated from baseband signals and may be communicated to RF modules based on the signal characteristic via coaxial lines, and may be up-converted to output RF signals utilizing the RF modules. The output RF signals may be transmitted via antennas in the RF modules. The IF signals in the one or more coaxial lines may be tapped via taps coupled to the RF modules. The baseband signals may comprise video data, Internet streamed data, and/or data from a local data source. Control signals for the RF devices may be communicated utilizing the coaxial lines. | 04-05-2012 |
20120086114 | MILLIMETER DEVICES ON AN INTEGRATED CIRCUIT - An integrated circuit (IC) device arrangement includes a substrate, an IC die coupled to the substrate, an antenna coupled to the IC die, and a first wirelessly enabled functional block coupled to the IC die. The wirelessly enabled functional block is configured to wirelessly communicate with a second wirelessly enabled functional block coupled to the substrate. The antenna is configured to communicate with another antenna coupled to another device. | 04-12-2012 |
20120088463 | Dynamic Tuning and Calibration of Antenna with On-Chip Array of Capacitors - Methods and systems for dynamically tuning and calibrating an antenna using on-chip digitally controlled array of capacitors are disclosed. Aspects of one method may include dynamically tuning a mobile terminal antenna (MTA) using on-chip arrays of capacitive devices. The tuning may be, for example, to compensate for center frequency drift during operation of the mobile terminal. The tuning may be accomplished by selecting capacitive devices in the on-chip arrays of capacitive devices to use in conjunction with an inductive circuit coupled to the MTA, where the inductive circuit may be either off the chip or on the chip. Accordingly, an impedance of the circuit formed by the capacitive devices in the on-chip arrays of capacitive devices and the inductive circuit may be adjusted with respect to the MTA. A valid circuit configuration may include a configuration where no capacitive device may be selected for use with the inductive circuit. | 04-12-2012 |
20120093050 | METHOD AND SYSTEM FOR MINIMIZING POWER CONSUMPTION IN A COMMUNICATION SYSTEM - A method for regulating power in a front-end circuit, the method includes determining, along a first communication path, an envelope of a baseband signal; generating at least one voltage control signal based on the determined envelope of the baseband signal; and adjusting one or both of power and/or gain of the front-end circuit using the generated at least one voltage control signal. The baseband signal is communicated to the front-end circuit using a second communication path. Signal delay along the second communication path is matched with signal delay along the first communication path. The at least one voltage control signal comprises a supply voltage signal and a bias voltage signal. The power of the front-end circuit may be adjusted using the supply voltage signal. The gain of the front-end circuit may be adjusted using the bias voltage signal. | 04-19-2012 |
20120105168 | Method and System for Matching Networks Embedded in an Integrated Circuit Package - Methods and systems for matching networks embedded in an integrated circuit package are disclosed and may include controlling impedance within an integrated circuit via one or more impedance matching networks. The impedance matching networks may be embedded within a multi-layer package bonded to the integrated circuit. The impedance of one or more devices within the integrated circuit may be configured utilizing the impedance matching networks. The multi-layer package may include one or more impedance matching networks. The impedance matching networks may provide impedance matching between devices internal to the integrated circuit and external devices. The impedance matching networks may be embedded within the multi-layer package, and may include transmission lines, inductors, capacitors, transformers and/or surface mount devices. The impedance matching networks may be deposited on top of and/or on bottom of the multi-layer package. The integrated circuit may be flip-chip bonded to the multi-layer package. | 05-03-2012 |
20120122518 | Multimode Communication Device with Shared Signal Path Programmable Filter - A multimode communication device with a shared signal path programmable filter and a method for utilizing a shared signal path programmable filter in a multimode communication device. Various aspects of the present invention comprise a first module adapted to receive a first communication signal (e.g., corresponding to a first communication protocol) and a second module adapted to receive a second communication signal (e.g., corresponding to a second communication protocol). A shared filter, communicatively coupled to the first and second modules, may be adapted to filter the first and/or second communication signals in accordance with a plurality of selectable sets of filter response characteristics (e.g., associated with the first and second communication protocols). A filter control module may be adapted to select a set of filter response characteristics from a plurality of such sets and program the shared filter to filter a communication signal in accordance with the selected set. | 05-17-2012 |
20120133455 | Method and System for Generating Quadrature Signals Utilizing an On-Chip Transformer - Aspects of a method and system for generating quadrature signals utilizing an on-chip transformer are provided. In this regard, a pair of phase-quadrature signals may be generated from a single-phase signal via a transformer, one or more variable capacitors, and one or more variable resistors integrated on-chip. The transformer may comprise a plurality of loops fabricated in a plurality of metal layers in the chip. Each of the one or more variable capacitors may comprise a configurable capacitor bank and each of the one or more variable resistors may comprise a configurable resistor bank. The one or more capacitor banks may be programmatically configured on-chip, based on a frequency of the single-phase signal. The one or more resistor banks may be programmatically configured on-chip, based on a frequency of said single-phase signal. | 05-31-2012 |
20120156989 | Frequency Shifting Repeater - Aspects of a method and system for frequency control in a frequency shifting repeater are provided. In this regard, a reference frequency may be divided to generate a first pair of local oscillator (LO) signals, the first pair of LO signals may be divided to generate a second pair of LO signals. The two pairs of LO signals may be utilized to frequency shift a received signal for repeating the signal on a different frequency. The frequency shifted signal may be generated by down-converting the received signal utilizing the first pair of LO signals, up-converting the down-converted signal utilizing the second pair of LO signals, and combining the resulting up-converted signals. The reference frequency may be divided by a first scaling factor to generate the first pair of LO signal which, in turn, may be divided by a second scaling factor to generate the second pair of LO signals. | 06-21-2012 |
20120159023 | Method and System for Inter-PCB Communications with Wireline Control - Aspects of a method and system for inter-PCB communications with wireline control may include setting up a microwave communication link between a first PCB and a second PCB via a wireline communication bus. The initialization may comprise adjusting beamforming parameters of a first antenna array communicatively coupled to the first PCB, and of a second antenna array communicatively coupled to the second PCB. The first PCB and the second PCB may communicate data via the microwave communication link. The microwave communication link may be routed via one or more relay PCBs, when the first PCB and the second PCB cannot directly communicate satisfactorily. Control data may be transferred between the first PCB, the second PCB, and/or the one or more relay PCBs, which may comprise one or more antennas. The relay PCBs may be dedicated relay PCBs or multi-purpose transmitter/receivers. | 06-21-2012 |
20120164963 | Method and System for Software Defined Power Amplifier for Multi-Band, Multi-Standard Applications - Methods and systems for a software defined power amplifier for multi-band, multi-standard applications are disclosed and may comprise configuring a single programmable output stage of a multi-band, multi-standard transmitter to handle transmission of a signal according to multiple wireless communication protocols and frequency ranges. The output stage may be configured by coupling a power amplifier (PA) within the programmable output stage to a switch or a duplexer, which may be coupled to one or more of multiple antennas, each of which may handle signals in a different frequency range. Each antenna may be impedance matched with the power amplifier using transformers, and may be coupled by activating at least one integrated transistor. The PA may be biased to operate in one of a plurality of classes of operation comprising Class A, AB, C and F associated with the wireless communication protocols, which may comprise EDGE, GSM, WCDMA and wireless LAN. | 06-28-2012 |
20120169432 | IC Package With Embedded Filters - Methods and systems for filters embedded in an integrated circuit package are disclosed and may include controlling filtering of signals within an integrated circuit via one or more filter components embedded within a multi-layer package bonded to the integrated circuit. The one or more filter components may be electrically coupled to one or more switchable capacitors within the integrated circuit. The filter components may include transmission line devices, microstrip filters, transformers, surface mount devices, inductors, and/or coplanar waveguide filters. The filter components may be fabricated utilizing metal conductive layers and/or ferromagnetic layers deposited on and/or embedded within the multi-layer package. The integrated circuit may be electrically coupled to the multi-layer package utilizing a flip-chip bonding technique. | 07-05-2012 |
20120170634 | Receiver with On-Demand Linearity - Aspects of a method and system for on-demand linearity in a receiver are provided. In this regard, in a receiver such as on-chip receiver, a strength of a signal received by one or more antennas may be measured and linearity of the receiver may be controlled in response to the measured signal strength. The linearity may be controlled based on signal strength of in-band and/or out-of-band signals and by configuring component(s) of the receiver. Exemplary components may comprise one or more filter, amplifier, mixer, analog-to-digital converter, feedback loop, and equalizer and/or post corrector. Linearity may be increased, by switching one or more feedback loops and/or an equalizers and/or post correctors into a signal path of the receiver. Power consumption may be decreased, at the expense of reduced linearity, by switching one or more feedback loops and/or an equalizers and/or post correctors out of a signal path of the receiver. | 07-05-2012 |
20120173601 | Configurable Filter Using a Transmission Line as a Delay Line - Methods and systems for a configurable finite impulse response (FIR) filter using a transmission line as a delay line are disclosed and may include selectively coupling one or more taps of a multi-tap transmission line to configure delays for one or more finite impulse response (FIR) filters to enable transmission and/or reception of signals. The delays may be configured based on a location of the one or more selectively coupled taps on the multi-tap transmission line. The FIR filters, which may include one or more stages, may be impedance matched to the selectively coupled taps. The multi-tap transmission line may be integrated on the chip, or a package to which the chip is coupled. The multi-tap transmission line may include a microstrip structure or a coplanar waveguide structure, and may include ferromagnetic material. The distortion of signals in the chip may be compensated utilizing the FIR filters. | 07-05-2012 |
20120178372 | Method And System For Portable Data Storage With Integrated 60 Ghz Radio - Aspects of a method and system for portable data storage with an integrated 60 GHz radio may include establishing a microwave communication link between a wireless portable storage device and a wireless transmitter and/or wireless receiver. Beamforming parameters of a first antenna array coupled to said wireless portable storage device and a second antenna array coupled to said wireless transmitter and/or wireless receiver may be adjusted automatically and/or dynamically. The wireless portable storage and the wireless transmitter and/or wireless receiver may exchange data via said first antenna array and said second antenna array. A secondary wireless communication link may be established to initialize the establishing of the microwave communication link. The secondary wireless communication link may be established via Bluetooth protocol. The wireless portable storage and the wireless transmitter and/or wireless receiver may receive and transmit in the 60 GHz frequency band. | 07-12-2012 |
20120178395 | Dynamic Impedance Matching with LNA - Aspects of a method and system for LNA adjustment to compensate for dynamic impedance matching are provided. In this regard, an antenna matching network may be configured to maximize received signal strength for a determined frequency and an amplifier gain may be adjusted based on the maximized signal strength such that output levels of the amplifier are between specified limits. The antenna matching network may be programmatically controlled via one or more switching elements. The amplifier gain may be programmatically controlled via one or more bias points. The antenna matching network may be configured for a plurality of frequencies in a frequency band, such as an FM broadcast band, and a configuration for each frequency may be stored. Accordingly, when the receiver is tuned to a frequency, a corresponding configuration may be retrieved from memory. | 07-12-2012 |
20120182127 | Method and System for Identifying Radio Frequency Identification (RFID) Tag Location Using a Switchable Coil - Aspects of a method and system for identifying a radio frequency identification (RFID) tag location using a switchable coil are presented. Aspects of the systems may include one or more processors that enable selection of an inductor coil from a plurality of inductor coils. The selection of the inductor coil may be based on a change in an electromagnetic field, with respect to an initial electromagnetic field, as detected by the selected inductor coil. The processors may enable transmission of a signal, having a transmitter frequency in the UHF frequency band, via the selected inductor coil. | 07-19-2012 |
20120184225 | MEMS and Switched Capacitors Configured for Increased Resolution Switching - Certain aspects of a method and system for increased resolution switching using MEMS and switched capacitors may include a mobile terminal that includes an integrated circuit bonded to a multi-layer package. A capacitance of a first switched capacitor array in the multi-layer package may be tuned via one or more MEMS switches integrated in and/or on the multi-layer package. A capacitance of a second switched capacitor array in the integrated circuit may be tuned via one or more NMOS switches. A plurality of signals may be transmitted and/or received via one or more antennas in the mobile terminal. | 07-19-2012 |
20120190411 | Wireless Communications Chip with Multi-Port Distributed Antenna - Methods and systems for power combining in a multi-port distributed antenna are disclosed and may include power combining signals from power amplifiers (PAs) on a chip. The PAs may be coupled to a single distributed antenna via antenna ports. A phase of each of the signals may be matched at the antenna ports via phase-matching circuitry. A characteristic impedance may be configured at the ports based on a location of the ports. The PAs may be impedance matched to the antenna ports via impedance matching elements. A power level of the power-combined signals may be monitored via a power detector coupled to the distributed antenna. The power detector may include an envelope detector, such as a diode. The antenna may be integrated on the chip or may be located external to the chip. The signals may include RF signals and the antenna may include a microstrip antenna. | 07-26-2012 |
20120202562 | System and Method Providing Concurrent Multimode Communication - A system and method providing concurrent multimode communication through multimode signal multiplexing. Various aspects of the present invention may comprise, during a first time period, transmitting a first portion of a first communication in a first communication mode in a serial wireless transmission stream. During a second time period after the first time period, a first portion of a second communication may be transmitted in a second communication mode in the serial wireless transmission stream. Also, during a third time period after the second time period, a second portion of the first communication may be transmitted in the first communication mode in the serial wireless transmission stream. In an exemplary scenario, prior to communicating various communications, transmission time may be allocated between the first and second communication modes. In another exemplary scenario, transmission may be switched between a plurality of communication modes in response to detected communication conditions. | 08-09-2012 |
20120212244 | Test Board and Method of Using Same - A test board is provided. The test board includes a test module configured to accommodate an integrated circuit (IC) device and first wirelessly enabled functional blocks located in the test module and configured to communicate with second wirelessly enabled functional blocks of the IC device. | 08-23-2012 |
20120218161 | Integrated Circuit Package with Configurable Antenna - Aspects of a method and system for a configurable antenna in an integrated circuit package are provided. In a hybrid circuit comprising an integrated circuit bonded to a multi-layer package, one or more antenna parameters may be adjusted by configuring a plurality of antenna elements via one or more switching elements. In this regard, the antenna elements and/or the switching elements may be within and/or on the multi-layer package and/or within the integrated circuit. The switching elements may be MEMS switches on and/or within the IC and/or the multi-layer package. The IC may be bonded or mounted to the underside of the package and signals may be communicated between the IC and the package via one or more solder balls. The IC may comprise suitable logic, circuitry, and/or code for configuring the antenna elements. The antenna elements may be configured based on desired polarization, antenna gain, and/or frequency. | 08-30-2012 |
20120249394 | IC Package with Embedded Phased Array Antenna - Aspects of a method and system for configurable antenna in an integrated circuit package are provided. In this regard, a phased array antenna embedded in a multi-layer integrated circuit (IC) package may be utilized for transmitting and/or receiving signals. An IC enabled to transmit and/or receive signals may be bonded to the multi-layer IC package and may communicate a reference signal and/or one or more phase shifted versions of said reference signal to the antenna. One or more phase shifters (fabricated, for example, in planar transmission line) may be embedded in the multi-layer IC package and may be controlled via an IC bonded to the multi-layer IC package. The phased array antenna may comprise a plurality of antenna elements which may each comprise an interconnection for communicatively coupling to an associated transmitter and/or receiver, a feeder line, a quarter wavelength transformer, and a radiating portion (e.g., a folded dipole). | 10-04-2012 |
20120270517 | Multi-Port Distributed Antenna - Methods and systems for receiving signals via a multi-port distributed antenna are disclosed and may include selectively enabling one or more low noise amplifiers (LNAs) coupled to the antenna. The selective enabling may be based on a desired gain level applied to a signal received from the antenna. The LNAs may be coupled to ports on the antenna based on an input impedance of the LNAs and an impedance of the ports. Each of the LNAs may be configured for optimum linearity in different gain ranges, which may be proportional to the input impedance of the LNAs. The antenna may be integrated on a chip with the LNAs, or may be located external to the chip. The antenna may include a microstrip antenna. The LNAs may include variable gain and may be enabled utilizing a processor. Linearity on demand may be enabled via the selective enabling of the LNAs. | 10-25-2012 |
20120280763 | Processing Signals by Couplers Embedded in an Integrated Circuit Package - Methods and systems for processing signals via directional couplers embedded in a package are disclosed and may include generating via a directional coupler, one or more output RF signals that may be proportional to a received RF signal. The directional coupler may be integrated in a multi-layer package. The generated RE signal may be processed by an integrated circuit electrically coupled to the multi-layer package. The directional coupler may include quarter wavelength transmission lines, which may include microstrip or coplanar structures. The directional coupler may be electrically coupled to one or more variable capacitances in the integrated circuit. The variable capacitance may include CMOS devices in the integrated circuit. The directional coupler may include discrete devices, which may be surface mount devices coupled to the multi-layer package or may be devices integrated in the integrated circuit. The integrated circuit may be flip-chip bonded to the multi-layer package. | 11-08-2012 |
20120293150 | IC Package with Embedded Transformer - Aspects of a method and system for configuring a transformer embedded in a multi-layer integrated circuit package are provided. In this regard, a windings ratio of a transformer embedded in a multi-layer IC package bonded to an IC may be configured, via logic, circuitry, and/or code in the IC, based on signal levels at one or more terminals of the transformer. The transformer may comprise a plurality of inductive loops fabricated in transmission line media. The integrated circuit may be flip-chip bonded to the multi-layer package. The IC may comprise a signal strength indicator enabled to measure signal levels input to or output by the transformer. The windings ratio may be configured via one or more switches in the IC and/or in the multi-layer package. The IC and/or the multi-layer package may comprise ferromagnetic material which may improve magnetic coupling of the transformer. | 11-22-2012 |
20120293264 | Power Control for Linear and Class AB Power Amplifiers - Aspects of a system for improving efficiency over power control for linear and class AB power amplifiers may include a current source circuit that enables determination of a bias current level for a PA circuit within an IC die based on an amplitude of an input modulation signal. The PA circuit may enable generation of an output signal based on a differential input signal and the input modulation signal to the current source circuit. A generated bias voltage may be applied to a transformer external to the IC die, but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels may be applied to the PA circuit wherein the amplifier bias voltage levels may be derived from the generated bias voltage level and/or the determined bias current level. | 11-22-2012 |
20120293266 | Power Amplifiers with Improved Efficiency Over Power Control - Aspects of a system for improving efficiency over power control for linear and class AB power amplifiers may include a current source circuit that enables determination of a bias current level for a PA circuit within an IC die based on an amplitude of an input modulation signal. The PA circuit may enable generation of an output signal based on a differential input signal and the input modulation signal to the current source circuit. A generated bias voltage may be applied to a transformer external to the IC die, but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels may be applied to the PA circuit wherein the amplifier bias voltage levels may be derived from the generated bias voltage level and/or the determined bias current level. | 11-22-2012 |
20120294208 | On-Package Transmit/Receive Switch and Antenna - Methods and systems for an on-chip and/or on-package T/R switch and antenna are disclosed and may include selectively coupling one or more low noise amplifiers (LNAs) and/or one or more power amplifiers (PAs) to one or more ports of a multi-port distributed antenna utilizing configurable transmit/receive (T/R) switches integrated on a chip with the LNAs and PAs. The LNAs and PAs may be impedance matched to the antenna by coupling them to a port based on a characteristic impedance at the port. The T/R switches may be integrated on a package to which the chip may be coupled. The signals transmitted and received by the antenna may be time division duplexed. The antenna, which may include a microstrip antenna, may be integrated on the chip or the package. The LNA and the PA may be coupled to different ports on the antenna via the T/R switches. | 11-22-2012 |
20120294335 | Method and System for Inter-PCB Communication Utilizing a Spatial Multi-Link Repeater - Aspects of a method and system for inter-PCB communication utilizing a spatial multi-link repeater are provided. In this regard, a signal may be transmitted between printed circuit boards via one or more repeaters, wherein the repeaters may frequency shift received signals to generate repeated signals. Each of the repeated signals may be generated by quadrature down-converting said received signal by mixing the received signal with a first LO signal pair, up-converting the down-converted signal by mixing it with a second LO signal pair, and adding or subtracting an in-phase portion and a quadrature-phase portion of the up-converted signal. Each repeated signal may comprise one or more signal components and a phase and/or amplitude of each of the components may be controlled to control a directivity of the repeated signals. The repeater may reside on one of the plurality of printed circuit boards. | 11-22-2012 |
20120295543 | Method And System For Chip-To-Chip Mesh Networks - A wireless device comprising a plurality of chips may be operable to communicate wireless signals via a mesh network comprising a plurality of integrated directional antennas on the plurality of chips. Wireless signals may be communicated between the plurality of the chips and/or with devices external to the wireless device via the mesh network. Beam-formed wireless signals may be communicated via the plurality of integrated directional antennas. The plurality of chips may be integrated on a single package or on a plurality of packages, which may comprise one or more circuit boards. Wireless signals may be communicated with devices external to the single package via the mesh network. The directional antennas may comprise patch antennas and/or dipole antennas. | 11-22-2012 |
20120306717 | Multi-Port Distributed Antenna - Methods and systems for a multi-port distributed antenna are disclosed and may include configuring one or more amplifiers to communicate signals via one or more ports on a distributed antenna. A characteristic impedance of the distributed antenna at each of the one or more ports may be configured by a location of the one or more ports on the distributed antenna. The amplifiers may be impedance matched to the distributed antenna by coupling each of the amplifiers to the ports based on the characteristic impedance. The amplifiers may include power amplifiers and/or low noise amplifiers. The signals may be time division duplexed. The signals communicated via the ports on the distributed antenna may include RF signals. The distributed antenna may be integrated on a chip with the amplifiers or may be located external to a chip with the amplifiers. The distributed antenna may include a microstrip antenna. | 12-06-2012 |
20120313723 | METHOD AND SYSTEM FOR MEMS SWITCHES FABRICATED IN AN INTEGRATED CIRCUIT PACKAGE - Methods and systems for MEMS switches fabricated in an integrated circuit package are disclosed and may include controlling switching of RF components, and signals handled by the RF components, within an integrated circuit. One or more MEMS switch arrays embedded within a multi-layer package bonded to the integrated circuit may be utilized for the switching and signal control. The RF components and one or more MEMS switch arrays may be integrated in the multi-layer package. The RF components may be electrically coupled to the integrated circuit via the one or more MEMS switch arrays. The MEMS switch arrays may be electrostatically or magnetically activated. The RF components may be coupled to one or more capacitor arrays in the integrated circuit. The RF components may include transformers, inductors, transmission lines, microstrip and/or coplanar waveguide filters and/or surface mount devices. The integrated circuit may be coupled to the multiple-layer package utilizing a flip-chip bonding technique. | 12-13-2012 |
20130003244 | Integrated Circuit Package with Transformer - Aspects of a method and system for a transformer in an integrated circuit package are provided. In this regard, signals may be transmitted and/or received via an antenna communicatively coupled to a transformer embedded in multi-layer integrated circuit package. The windings ratio of the transformer may be configured based on an impedance of the antenna, an impedance of a transmitter coupled to the transformer, an impedance of an LNA coupled to the transformer, and/or a power level of the received and/or transmitted signals. The windings ratio may be configured via one or more switching elements which may be MEMS switches embedded in the multi-layer IC package. The transformer may comprise a plurality of loops fabricated on a corresponding plurality of metal layers in the multi-layer IC package, and the loops may be communicatively coupled with one or more vias. The multi-layer IC package may comprise ferromagnetic and/or ferromagnetic materials. | 01-03-2013 |
20130021958 | Method and System for Minimizing Power Consumption in a Communication System - Certain embodiments of the invention may be found in a method and system for minimizing power consumption in a communication system. Exemplary aspects of the invention may comprise configuring a supply voltage of an amplifier to enable communication of data using a first communication protocol during a first timeslot in a TDM frame, reconfiguring the supply voltage of the amplifier to enable communication of data using a different communication protocol, and adjusting the supply voltage of the amplifier in proportion to the envelope of a baseband signal conforming to one of the communication protocols. The first and second communication protocols may conform to various communication protocols, such as WCDMA, HSDPA, HSUDPA, GSM, GPRS, EDGE, WiMAX, OFDM, UWB, ZigBee, and Bluetooth. The baseband signal may be delayed by a number of samples before being input into the amplifier. | 01-24-2013 |
20130023223 | Method and System for Sharing a Single Antenna for Frequency Modulation (FM) Reception or FM Transmission and Near Field Communication (NFC) - Aspects of a method and system for sharing a single antenna for frequency modulation (FM) transmission or FM reception, and near field communication (NFC) are presented. Aspects of a system may include at least one circuit that enables, via a single antenna, simultaneous transmission of an FM signal and transmission of an NFC signal or reception of an NFC signal. | 01-24-2013 |
20130051440 | CONFIGURABLE BASEBAND PROCESSING FOR RECEIVER AND TRANSMITTER AND METHODS FOR USE THEREWITH - A configurable transceiver includes an RF receiver section that generates at least one downconverted signal from a received RF signal. A receiver processing module processes at least one downconverted signal in a plurality of receiver stages to produce a stream of inbound data, wherein the receiver processing module is configurable in response to a control signal to selectively bypass at least one of the plurality of receiver processing stages. A transmitter processing module processes outbound data in a plurality of transmitter stages to produce at least one baseband signal, wherein the receiver processing module is configurable in response to the control signal to selectively bypass at least one of the plurality of transmitter processing stages. An RF transmitter section generates at least one RF signal from the at least one baseband signal. | 02-28-2013 |
20130052953 | DUAL BAND ANTENNA AND METHODS FOR USE THEREWITH - A dual band antenna includes a far field antenna structure for facilitating the communication of first data with a remote device via far field signaling in a millimeter wave band. A near field antenna structure facilitates the communication of second data with a remote device via near field signaling in a near field band. The far field antenna structure and the near field antenna structure share at least one common antenna element. | 02-28-2013 |
20130052970 | RF TRANSCEIVER FRONT-END - An RF transceiver front-end includes receiver and transmitter front-ends. The receiver front-end includes 1 | 02-28-2013 |
20130053112 | ON-CHIP POWER MANAGEMENT FOR A MOBILE COMMUNICATION DEVICE AND METHOD FOR USE THEREWITH - A voice data and RF integrated circuit (IC) includes a memory module that stores a least one application as a plurality of operational instructions, the at least one application having a plurality of power modes that each correspond to one of a plurality of use characteristics. A processing module executes the plurality of operational instructions and that determines a selected one of the plurality of power modes based on current use characteristics of the at least one application, and generates a power mode signal based on the selected one of the plurality of power modes. An on-chip power management circuit receives the power mode signal and that generates a plurality of power supply signals based on the power mode signal. | 02-28-2013 |
20130063324 | ADJUSTABLE INTEGRATED CIRCUIT ANTENNA STRUCTURE - A Radio Frequency (RF) device includes an adjustable antenna structure for coupling to a transmit/receive coupling module. The adjustable antenna structure includes an antenna and a plurality of transmission line elements. At least one of the plurality of transmission line circuit elements is selected, based on a transmission line characteristic signal, to form a transmission line circuit that is coupled to the antenna. | 03-14-2013 |
20130064334 | INTEGRATED CIRCUIT HAVING FREQUENCY DEPENDENT NOISE AVOIDANCE - A clock source generates a first clock signal for clocking a first clocked module and a rate adapting module produces an operation dependent clock signal from the first clock signal for clocking a second clocked module that is rate dependent. The first clock signal has a rate such that frequency dependent noise components associated with the first clock signal are outside a given frequency range that causes adverse performance in the first clocked module. | 03-14-2013 |
20130065524 | Frequency Modulation (FM) Antenna for Near Field Communication (NFC) and Radio Frequency Identification (RFID) - A method for wireless communication is provided and may include configuring at least one capacitor array in an antenna system to control a frequency for receiving external signals. An antenna and at least one inductor in the antenna system may be configured for receiving external signals at a first frequency. An inductor and a voltage source, a capacitor, and/or a ground reference may be configured for receiving the external signals at a different frequency if the frequency is utilized for backscattered signal reception and/or magnetically coupled signal reception. Near field communication (NFC) signals may be received at the different frequency for backscattered signals. Radio frequency identification (RFID) signals may be received at the different frequency for magnetically coupled signals. The first frequency may be within the FM frequency band. The antenna system may be configured to transmit signals to be subsequently received as backscattered signals or magnetically coupled signals. | 03-14-2013 |
20130065532 | Clock Signal Leakage Cancellation in Wireless Systems - Methods and systems for utilizing undersampling for crystal leakage cancellation are disclosed and may include undersampling a composite signal comprising a desired signal and leakage signals due to one or more clock signals. Measured DC signals generated by each of the undersampled signals may be reduced by adjusting the phase and/or amplitude of the clock signals. The undersampling may be performed at one or more of the one or more clock signals, or at integer sub-harmonics of the clock signals. The composite signal may include a signal received by a wireless system or a signal to be transmitted by the wireless system. The undersampled signals may be low-pass filtered. The desired signal may include in-phase and quadrature signals or a polar signal. The undersampling may be performed by one or more sample and hold circuits and the clock signals may be generated utilizing one or more crystal oscillators. | 03-14-2013 |
20130069810 | Variable Resolution Data Conversion in a Receiver - A received plurality of signals may be filtered to select an in-band signal and/or an out-of-band. A signal strength of the selected signal(s) may be measured. A resolution of an analog-to-digital converter may be controlled based on the measured signal strength(s). The selected in-band signal may be converted to a digital representation via the analog-to-digital converter. The resolution may be decreased when the strength of the in-band signal is higher, and increased when the strength of the in-band signal is lower. The resolution may be increased when the strength of the out-of-band signal is higher, and decreased when the strength of the out-of-band signal is lower. A signal-to-noise ratio and/or dynamic range of the selected signal(s) may be determined based on the measured signal strength(s), and may be utilized to adjust the resolution of the analog-to-digital converter. | 03-21-2013 |
20130072138 | Wireless Device with N-Phase Transmitter - Methods and systems for an n-phase transmitter utilizing a leaky wave antenna (LWA) are disclosed and may include transmitting an n-phase wireless signal at a first frequency via the LWA utilizing a plurality of second frequency signals from one or more signal sources, and the second frequency may be lower than the first frequency. Each of the second frequency signals may be configured with a phase difference and may be communicated to the LWA utilizing one or more power amplifiers (PAs). The PAs may be operated in switching mode, thereby generating a square wave. The LWAs may be integrated on the chip, on a package to which the chip is affixed, and/or on a printed circuit board to which the chip is affixed. Square wave signals may be generated utilizing the signal sources. The transmitted wireless signal may be amplitude modulated utilizing a bias voltage applied to the LWAs. | 03-21-2013 |
20130072141 | Integrated Transmitter with On-Chip Power Distribution - Methods and systems for an integrated leaky wave antenna-based transmitter and on-chip power distribution are disclosed, and may include supplying one or more bias voltages and ground for a chip including a plurality of power amplifiers (PAs) utilizing bias voltage and ground lines. One or more leaky wave antennas (LWAs) may be communicatively coupled to the power amplifiers. Wireless signals may be transmitted utilizing the LWAs integrated in the lines in the chip. Radio frequency (RF) signals may be transmitted via the plurality of LWAs. The RF signals may include 60 GHz signals and the LWAs may include microstrip and/or coplanar waveguides. A cavity length of the LWAs may be configured by a spacing between conductive lines in the microstrip and/or coplanar waveguides. The LWAs may be configured to transmit the wireless signals at a desired angle from a surface of the chip. | 03-21-2013 |
20130082363 | Device Having Wirelessly Enabled Functional Blocks - Embodiments described herein provide enhanced integrated circuit (IC) devices. In an embodiment, an IC device includes a substrate, an IC die coupled to a surface of the substrate, a first wirelessly enabled functional block located, on the IC die, the first wirelessly enabled functional block being configured to wirelessly communicate with a second wirelessly enabled functional block located on the substrate, and a ground ring configured to provide electromagnetic shielding for the first and second wirelessly enabled functional blocks. | 04-04-2013 |
20130082379 | SEMICONDUCTOR PACKAGE INCLUDING AN INTEGRATED WAVEGUIDE - Methods and apparatus are disclosed for wirelessly communicating among integrated circuits and/or functional modules within the integrated circuits. A semiconductor device fabrication operation uses a predetermined sequence of photographic and/or chemical processing steps to form one or more functional modules onto a semiconductor substrate. The functional modules are coupled to an integrated waveguide that is formed onto the semiconductor substrate and/or attached thereto to form an integrated circuit. The functional modules communicate with each other as well as to other integrated circuits using a multiple access transmission scheme via the integrated waveguide. One or more integrated circuits may be coupled to an integrated circuit carrier to form Multichip Module. The Multichip Module may be coupled to a semiconductor package to form a packaged integrated circuit. | 04-04-2013 |
20130082403 | Wirelessly Communicating Among Vertically Arranged Integrated Circuits (ICs) in a Semiconductor Package - Methods and apparatus are disclosed for wirelessly communicating among integrated circuits and/or functional modules within the integrated circuits. A semiconductor device fabrication operation uses a predetermined sequence of photographic and/or chemical processing steps to form one or more functional modules onto a semiconductor substrate. The functional modules are coupled to an integrated waveguide that is formed onto the semiconductor substrate and/or attached thereto to form an integrated circuit. The functional modules communicate with each other as well as to other integrated circuits using a multiple access transmission scheme via the integrated waveguide. One or more integrated circuits may be coupled to an integrated circuit carrier to form Multichip Module. The Multichip Module may be coupled to a semiconductor package to form a packaged integrated circuit. | 04-04-2013 |
20130082730 | Passive Probing of Various Locations in a Wireless Enabled Integrated Circuit (IC) - Methods and apparatus are disclosed for wirelessly communicating among integrated circuits and/or functional modules within the integrated circuits. A semiconductor device fabrication operation uses a predetermined sequence of photographic and/or chemical processing steps to form one or more functional modules onto a semiconductor substrate. The functional modules are coupled to an integrated waveguide that is formed onto the semiconductor substrate and/or attached thereto to form an integrated circuit. The functional modules communicate with each other as well as to other integrated circuits using a multiple access transmission scheme via the integrated waveguide. One or more integrated circuits may be coupled to an integrated circuit carrier to form Multichip Module. The Multichip Module may be coupled to a semiconductor package to form a packaged integrated circuit. | 04-04-2013 |
20130082767 | SIGNAL DISTRIBUTION AND RADIATION IN A WIRELESS ENABLED INTEGRATED CIRCUIT (IC) - Methods and apparatus are disclosed for wirelessly communicating among integrated circuits and/or functional modules within the integrated circuits. A semiconductor device fabrication operation uses a predetermined sequence of photographic and/or chemical processing steps to form one or more functional modules onto a semiconductor substrate. The functional modules are coupled to an integrated waveguide that is formed onto the semiconductor substrate and/or attached thereto to form an integrated circuit. The functional modules communicate with each other as well as to other integrated circuits using a multiple access transmission scheme via the integrated waveguide. One or more integrated circuits may be coupled to an integrated circuit carrier to form Multichip Module. The Multichip Module may be coupled to a semiconductor package to form a packaged integrated circuit. | 04-04-2013 |
20130082800 | APPARATUS FOR RECONFIGURING AN INTEGRATED WAVEGUIDE - Methods and apparatus are disclosed for wirelessly communicating among integrated circuits and/or functional modules within the integrated circuits. A semiconductor device fabrication operation uses a predetermined sequence of photographic and/or chemical processing steps to form one or more functional modules onto a semiconductor substrate. The functional modules are coupled to an integrated waveguide that is formed onto the semiconductor substrate and/or attached thereto to form an integrated circuit. The functional modules communicate with each other as well as to other integrated circuits using a multiple access transmission scheme via the integrated waveguide. One or more integrated circuits may be coupled to an integrated circuit carrier to form Multichip Module. The Multichip Module may be coupled to a semiconductor package to form a packaged integrated circuit. | 04-04-2013 |
20130082801 | SIGNAL DISTRIBUTION AND RADIATION IN A WIRELESS ENABLED INTEGRATED CIRCUIT (IC) USING A LEAKY WAVEGUIDE - Methods and apparatus are disclosed for wirelessly communicating among integrated circuits and/or functional modules within the integrated circuits. A semiconductor device fabrication operation uses a predetermined sequence of photographic and/or chemical processing steps to form one or more functional modules onto a semiconductor substrate. The functional modules are coupled to an integrated waveguide that is formed onto the semiconductor substrate and/or attached thereto to form an integrated circuit. The functional modules communicate with each other as well as to other integrated circuits using a multiple access transmission scheme via the integrated waveguide. One or more integrated circuits may be coupled to an integrated circuit carrier to form Multichip Module. The Multichip Module may be coupled to a semiconductor package to form a packaged integrated circuit. | 04-04-2013 |
20130083828 | Method And System For Communicating Via A Spatial Multilink Repeater - Aspects of a method and system for communicating via a spatial multilink repeater are provided. In this regard, a received signal may be frequency shifted to generate a plurality of repeated signals, wherein each repeated signal may be shifted by a different frequency with respect to the received signal. Each repeated signal may comprise one or more signal components and a phase and/or amplitude of each of the components may be controlled to control a directivity of the repeated signals. Each of the repeated signals may be generated by quadrature down-converting said received signal by mixing the received signal with a first LO signal pair, up-converting the down-converted signal by mixing it with a second LO signal pair, and adding or subtracting an in-phase portion and a quadrature-phase portion of the up-converted signal. | 04-04-2013 |
20130088299 | Power Amplifier with Matching Transformer - Aspects of a system for a power amplifier with an on-package matching transformer may include a DC/DC converter that enables generation of a bias voltage level within an IC die based on an amplitude of an input signal to a PA circuit within the IC die. The bias voltage level may be applied to a transformer, which is external to the IC die but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels, derived from the bias voltage level applied to the transformer, may be applied to the PA circuit. | 04-11-2013 |
20130090067 | Communication System with Configurable Capacitors - Methods and systems for a configurable tuned MOS capacitor are disclosed and may include filtering undesired signals in a chip utilizing one or more configurable MOS capacitors comprising one or more MOS transistors. The source and drain terminals of the MOS transistors may be coupled together. The filtering frequencies may be tuned by configuring a resonance frequency of a matching circuit coupled to the source and drain terminals. The matching circuit may include a variable capacitor, which may include an array of binary-weighted addressable capacitors. The addressable capacitors may include MOS transistors. The matching circuit may include a variable inductor such as a multi-tap transmission line, and may be integrated on the chip and/or on a package to which the chip is bonded. A capacitance value of the configurable MOS capacitor may be configured utilizing a bias voltage on the matching circuit. | 04-11-2013 |
20130102360 | VOICE/DATA/RF INTEGRATED CIRCUIT - A Voice-Data-RF IC includes a baseband processing module, an RF section, and an interface module. The baseband processing module converts an outbound voice signal into an outbound voice symbol stream, converts an inbound voice symbol stream into an inbound voice signal, converts outbound data into an outbound data symbol stream, and converts an inbound data symbol stream into inbound data. The interface module provides selective coupling between the baseband processing module, the RF section, and with off-chip circuits. | 04-25-2013 |
20130116016 | Communications Chip with Multi-Port Distributed Antenna - Methods and systems for power combining in a multi-port distributed antenna are disclosed and may include power combining signals from power amplifiers (PAs) on a chip. The PAs may be coupled to a single distributed antenna via antenna ports. A phase of each of the signals may be matched at the antenna ports via phase-matching circuitry. A characteristic impedance may be configured at the ports based on a location of the ports. The PAs may be impedance matched to the antenna ports via impedance matching elements. A power level of the power-combined signals may be monitored via a power detector coupled to the distributed antenna. The power detector may include an envelope detector, such as a diode. The antenna may be integrated on the chip or may be located external to the chip. The signals may include RF signals and the antenna may include a microstrip antenna. | 05-09-2013 |
20130119969 | Utilizing an On-Chip Transformer to Generate Quadrature Signals - Aspects of a method and system for generating quadrature signals utilizing an on-chip transformer are provided. In this regard, a pair of phase-quadrature signals may be generated from a single-phase signal via a transformer, one or more variable capacitors, and one or more variable resistors integrated on-chip. The transformer may comprise a plurality of loops fabricated in a plurality of metal layers in the chip. Each of the one or more variable capacitors may comprise a configurable capacitor bank and each of the one or more variable resistors may comprise a configurable resistor bank. The one or more capacitor banks may be programmatically configured on-chip, based on a frequency of the single-phase signal. The one or more resistor banks may be programmatically configured on-chip, based on a frequency of said single-phase signal. | 05-16-2013 |
20130120079 | Filter Using a Transmission Line as a Delay Line - Methods and systems for a configurable finite impulse response (FIR) filter using a transmission line as a delay line are disclosed and may include selectively coupling one or more taps of a multi-tap transmission line to configure delays for one or more finite impulse response (FIR) filters to enable transmission and/or reception of signals. The delays may be configured based on a location of the one or more selectively coupled taps on the multi-tap transmission line. The FIR filters, which may include one or more stages, may be impedance matched to the selectively coupled taps. The multi-tap transmission line may be integrated on the chip, or a package to which the chip is coupled. The multi-tap transmission line may include a microstrip structure or a coplanar waveguide structure, and may include ferromagnetic material. The distortion of signals in the chip may be compensated utilizing the FIR filters. | 05-16-2013 |
20130122972 | System and Method Providing Low Power Operation in a Multimode Communication Device - A system and method providing low-power operation in a multimode communication device. Various aspects of the present invention may, for example, include at least one radio module that is adapted to communicate in a plurality of communication modes. The at least one radio module may also be adapted to operate in at least a first power-save mode. At least one module may, for example, be adapted to analyze at least one non-informational aspect of a signal (e.g., a received radio signal) to determine whether a first communication network corresponding to a first communication mode of the plurality of communication modes might be available. The at least one module may then, for example, be adapted to determine, based at least in part on the determined availability of the first communication network, whether to operate the at least one radio module in a respective mode other than the first power-save mode. | 05-16-2013 |
20130137425 | SYSTEM AND METHOD PROVIDING CONCURRENT MULTIMODE COMMUNICATION - A system and method providing concurrent multimode communication through multimode signal multiplexing. Various aspects of the present invention may comprise, during a first time period, transmitting a first portion of a first communication in a first communication mode in a serial wireless transmission stream. During a second time period after the first time period, a first portion of a second communication may be transmitted in a second communication mode in the serial wireless transmission stream. Also, during a third time period after the second time period, a second portion of the first communication may be transmitted in the first communication mode in the serial wireless transmission stream. In an exemplary scenario, prior to communicating various communications, transmission time may be allocated between the first and second communication modes. In another exemplary scenario, transmission may be switched between a plurality of communication modes in response to detected communication conditions. | 05-30-2013 |
20130148553 | Wireless Communication Device Capable of Controlling Signal Polarization Based on Channel Conditions - Wireless communication devices are disclosed that are capable of selecting and changing signal polarities depending on channel conditions in order to improve or optimize communication therebetween. When a first polarization direction is deemed inadequate, the devices can switch to communicating via a second polarization. In addition, information relating to received signal qualities in the different polarizations can be stored in each device to allow for quick and efficient exchanges between configurations. Finally, when conditions warrant, the devices can enter a dynamic polarization configuration in which signal polarizations are switched rapidly so as to enjoy benefits of diversity. | 06-13-2013 |
20130154560 | BATTERY WITH INTEGRATED WIRELESS POWER RECEIVER AND/OR RFID - A battery includes one or more rechargeable cells, a wireless power coil, a battery charger circuit, and may further include an RFID module. The wireless power coil is operable to generate an AC voltage from a wireless power electromagnetic field. The battery charger circuit is operable to generate a battery charge voltage from the AC voltage in accordance with a battery charge control signal and, when enabled, to charge the one or more rechargeable cells via the battery charge voltage. If the battery further includes the RFID module, it is operable to generate the battery charge control signal and communicate with a wireless power transmitter device. | 06-20-2013 |
20130154762 | MEMS Switches in an Integrated Circuit Package - Methods and systems for MEMS switches fabricated in an integrated circuit package are disclosed and may include controlling switching of RF components, and signals handled by the RF components, within an integrated circuit. One or more MEMS switch arrays embedded within a multi-layer package bonded to the integrated circuit may be utilized for the switching and signal control. The RF components and one or more MEMS switch arrays may be integrated in the multi-layer package. The RF components may be electrically coupled to the integrated circuit via the one or more MEMS switch arrays. The MEMS switch arrays may be electrostatically or magnetically activated. The RF components may be coupled to one or more capacitor arrays in the integrated circuit. The RF components may include transformers, inductors, transmission lines, microstrip and/or coplanar waveguide filters and/or surface mount devices. The integrated circuit may be coupled to the multiple-layer package utilizing a flip-chip bonding technique. | 06-20-2013 |
20130155023 | DUAL MODE INDUCTIVE TOUCH SCREEN FOR USE IN A CONFIGURABLE COMMUNICATION DEVICE AND METHODS FOR USE THEREWITH - A touch screen can be used in a communication device having a transceiver that communicates radio frequency (RF) signals. The communication device includes an antenna and a programmable antenna interface that couples the antenna to the transceiver. The touch screen includes a display layer for displaying information. An inductor grid includes a plurality of inductive elements. A switch matrix selects an inductive element in response to a selection signal in a first mode of operation, and couples together a group of inductive elements in a second mode of operation. A dual mode driver generates the selection signal and, in the first mode of operation, drives the selected inductive element to detect a touch object in proximity to the selected inductive elements and that generates touch screen data in response thereto. In a second mode of operation, the dual mode driver couples the group of inductive elements to the programmable antenna interface. | 06-20-2013 |
20130157588 | POWER MANAGEMENT UNIT FOR CONFIGURABLE RECEIVER AND TRANSMITTER AND METHODS FOR USE THEREWITH - A configurable transceiver includes an RF receiver that generates a stream of inbound data from at least one received RF signal, wherein the RF receiver is configurable in response to a control signal. An RF transmitter generates at least one RF signal from a stream of outbound data, wherein the RF transmitter section is configurable in response to the control signal. A configuration controller generates the control signal based on channel data. A power management unit generates at least one receiver supply signal and at least on transmitter supply signal in accordance with a plurality of power consumption parameters, and wherein the power management unit adjusts at least one of the plurality of power consumption parameters based on the control signal. | 06-20-2013 |
20130157597 | TRANSMIT POWER MANAGEMENT FOR A COMMUNICATION DEVICE AND METHOD FOR USE THEREWITH - In integrated circuit includes a processing module that determines a selected one of the plurality of power modes based on a function being currently performed by at least one non-transceiver module of a host device, and generates a power mode signal based on the selected one of the plurality of power modes. An RF transmitter generates a transmit signal at a selected one of the plurality of operating power levels based on the power mode signal and that operates from at least one transmitter power supply signal generated and selected by a power management circuit in response to the power mode signal. | 06-20-2013 |
20130169577 | GRAPHICAL AUTHENTICATION FOR A PORTABLE DEVICE AND METHODS FOR USE THEREWITH - A portable device includes a touch screen that includes a display screen and that generates touch screen data in response to a user's interaction with the touch screen. A processor executes a security application for authenticating the user to the portable device that provides first display data to the touch screen for displaying a security prompt on the display screen. Touch screen data is received from the touch screen in response to the user's interaction with the touch screen and is processed to determine when an authentication shape is recognized as being indicated by the touch screen data. The user is authenticated to the portable device when the authentication shape is recognized as being indicated by the touch screen data. | 07-04-2013 |
20130171933 | INTEGRATED CIRCUIT WITH MILLIMETER WAVE AND INDUCTIVE COUPLING AND METHODS FOR USE THEREWITH - A circuit includes a plurality of integrated circuits or dies having corresponding circuits, the plurality of integrated circuits or dies include a first plurality of integrated circuits or dies having corresponding millimeter wave interfaces and a second plurality of integrated circuits or dies having corresponding inductive interfaces. The first plurality of integrated circuits or dies communicate first signals therebetween via the corresponding millimeter wave interfaces and the second plurality of integrated circuits or dies communicate second signals therebetween via the corresponding inductive interfaces. | 07-04-2013 |
20130172046 | MULTIBAND COMMUNICATION DEVICE FOR USE WITH A MESH NETWORK AND METHODS FOR USE THEREWITH - A communication device includes an RF transceiver for communicating first data with at least one of a plurality of remote communication devices via a first protocol and a first frequency band. A millimeter wave transceiver communicates second data with at least one of the plurality of remote communication devices via a second protocol and a second frequency band. A communication control module coordinates the communication of the first data and the second data with the at least one of the plurality of remote communication devices and for establishing a mesh network between the communication device and the plurality of remote communication devices. | 07-04-2013 |
20130183911 | CONFIGURABLE ANTENNA STRUCTURE - A configurable antenna structure includes a plurality of switches, a plurality of antenna components, and a configuration module. The configuration module is operable to configure the plurality of switches and the plurality of antenna components into a first antenna for receiving a multiple frequency band multiple standard (MFBMS) signal. The configuration module continues processing by identify a signal component of interest of a plurality of signal components of interest within the MFBMS signal. The configuration module continues processing by configuring the plurality of switches and the plurality of antenna components into a second antenna. | 07-18-2013 |
20130191567 | Wireless Bus for Intra-Chip and Inter-Chip Communication, Including Data Center/Server Embodiments - Embodiments of the present invention are directed to a wire-free data center/server. The data center/server is wire-free in the sense that communication within a data unit of the data center/server (i.e., intra-data unit), between data units of the data center/server (inter-data unit), and between the data units and the backplane of the data center/server is performed wirelessly. | 07-25-2013 |
20130225109 | On-Demand Signal Notching in a Receiver - Aspects of a method and system for on-demand signal notching in a receiver. In this regard, signal strength measurements of a received signal may enable detection of unwanted signal component(s) and one or more filters in an on-chip receiver may be configured in response to the measurements. The filter(s) may additionally be configured based on power consumption of the filter(s). Signal measurements and/or the corresponding configuration may be performed real-time. The filter(s) may be configured such that a notch in a frequency response of the filter(s) is centered at or near the unwanted component. In this manner, the unwanted component(s) may be filtered out. The filter(s) may be configured, for example, by switching one or more filter stages and/or components into and/or out of a signal path and/or by tuning one or more variable circuit elements within the filter(s). | 08-29-2013 |
20130225224 | INDEPENDENT POWER CONSUMPTION MANAGEMENT IN A MIMO TRANSCEIVER AND METHOD FOR USE THEREWITH - An integrated circuit (IC) includes a multi-input multi-output transceiver system that includes a plurality of RF transceivers. Each RF transceiver includes an RF transmitter that transmits a transmit signal at a selected transmit power, based on a transmit power control signal and a corresponding RF receiver for receiving a corresponding one of a plurality of received signals from an external device and for generating a signal strength indication corresponding to each of the plurality of received signals. A processing module generates the transmit power control signal for each RF transmitter based on the signal strength indication of the corresponding RF receiver, and that generates a power mode signal for adjusting a power consumption parameter of each RF transmitter in accordance with the selected transmit power for each RF transmitter. | 08-29-2013 |
20130229066 | WIRELESS POWER SYSTEM WITH SELECTABLE CONTROL CHANNEL PROTOCOLS - A wireless power system includes a wireless power transmit and receive units. The wireless power transmit unit includes a wireless power transmit circuit that generates a wireless power magnetic field and a transmit unit transceiver that transceives a communication regarding the wireless power magnetic field in accordance with a control channel protocol. The wireless power receive unit includes a wireless power receive circuit, a transceiver, and a processing module. The wireless power receive circuit converts the wireless power magnetic field into a voltage. The receive unit processing module is operable to: identify the control channel protocol; determine whether the receive unit transceiver is capable of communication using the control channel protocol; and, when the receive unit transceiver is capable of communication using the control channel protocol, coordinate configuration of the receive unit transceiver to transceive the communication regarding the wireless power magnetic field via the control channel. | 09-05-2013 |
20130229264 | MULTI-MODE RFID TAG ARCHITECTURE - A multi-mode RFID tag includes a power generating and signal detection module, a baseband processing module, a transmit section, a configurable coupling circuit, and an antenna section. In near field mode, the configurable coupling circuit is operable to couple the transmit section to a coil or inductor in the configurable coupling circuit to transmit an outbound transmit signal using electromagnetic or inductive coupling to an RFID reader. In far field mode, the configurable coupling circuit is operable to couple the transmit section to the antenna section, and the multi-mode RFID tag then utilizes a back-scattering RF technology to transmit the outbound transmit signal to RFID readers. | 09-05-2013 |
20130237163 | Smart Antenna Utilizing Leaky Wave Antennas - Methods and systems for a smart antenna utilizing leaky wave antennas (LWAs) are disclosed and may include a programmable polarization antenna including one or more pairs of LWAs configured along different axes. One or more pairs of leaky wave antennas may be configured to adjust polarization and/or polarity of one or more RF signals communicated by the programmable polarization antenna. RF signals may be communicated via the configured programmable polarization antenna utilizing the configured one or more pairs of the leaky wave antennas. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The polarization and/or polarity may be configured utilizing switched phase modules. The LWAs may include microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on spacing between conductive lines in the waveguides. The LWAs may be integrated in one or more integrated circuits, packages, and/or printed circuit boards. | 09-12-2013 |
20130237166 | Amplitude Modulation Utilizing a Leaky Wave Antenna - Methods and systems for amplitude modulation using a leaky wave antenna are disclosed and may include amplitude modulating an output of one or more power amplifiers in a wireless device by modulating a bias current in the power amplifiers that are coupled to one or more leaky wave antennas. The leaky wave antennas may include a balun that may be integrated on the chip, on a package to which the chip may be affixed, and/or integrated on a printed circuit board to which the chip may be affixed. An output power of the power amplifiers may be adjusted by configuring a bias voltage on the leaky wave antennas. The bias voltage may be configured utilizing a DC to DC voltage controller. The bias current may be modulated via one or more switched current sources. The switched current sources may be binary weighted and/or may be current mirrors. | 09-12-2013 |
20130244573 | Frequency Control in a Frequency Shifting Repeater - Aspects of a method and system for frequency control in a frequency shifting repeater are provided. In this regard, a reference frequency may be divided to generate a first pair of local oscillator (LO) signals, the first pair of LO signals may be divided to generate a second pair of LO signals. The two pairs of LO signals may be utilized to frequency shift a received signal for repeating the signal on a different frequency. The frequency shifted signal may be generated by down-converting the received signal utilizing the first pair of LO signals, up-converting the down-converted signal utilizing the second pair of LO signals, and combining the resulting up-converted signals. The reference frequency may be divided by a first scaling factor to generate the first pair of LO signal which, in turn, may be divided by a second scaling factor to generate the second pair of LO signals. | 09-19-2013 |
20130252566 | Integrated Voltage Controlled Oscillator-Based Transmitter - Methods and systems for an integrated voltage controlled oscillator (VCO)-based transmitter and on-chip power distribution network are disclosed and may include supplying bias voltages and/or ground to a chip utilizing conductive lines. One or more VCOs and low-noise amplifiers (LNAs) may each be coupled to a leaky wave antenna (LWA) integrated in the bias voltage and/or ground lines. One or more clock signals may be generated utilizing the VCOs, which may be transmitted from the LWAs coupled to the VCOs, to the LWAs coupled to the LNAs. RF signals may be transmitted via the LWAs, and may include 60 GHz signals. The LWAs may include microstrip and/or coplanar waveguides, where a cavity length of the LWAs may be dependent on a spacing between conductive lines in the waveguides. The LWAs may be dynamically configured to transmit the clock signals at a desired angle from a surface of the chip. | 09-26-2013 |
20130259143 | System and Method for Receiving I and Q RF Signals without a Phase Shifter - Methods and systems for receiving in-phase and quadrature (I and Q) radio frequency (RF) signals without a phase shifter utilizing a leaky wave antenna are disclosed and may include generating in-phase and quadrature signals using a leaky wave antenna coupled to one or more low-noise amplifiers (LNAs) on a chip and without a phase shifter. The RE I and Q signals may be communicated from the single leaky wave antenna using coplanar feed points and/or feed points on a top surface and a bottom surface of the single leaky wave antenna. The leaky wave antennas may be integrated on the chip, on a package to which the chip is affixed, and/or on a printed circuit board to which the chip is affixed. The RF I and Q signals may be amplified by the one or more LNAs and may down-convert the RF I and Q signals to baseband signals. | 10-03-2013 |
20130260708 | POWER RECOVERY CIRCUIT BASED ON PARTIAL STANDING WAVES - A power recovery system includes a transmission line that is coupled to transfer an RF signal received via an antenna. The RF signal generates a partial standing wave in the transmission line and the transmission line has at least one standing wave anti-node. A power recovery circuit converts an anti-node signal from the at least one standing wave anti-node to a power signal. | 10-03-2013 |
20130260775 | VOICE DATA RF GPS INTEGRATED CIRCUIT - An integrated circuit (IC) includes a baseband processing module, a GPS receiver, and an RF section. The baseband processing module is coupled to process voice signals and data signals. The global positioning satellite (GPS) receiver module is coupled to process GPS signals. The radio frequency (RF) section id coupled to: transceive the voice signals as RF voice signals; transceive the data signals as RF data signals; and convert GPS RF signals into the GPS signals. | 10-03-2013 |
20130278339 | Power Control for Power Amplifiers - Aspects of a system for improving efficiency over power control for linear and class AB power amplifiers may include a current source circuit that enables determination of a bias current level for a PA circuit within an IC die based on an amplitude of an input modulation signal. The PA circuit may enable generation of an output signal based on a differential input signal and the input modulation signal to the current source circuit. A generated bias voltage may be applied to a transformer external to the IC die, but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels may be applied to the PA circuit wherein the amplifier bias voltage levels may be derived from the generated bias voltage level and/or the determined bias current level. | 10-24-2013 |
20130278340 | Power Amplifiers with Improved Power Control - Aspects of a system for improving efficiency over power control for linear and class AB power amplifiers may include a current source circuit that enables determination of a bias current level for a PA circuit within an IC die based on an amplitude of an input modulation signal. The PA circuit may enable generation of an output signal based on a differential input signal and the input modulation signal to the current source circuit. A generated bias voltage may be applied to a transformer external to the IC die, but internal to an IC package containing the IC die and/or a circuit board containing the IC package. One or more amplifier bias voltage levels may be applied to the PA circuit wherein the amplifier bias voltage levels may be derived from the generated bias voltage level and/or the determined bias current level. | 10-24-2013 |
20130281037 | System for Tuning an Antenna Using Injection - A method for wireless communication includes adding a received DVB-H signal with a reference oscillator signal to generate an added DVB-H signal. The reference oscillator signal may be added at an input of a matching load. The matching load may be used to tune a wireless antenna that receives the received DVB-H signal based on a received signal strength indicator (RSSI) associated with the added DVB-H signal. The reference oscillator signal may be generated, and the generated reference oscillator signal may be amplified. The added DVB-H signal may be amplified subsequent to the adding. The RSSI associated with the added DVB-H signal may be determined. The tuning may occur during receiving of a preamble of a packet for the received DVB-H signal. | 10-24-2013 |
20130288631 | Wireless Communication Using Multi-Port Distributed Antenna - Methods and systems for receiving signals via a multi-port distributed antenna are disclosed and may include selectively enabling one or more low noise amplifiers (LNAs) coupled to the antenna. The selective enabling may be based on a desired gain level applied to a signal received from the antenna. The LNAs may be coupled to ports on the antenna based on an input impedance of the LNAs and an impedance of the ports. Each of the LNAs may be configured for optimum linearity in different gain ranges, which may be proportional to the input impedance of the LNAs. The antenna may be integrated on a chip with the LNAs, or may be located external to the chip. The antenna may include a microstrip antenna. The LNAs may include variable gain and may be enabled utilizing a processor. Linearity on demand may be enabled via the selective enabling of the LNAs. | 10-31-2013 |
20130301519 | Wireless Clock Distribution - Aspects of a method and system for 60 GHz wireless clock distribution may include configuring a microwave communication link established between a first chip and a second chip via a wireline communication bus. The configuration may comprise adjusting beamforming parameters of a first antenna array communicatively coupled to the first chip, and of a second antenna array communicatively coupled to the second chip. The first chip and the second chip may communicate a clock signal via said microwave communication link. The microwave communication link may be routed via one or more relay chips, when the first chip and the second chip cannot directly communicate. Control data may be transferred between the first chip, the second chip, and/or the one or more relay chips, which may comprise one or more antennas. The relay chips may be dedicated relay ICs or multi-purpose transmitter/receivers. | 11-14-2013 |
20130303079 | Repeater With Gain Control And Spatial Isolation - A repeater device may be utilized to enable forwarding extreme high frequency (EHF) communication between EHF-enabled wireless devices. The repeater device may utilize spatial isolation to prevent and/or reduce interference between received and transmitted EHF RF signals, wherein reception and/or transmission of EHF RF signals in the repeater device may be performed via narrow beams that may enable minimal interference by transmit EHF RF signals to reception of EHF RF. The repeater device may utilize phased arrays to enable performing beamforming, and signal processing operations, including shift and/or amplitude adjustment, may be performed on signals received and/or transmitted via antenna elements in the phased arrays to enable beamforming during reception and transmission of EHF RF signals, Signal processing operations performed in the repeater device may be modifiable to enable continued spatial isolation between receive and transmit EHF RF signal in the repeater device. | 11-14-2013 |
20130308502 | Wireless Device with Multi-Port Distributed Antenna - Methods and systems for an on-chip and/or on-package T/R switch and antenna are disclosed and may include selectively coupling one or more low noise amplifiers (LNAs) and/or one or more power amplifiers (PAs) to one or more ports of a multi-port distributed antenna utilizing configurable transmit/receive (T/R) switches integrated on a chip with the LNAs and PAs. The LNAs and PAs may be impedance matched to the antenna by coupling them to a port based on a characteristic impedance at the port. The T/R switches may be integrated on a package to which the chip may be coupled. The signals transmitted and received by the antenna may be time division duplexed. The antenna, which may include a microstrip antenna, may be integrated on the chip or the package. The LNA and the PA may be coupled to different ports on the antenna via the T/R switches. | 11-21-2013 |
20130311127 | Identifying Defective Components on a Wafer Using Component Triangulation - Methods and apparatus are disclosed to simultaneously, wirelessly test semiconductor components formed on a semiconductor wafer. The semiconductor components transmit respective outcomes of a self-contained testing operation to wireless automatic test equipment via a common communication channel. Multiple receiving antennas observe the outcomes from multiple directions in three dimensional space. The wireless automatic test equipment determines whether one or more of the semiconductor components operate as expected and, optionally, may use properties of the three dimensional space to determine a location of one or more of the semiconductor components. The wireless testing equipment may additionally determine performance of the semiconductor components by detecting infrared energy emitted, transmitted, and/or reflected by the semiconductor wafer before, during, and/or after a self-contained testing operation. | 11-21-2013 |
20130316760 | FRONT-END MODULE NETWORK FOR FEMTOCELL APPLICATIONS - A wireless communication device includes a front-end module (FEM) network, an RF connection, and a system on a chip (SOC). A first set of FEMs is operable to output, via an antenna, a first outbound RF signal to a first wireless communication device and receive a first inbound RF signal via an antenna. A second set of FEMs is operable to output, via an antenna, a second outbound RF signal to a second wireless communication device, wherein the second outbound RF signal is representative of the first inbound RF signal, and receive a second inbound RF signal via an antenna, wherein the first outbound RF signal is representative of the second inbound RF signal. The SOC is operable to activate the first and second sets of FEMs, facilitate the first outbound RF signal representing the second inbound RF signal, and facilitate the second outbound RF signal representing the first inbound RF signal. | 11-28-2013 |
20130324066 | Dynamic Impedance Matching in Wireless Communications - Aspects of a method and system for LNA adjustment to compensate for dynamic impedance matching are provided. In this regard, an antenna matching network may be configured to maximize received signal strength for a determined frequency and an amplifier gain may be adjusted based on the maximized signal strength such that output levels of the amplifier are between specified limits. The antenna matching network may be programmatically controlled via one or more switching elements. The amplifier gain may be programmatically controlled via one or more bias points. The antenna matching network may be configured for a plurality of frequencies in a frequency band, such as an FM broadcast band, and a configuration for each frequency may be stored. Accordingly, when the receiver is tuned to a frequency, a corresponding configuration may be retrieved from memory. | 12-05-2013 |
20130328739 | RF Power Conversion to DC Power with a Leaky Wave Antenna - Methods and systems for converting RF power to DC power utilizing a leaky wave antenna (LWA) are disclosed and may include receiving RF wireless signals utilizing one or more LWAs in a wireless device, and generating one or more DC voltages from the received RF signals utilizing cascaded rectifier cells. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. The LWAs may be configured to receive the RF signals from a desired direction. The LWAs may comprise microstrip or coplanar waveguides, wherein a cavity height of the LWAs is dependent on a spacing between conductive lines in the waveguides. The LWAs may be integrated in one or more integrated circuits, integrated circuit packages, and/or printed circuit boards. The packages may be affixed to one or more printed circuit boards and the integrated circuits may be flip-chip-bonded to the packages. | 12-12-2013 |
20130336423 | Transmitter Utilizing a Leaky Wave Antenna - Methods and systems for a sub-harmonic transmitter utilizing a leaky wave antenna are disclosed and may include transmitting wireless signals at a harmonic frequency of a source signal utilizing one or more leaky wave antennas (LWAs) in a wireless device including one or more transceivers on a chip. The LWAs may be configured with a resonant frequency at the harmonic frequency. The source signal may be communicated to the LWAs utilizing a power amplifier, which may be operated in switching mode thereby generating a square wave from the source signal. The LWAs may be integrated on the chip, on a package to which the chip is affixed and/or on a printed circuit board to which the chip is affixed. The harmonic frequency may be three times a frequency of the source signal. The transmitted wireless signal may be amplitude modulated utilizing a bias voltage applied to the LWAs. | 12-19-2013 |
20140027903 | Semiconductor Package Including an Integrated Waveguide - Methods and apparatus are disclosed for wirelessly communicating among integrated circuits and/or functional modules within the integrated circuits. A semiconductor device fabrication operation uses a predetermined sequence of photographic and/or chemical processing steps to form one or more functional modules onto a semiconductor substrate. The functional modules are coupled to an integrated waveguide that is formed onto the semiconductor substrate and/or attached thereto to form an integrated circuit. The functional modules communicate with each other as well as to other integrated circuits using a multiple access transmission scheme via the integrated waveguide. One or more integrated circuits may be coupled to an integrated circuit carrier to form Multichip Module. The Multichip Module may be coupled to a semiconductor package to form a packaged integrated circuit. | 01-30-2014 |
20140043074 | Frequency Tuning Based on Characterization of an Oscillator - Aspects of a method and system for frequency tuning based on characterization of an oscillator are provided. In this regard, a frequency of an oscillator in an integrated circuit may be controlled based on a first digital control word, a frequency of a tuned circuit may be controlled based on a second digital control word, and the second control word may be determined utilizing a mapping between the first control word and the second control word. The frequency of the oscillator and the tuned circuit may be controlled by adjusting a capacitance of the oscillator and tuned circuit, respectively. The mapping may be based on a relationship between the oscillator and the tuned circuit, such as logical and/or mathematical relationship between the capacitance of the oscillator and the capacitance of the tuned circuit and/or the relationship between the frequency of the oscillator and the frequency of the tuned circuit. | 02-13-2014 |
20140045443 | Blocker-Tolerant Wideband Noise-Canceling Receivers - Because of associated disadvantages of narrow-band off-chip radio-frequency (RF) filtering, a mixer-first receiver front-end designed to tolerate blockers with minimal gain compression and noise factor degradation is disclosed. The mixer-first receiver front-end includes two separate down-conversion paths that help to minimize added noise and voltage gain prior to baseband filtering, which are critical factors in eliminating narrow-band off-chip RF filtering. | 02-13-2014 |
20140069783 | Multiple Droplet Liquid MEMS Component - A liquid micro-electro-mechanical system (MEMS) component includes a board, a channel, multiple liquid droplets, and one or more conductive elements. The channel is within the board and contains the multiple liquid droplets. A first liquid droplet has first properties and a second liquid droplet has second properties. When a force is applied upon the first and second liquid droplets, the first liquid droplet changes in accordance with the first properties with respect to the one or more conductive elements and the second liquid droplet changes in accordance with the second properties with respect to the one or more conductive elements thereby changing one or more characteristics of the liquid MEMS component. | 03-13-2014 |
20140070898 | Low Phase Noise Voltage Controlled Oscillators - A voltage controlled oscillator (VCO) with low phase noise and a sharp output spectrum is desirable. The present disclosure provides embodiments of LC tank VCOs that generate output signals with less phase noise compared with conventional LC tank VCOs, while at the same time limiting additional cost, size, and/or power. The embodiments of the present disclosure can be used, for example, in wired or wireless communication systems that require low-phase noise oscillator signals for performing up-conversion and/or down-conversion. | 03-13-2014 |
20140070911 | Liquid MEMS Magnetic Component - A liquid micro-electro-mechanical system (MEMS) magnetic component includes a board, a channel, one or more windings, a magnetizing-doped droplet, and a droplet activating module. The channel is implemented or embedding in one or more layers of the board and the one or more windings are proximally positioned to the channel. The magnetizing-doped droplet is contained in the channel and is modified by the droplet activating module based on the control signal. By modifying the magnetizing-doped droplet with respect to the one or more windings changes an electromagnetic property of the liquid MEMS magnetic component. | 03-13-2014 |
20140070984 | Liquid MEMS Component and RF Applications Thereof - A radio circuit includes a front-end module, a board, a liquid MEMS component, and a coupling component. The front-end module is implemented on at least one integrated circuit (IC) die and includes a variable circuit. The variable circuit is adjustable to facilitate an operational adjustment of the front-end module for a given operational condition of the radio circuit. The board supports the liquid MEMS component and supports, at least indirectly, the at least one IC. The coupling component electrical couples the liquid MEMS component to the variable circuit, wherein, based on a control signal, one or more characteristics of the liquid MEMS component is changed, which adjusts the variable circuit. | 03-13-2014 |
20140071583 | Liquid MEMS Component Responsive to Pressure - A liquid micro-electro-mechanical system (MEMS) component includes a board, a channel frame, a flexible channel side, a liquid droplet, and one or more conductive elements. The channel frame is within the board and mates with the flexible channel side to form a channel within the board. The liquid droplet is contained within the channel. When a pressure is applied to the flexible side, the shape of the liquid droplet is changed with respect to the one or more conductive elements thereby changing an operational characteristic of the liquid MEMS component. | 03-13-2014 |
20140071584 | Liquid MEMS Capacitor - A liquid micro-electro-mechanical system (MEMS) capacitor includes a first capacitor plate, a second capacitor plate, a channel, a dielectric doped droplet, and a droplet activating module. The channel is implemented or embedded in one or more layers of a board and the dielectric doped droplet is contained in the channel. The droplet activating module operable to change the dielectric doped droplet with respect to the first and second capacitive plates, which are proximal to the channel and at a distance from each other, thereby changing a dielectric property of the liquid MEMS capacitor. | 03-13-2014 |
20140073264 | Method And System For Sharing Antennas For High Frequency And Low Frequency Applications - Aspects of a method and system for sharing antennas for high frequency and low frequency applications may include configuring a multi-frequency antenna system by coupling a plurality of antennas together communicatively via one or more frequency-dependent coupling elements. Radio signals may be received and/or transmitted on one or more radio frequencies via said configured multi-frequency antenna system. The one or more frequency-dependent coupling elements may be frequency-tunable, and may comprise microstrips, transmission lines, and/or RLC circuits. The multi-frequency antenna system may be configured for concurrent operation or time-division duplex operation during the transmitting and/or the receiving. The one or more radio frequencies may operate concurrently or in time-division duplex. The radio signals for transmission may be generated in one or more radio frequency front-ends, and the received radio signals may be demodulated in one or more radio frequency front-ends. | 03-13-2014 |
20140073265 | Radio Circuits and Components Thereof Including Temperature Responsive Liquid MEMS - A radio circuit includes an adjustable RF front-end module on an IC die, a liquid MEMS component on a board, and a processing module on the IC die. The adjustable RF front-end module adjusts processing of an inbound or an outbound RF signal based on a compensation control signal. The liquid MEMS component changes an operational characteristic as temperature of the radio circuit varies. The processing module generates the compensation signal based on the changing of the operational characteristic of the liquid MEMS component. The liquid MEMS component includes a channel within the board, a liquid droplet contained within the channel, and one or more conductive elements proximal to the channel. | 03-13-2014 |
20140080425 | Remote Power Distribution - A Method and system for remote power distribution and networking for passive devices is provided. In this regard, a sensor comprising a leaky wave antenna may be powered utilizing energy from a radio frequency signal received via the leaky wave antenna. The sensor may be operable to recover a baseband signal from the received radio frequency signal. The sensor may be operable to generate one or more sensor readings in response to the received baseband signal. The sensor may be operable to communicate the sensor reading to a source of the received radio frequency signal via a backscattered signal. The backscattered signal may be generated by controlling spacing between surfaces of the leaky wave antenna. The backscattered signal may be generated by switching a load in and out of a receive path of the sensor and/or by switching between a plurality of feed points of the leaky wave antenna. | 03-20-2014 |
20140085053 | MULTI-MODE RFID TAG ARCHITECTURE - A multi-mode RFID tag includes a power generating and signal detection module, a baseband processing module, a transmit section, a configurable coupling circuit, and an antenna section. In near field mode, the configurable coupling circuit is operable to couple the transmit section to a coil or inductor in the configurable coupling circuit to transmit an outbound transmit signal using electromagnetic or inductive coupling to an RFID reader. In far field mode, the configurable coupling circuit is operable to couple the transmit section to the antenna section, and the multi-mode RFID tag then utilizes a back-scattering RF technology to transmit the outbound transmit signal to RFID readers. | 03-27-2014 |
20140085126 | Dynamic Range Detection and Positioning Utilizing Leaky Wave Antennas - Methods and systems for dynamic range detection and positioning utilizing leaky wave antennas (LWAs) are disclosed and may include configuring one or more LWAs to enable communication of signals in a particular direction. RF signals that are reflected from an object may be received via the LWAs, and a location of the object may be determined based on the received reflected RF signals. The velocity of the object may be determined based on a Doppler shift associated with the received reflected RF signals. A frequency chirped signal may be transmitted by the LWAs to determine a location of the object. A resonant frequency of the LWAs may be configured utilizing micro-electro-mechanical systems (MEMS) deflection. LWAs may be situated along a plurality of axes in the wireless device. The LWAs may include microstrip or coplanar waveguides, where a cavity height is dependent on spacing between conductive lines in the waveguides. | 03-27-2014 |
20140087676 | On-Chip Distributed Power Amplifier and On-Chip or In-Package Antenna for Performing Chip-To-Chip and Other Communications - A transmitter front-end for wireless chip-to-chip communication, and potentially for other, longer range (e.g., several meters or several tens of meters) device-to-device communication, is disclosed. The transmitter front-end includes a distributed power amplifier capable of providing an output signal with sufficient power for wireless transmission by an on-chip or on-package antenna to another nearby IC chip or device located several meters or several tens of meters away. The distributed power amplifier can be fully integrated (i.e., without using external components, such as bond wire inductors) on a monolithic silicon substrate using, for example, a complementary metal oxide semiconductor (CMOS) process. | 03-27-2014 |
20140099902 | Method And System For Dynamic Link Control For A Chip To Chip Communication System - A wireless device comprising a plurality of chips may be operable to dynamically configure wireless communication between the plurality of chips. Each of the chips may include one or more transceivers and one or more integrated directional antennas communicatively coupled to the one or more transceivers. The communications link between chips in the wireless device may be dynamically configured via control of the transceivers and/or the integrated directional antennas. The antennas may include patch antennas and/or dipole antennas. The transceivers may be configured by controlling output power of power amplifiers or by controlling gain of low noise amplifiers. The communications link may be dynamically configured by controlling a characteristic impedance of the antennas for impedance matching to transceivers. A frequency of the communication link may be controlled by configuring the antennas. A bandwidth of the communications link may be configured based on activity of processors in the wireless device. | 04-10-2014 |
20140117772 | WIRELESS POWER SYSTEM WITH SELECTABLE CONTROL CHANNEL PROTOCOLS - A wireless power system includes a wireless power transmit and receive units. The wireless power transmit unit includes a wireless power transmit circuit that generates a wireless power magnetic field and a transmit unit transceiver that transceives a communication regarding the wireless power magnetic field in accordance with a control channel protocol. The wireless power receive unit includes a wireless power receive circuit, a transceiver, and a processing module. The wireless power receive circuit converts the wireless power magnetic field into a voltage. The receive unit processing module is operable to: identify the control channel protocol; determine whether the receive unit transceiver is capable of communication using the control channel protocol; and, when the receive unit transceiver is capable of communication using the control channel protocol, coordinate configuration of the receive unit transceiver to transceive the communication regarding the wireless power magnetic field via the control channel. | 05-01-2014 |
20140118216 | ADJUSTABLE INTEGRATED CIRCUIT ANTENNA STRUCTURE - An antenna structure of a Radio Frequency (RF) device includes an antenna and a transmission line circuit coupled to the antenna. The transmission line circuit includes a plurality of transmission line circuit elements and a transmission line coupling circuit that couples at least one of the transmission line circuit elements together to form the transmission line circuit based on a transmission line characteristic signal. | 05-01-2014 |
20140127997 | METHOD AND SYSTEM FOR A TRANSCEIVER FOR BLUETOOTH AND NEAR FIELD COMMUNICATION (NFC) - Frequency conversion methods and systems are disclosed for a transceiver for personal area networks (PAN) and near field communication (NFC). NFC data may be received and/or transmitted via the NFC radio and PAN data may be received and/or transmitted via the PAN radio. With an integration of frequency conversion for PAN and NFC, both systems may operate from a single frequency source, thereby reducing part count and power consumption. Communication between PAN and NFC channels may be enabled via a single chip. | 05-08-2014 |
20140141713 | Reflective Beamforming For Performing Chip-To-Chip and Other Communications - A transmitter front-end for wireless chip-to-chip communication, and for other, longer-range (e.g., several meters or several tens of meters) device-to-device communication is disclosed. The transmitter front-end can include a plurality of reflector power amplifiers implemented on an IC chip and an on-chip or on-package antenna for wireless transmitting a signal to another IC chip or device. The plurality of reflector power amplifiers can reflect the radiation of the on-chip or on-package antenna in a particular pattern such that the effective radiation pattern is reinforced in a desired direction and suppressed in an undesired direction. This helps to reduce the required output power of the transmitter front-end and mitigate interference with other potential wireless chip-to-chip or longer-range communications. | 05-22-2014 |
20140152376 | SYSTEMS AND METHODS FOR DISTRIBUTING POWER TO INTEGRATED CIRCUIT DIES - Systems and methods for distributing power to a plurality of integrated circuit dies are provided. In some aspects, a system includes a substrate and a plurality of integrated circuit dies disposed on the substrate. Each of the plurality of integrated circuit dies includes a circuit and a target inductive element coupled to the circuit. The system also includes a power supply module configured to generate a source power signal. The system also includes at least one source inductive element configured to electromagnetically couple the source power signal to one or more of the plurality of the target inductive elements to generate one or more target power signals that supply power to one or more corresponding circuits. | 06-05-2014 |
20140152384 | TRANSMISSION LINE FOR AN INTEGRATED CIRCUIT PACKAGE - Communication between chips is provided using a transmission line. Any one of the chips may tap into the transmission line, and communicate with another chip tapped into the transmission line by transmitting a radio frequency (RF) signal to the other chip via the transmission line or receiving an RF signal from the other chip via the transmission line. The transmission line may include a microstrip transmission line, a waveguide, a stripline transmission line, or another type of transmission line. The chips may use the transmission line to communicate data, control and/or clock signals with one another. | 06-05-2014 |
20140152391 | SYSTEMS AND METHODS FOR MAINTAINING POWER AMPLIFIER PERFORMANCE - Systems and methods for maintaining power amplifier performance are provided. A system includes a bias supply that generates a bias voltage, and at least one primary power amplifier (PA) that receives the bias voltage and a primary radio frequency (RF) input. The at least one primary PA amplifies the primary RF input based on the bias voltage. The system includes an auxiliary PA that is connected in parallel with the at least one primary PA and receives the bias voltage and an auxiliary RF input, which is a scaled version of the primary RF input. The auxiliary PA amplifies the auxiliary RF input based on the bias voltage. The system includes a detector that measures an output voltage associated with the amplified auxiliary RF input, and a comparator that compares the measured output voltage to a reference voltage. The bias supply adjusts the bias voltage based on the comparison. | 06-05-2014 |
20140154999 | WAVEGUIDE FOR INTRA-PACKAGE DATA TRANSFER - An integrated chip (IC) package may include a waveguide that comprises a cavity, a first chip and a second chip. The first chip includes a first radio frequency (RF) transceiver that may be coupled to a first probe that extends into the cavity of the waveguide and/or a first antenna that is positioned over a first opening in the waveguide. The second chip includes a second RF transceiver that may be coupled to a second probe that extends into the cavity of the waveguide and/or a second antenna that is positioned over a second opening in the waveguide. The first and second chips may be configured to communicate with one another exclusively by the first and second RF transceivers transmitting and receiving RF signals through the cavity of the waveguide via the first and second probes and/or the first and second antennas. | 06-05-2014 |
20140155007 | CONFIGURABLE TRANSCEIVER - A configurable transceiver may include a configurable receiver, a configurable transmitter, and a digital signal processor (DSP). One or more components of the configurable receiver and/or the configurable transmitter may be a block that includes an array of components, such as an array of amplifiers, an array of filters, etc. The DSP may determine a configuration of the configurable receiver that satisfies a bit error rate threshold and minimizes power consumption. The DSP may configure the blocks of the configurable receiver in accordance with the determined configuration of the configurable receiver. The DSP may receive an indication of a modulation scheme being used for transmitted data and may determine a configuration of the configurable transmitter for the modulation scheme that satisfies an error vector magnitude threshold and minimizes power consumption. The DSP may configure the blocks of the configurable transmitter in accordance with the determined configuration of the configurable transmitter. | 06-05-2014 |
20140306755 | LOW INDUCTANCE TRANSFORMER - A transformer has first and second transformer windings including multiple differential ports. Each of the first and second transformer windings include a first transformer half-winding coupled to a first differential port of the differential ports. Each of the first and second transformer windings also include a second transformer half-winding coupled to a second differential port of the differential ports. Each of the first and second transformer windings is divided symmetrically at a common node to form the respective first and second transformer half-windings. The first transformer half-winding is configured to form one half of an inductance in each of the first and second transformer windings. The second transformer half-winding is configured to form another half of the inductance in each of the first and second transformer windings. The common node of the first transformer winding is configured to receive a supply voltage. | 10-16-2014 |
20150017938 | CONFIGURABLE TRANSCEIVER - A configurable transceiver may include a configurable receiver, a configurable transmitter, and a digital signal processor (DSP). One or more components of the configurable receiver and/or the configurable transmitter may be a block that includes an array of components, such as an array of amplifiers, an array of filters, etc. The DSP may determine a configuration of the configurable receiver that satisfies a bit error rate threshold and minimizes power consumption. The DSP may configure the blocks of the configurable receiver in accordance with the determined configuration of the configurable receiver. The DSP may receive an indication of a modulation scheme being used for transmitted data and may determine a configuration of the configurable transmitter for the modulation scheme that satisfies an error vector magnitude threshold and minimizes power consumption. The DSP may configure the blocks of the configurable transmitter in accordance with the determined configuration of the configurable transmitter. | 01-15-2015 |
20150055689 | COMMUNICATION DEVICE WITH BEAMFORMING AND METHODS FOR USE THEREWITH - A radio frequency (RF) transceiver includes an RF transmitter that generates a transmit signal to a remote communication device based on outbound data. An RF receiver generates inbound data based on a received signal from the remote communication device. The RF receiver includes a channel equalizer and generates post equalization performance data. A beamform controller generates a plurality of beamforming weights to adjust a beamforming pattern of an antenna array based on the post equalization performance data. | 02-26-2015 |
20150057007 | WIRELESS COMMUNICATION DEVICE WITH SWITCHED POLARIZATION AND METHODS FOR USE THEREWITH - A wireless communication device includes a polarity setting module configured to set a plurality of polarity modes for the wireless communication with the plurality of external devices. The plurality of polarity modes includes selected ones of at least: a first polarity mode, and a second polarity mode. The polarity setting module sets the plurality of polarity modes based on information received from the plurality of external devices. A framing module is configured to generate data for transmission to the plurality of external devices based on the plurality of polarity modes set by the polarity setting module. | 02-26-2015 |
20150065065 | RF TRANSCEIVER WITH ISOLATION TRANSFORMER AND METHODS FOR USE THEREWITH - A radio frequency (RF) transceiver includes an RF transmitter that generates a transmit signal based on outbound data for transmission to a remote communication device in a frequency band. An RF receiver generates inbound data based on a received signal from the remote communication device in the frequency band. An antenna section includes a shared antenna configurable for full-duplex transceiving of the transmit signal and the received signal and a center-tap isolation transformer configurable to isolate the transmit signal from the received signal. | 03-05-2015 |
20150071140 | WIRELESS COMMUNICATION DEVICE WITH THROUGHPUT ALLOCATION AND METHODS FOR USE THEREWITH - A wireless communication device with a plurality of transceivers analyzes a plurality of throughput profiles corresponding to the plurality of transceivers to determine a division of a total throughput into a plurality of individual throughputs corresponding to the plurality of transceivers. Data is transmitted to a remote communication device by allocating data for transmission among the plurality of transceivers based on the plurality of individual throughputs. | 03-12-2015 |
20150072629 | WIRELESS COMMUNICATION DEVICE FRONT END AND DISTRIBUTED ANTENNA SYSTEM - A wireless communication device front end includes power amplifiers, low noise amplifiers, and a distributed antenna system. The distributed antenna system includes antennas and an antenna coupling circuit. The antenna coupling circuit receives an outbound signal of a first wireless communication from a power amplifier and sends first and second components of the outbound signal to first and second antennas. The antenna coupling circuit also receives an inbound signal of a second wireless communication from a third antenna and sends the inbound signal to a low noise amplifier. The third antenna is a distance from the first antenna and from the second antenna such that, in air, the outbound signal is attenuated at the third antenna. | 03-12-2015 |
20150072671 | CONFIGURABLE WIRELESS COMMUNICATION DEVICE WITH CONFIGURABLE FRONT-END - A configurable wireless communication device includes a baseband processing module, a transmitter section, a receiver section, an antenna, transmit/receive isolation circuits, high frequency switches, and a configuration module. The baseband processing module converts outbound data into an outbound symbol stream and converts an inbound symbol stream into inbound data. The transmitter section converts the outbound symbol stream into an outbound signal and the receiver section converts an inbound signal into the inbound symbol stream. The configuration module, in a power combining mode, couples, via a set of high frequency switches, the antenna to a set of transmit/receive isolation circuits, wherein a number of the transmit/receive isolation circuits in the set of transmit/receive isolation circuits is based on a desired combined transmit power. | 03-12-2015 |
20150084708 | Low Phase Noise Voltage Controlled Oscillators - A voltage controlled oscillator (VCO) with low phase noise and a sharp output spectrum is desirable. The present disclosure provides embodiments of LC tank VCOs that generate output signals with less phase noise compared with conventional LC tank VCOs, while at the same time limiting additional cost, size, and/or power. The embodiments of the present disclosure can be used, for example, in wired or wireless communication systems that require low-phase noise oscillator signals for performing up-conversion and/or down-conversion. | 03-26-2015 |
20150085710 | WIRELESS TRANSCEIVER WITH CIRCULATOR-BASED QUADRATURE DUPLEXER AND METHODS FOR USE THEREWITH - A wireless transceiver includes a transmit path configured to generate a radio frequency (RF) transmit signal for transmission via an antenna. A receive path is configured to receive an RF receive signal via the antenna. A circulator-based quadrature duplexer includes an in-phase circulator and a quadrature-phase circulator configured to couple the transmit signal from the transmit path to the antenna while generating a residual transmit signal on the receive path, and to couple the receive signal from the antenna to the receive path. The circulator-based quadrature duplexer promotes cancellation of the residual transmit signal on the receive path. | 03-26-2015 |