Broadcom Corporation, a California Corporation Patent applications |
Patent application number | Title | Published |
20120184331 | 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 RF section converts an inbound RF voice signal into the inbound voice symbol stream, converts the outbound voice symbol stream into an outbound RF voice signal, converts an inbound RF data signal into the inbound data symbol stream, and converts the outbound data symbol stream into an outbound RF data signal. The interface module provides coupling between the baseband processing module, the RF section, and with off-chip circuits. | 07-19-2012 |
20110292883 | TRANSMISSION OF WIDE BANDWIDTH SIGNALS IN A NETWORK HAVING LEGACY DEVICES - A method for generating a preamble of a frame for a wide-bandwidth channel wireless communication begins by generating a legacy carrier detect field. The method continues by generating a channel sounding field, wherein the channel sounding field includes a plurality of tones within the wide-bandwidth channel, wherein a first set of the plurality of tones corresponds to tones of a legacy channel sounding field. The method continues by generating a legacy signal field, wherein, in time, the legacy signal field follows the channel sounding field, which follows the legacy carrier detect field. | 12-01-2011 |
20110028103 | IC WITH A CONFIGURABLE ANTENNA STRUCTURE - An integrated circuit (IC) includes a plurality of antenna elements, a coupling circuit, a control module, and an RF transceiver. The plurality of antenna elements is operable in a frequency range of approximately 55 GHz to 64 GHz. The coupling circuit is operable to couple the plurality of antenna elements into an antenna structure in accordance with an antenna configuration signal. The control module is coupled to generate the antenna configuration signal based on a mode of operation of the IC. The RF transceiver is coupled to convert an outbound symbol stream into an outbound RF signal and to convert an inbound RF signal into an inbound symbol stream in accordance with the mode of operation of the IC, wherein the inbound RF signal is received via the antenna structure and the outbound RF signal is transmitted via the antenna structure. | 02-03-2011 |
20100020887 | Multiple time-base clock for processing multiple satellite signals - An integrated receiver with multiple, independently synchronized clock signals for multiple channel transport stream decoding and delivery substantially implemented on a single CMOS integrated circuit is described. An integrated circuit that services two satellite programs must generate and distribute corresponding time domain clocks to the various components of the integrated circuit. The transport block that receives one or more satellite signals from a demodulating block will extract program clock recover values from each signal being decoded and use these values to produce an error signal or control word that serves as an input to a clock generator. Based upon this input, the clock circuit will produce a corresponding time domain clock for each channel serviced by the integrated circuit. The output of the clock circuit is distributed to the various processing blocks within the integrated circuit that operate upon channel content received and processed by the transport block. | 01-28-2010 |
20090036070 | Multiple die integrated circuit assembly - An integrated circuit (IC) includes a first die, a second die, a packaging substrate, and coupling circuit. The first die includes first circuitry and the second die includes second circuitry. The packaging substrate supports the first and second dies, wherein the first and second dies are stacked with respect to the packaging substrate. The coupling circuit couples the first die to the second die, wherein the first and second circuitry communicate via the coupling circuit. | 02-05-2009 |
20090011735 | RF transmitter with stable on-chip PLL - A phase locked loop (PLL) a phase detector, a charge pump, a loop filter, a controlled oscillator, and a feedback divider. The phase detector is coupled to produce a difference signal based on a difference between phase of a reference oscillation and phase of a feedback oscillation. The charge pump is coupled to convert the difference signal into an up-signal or a down signal. The loop filter coupled to filter the up signal or the down signal to produce a control signal. The controlled oscillator is coupled to generate an output oscillation based on the control signal. The feedback divider is coupled to generate the feedback oscillation from the output oscillation based on a divider value. The loop filter includes a first resistor-capacitor circuit and a second resistor-capacitor circuit. The first resistor-capacitor circuit is calibrated using a first calibration technique and the second resistor-capacitor circuit is calibrated using a second calibration technique. | 01-08-2009 |
20080318632 | Transceiver with selective beamforming antenna array - A multiple mode RF transmitter a baseband section, a transmitter section, and a configurable antenna circuit. The transmitter section is couple to convert a first outbound symbol stream into first outbound RF beamforming signals in accordance with a first beamforming setting and convert a second outbound symbol stream into second outbound RF beamforming signals in accordance with a second beamforming setting. The configurable antenna circuit is coupled to provide a first antenna assembly for transmitting the first outbound RF beamforming signals and provide a second antenna assembly for transmitting the second outbound RF beamforming signals. | 12-25-2008 |
20080318533 | Transceiver with adjustable antenna assembly - An RF transceiver section includes an adjustable antenna assembly, a low noise amplifier module, a down conversion module, an up conversion module, and a power amplifier. The adjustable antenna assembly is configured to provide a receive antenna structure and a transmit antenna structure. The receive antenna structure receives an inbound RF signal having a carrier frequency within a receive frequency band and the transmit antenna structure transmits an outbound RF signal having a carrier frequency within a transmit frequency band. An effective polarization of the receive and/or transmit antenna structure is adjusted based on the inbound RF signal such that, once adjusted, the receive antenna structure has a substantially orthogonal polarization with respect to the transmit antenna structure. | 12-25-2008 |
20080316130 | Adjustable antenna assembly for receive blocking - An RF receiver section includes an adjustable antenna assembly, a low noise amplifier module, and a down conversion module. The adjustable antenna assembly is configured to provide a first receive antenna structure and a second receive antenna structure. The first and second receive antenna structures receive an inbound wide bandwidth RF signal that includes an interferer RF signal component and a desired inbound RF signal component. The effective polarization of at least one of the first and second receive antenna structures is adjusted to reduce signal strength of the interferer RF signal component. | 12-25-2008 |
20080300006 | Multi-mode IC with multiple processing cores - An integrated circuit (IC) includes an RF section, a DSP, and a plurality of processors. The RF section and the DSP process an inbound RF signal to produce inbound data and process outbound data to produce an outbound RF signal. In addition, the DSP converts an outbound analog audio signal into an outbound digital audio signal and converts an inbound digital audio signal into an inbound analog audio signal. A first processor converts the inbound data into the inbound digital audio signal and converts the outbound digital audio signal into the outbound data. A second processor performs a user application that includes at least one of generation of the inbound analog audio signal and generation of the outbound analog audio signal and performs an operating system algorithm to coordinate operation of the user application. | 12-04-2008 |
20080299935 | IC with saw-less RF front-end - An IC includes an RF front end, a down conversion module, an up conversion module, and a local oscillation generating module. The RF front end includes a receive section, a transmit section, and an interference reduction module. The receive section receives an inbound RF signal within a receive frequency band and the transmit section transmits an outbound RF signal within a transmit frequency band. The interference reduction module is coupled to at least one of the receive section and the transmit section and facilitates at least one of: attenuating energy of the outbound RF signal within the receive frequency band based on a transmit local oscillation or a receive local oscillation; and attenuating energy of the inbound RF signal within the transmit frequency band based on the transmit local oscillation or the receive local oscillation. | 12-04-2008 |
20080299930 | IC with multi-mode antenna coupling matrix - An integrated circuit includes a first RF section, a second RF section, a baseband section, and an antenna coupling matrix. The antenna coupling matrix is coupled to: in a first mode, couple the first RF section to a first antenna structure and couple the second RF section to a second antenna structure; in a second mode, couple the first RF section to the first antenna structure and to the second antenna structure; and in a third mode, couple the second RF section to the first antenna structure and to the second antenna structure. | 12-04-2008 |
20080298481 | IC with mixed mode RF-to-baseband interface - An integrated circuit (IC) includes at least one baseband section, at least one radio frequency (RF) section, and an interface module. The interface module is operable to couple the at least one baseband section to the at least one RF section, wherein the interface module includes an analog interface module and a digital interface module. | 12-04-2008 |
20080293447 | RF integrated circuit having an on-chip pressure sensing circuit - An integrated circuit includes a on-chip pressure sensing circuit that generates a pressure signal based on a pressure of the integrated circuit. An RF transceiver generates an outbound RF signal from outbound data and to generate inbound data from an inbound RF signal, based on the pressure signal. | 11-27-2008 |
20080293368 | SHARED LNA AND PA GAIN CONTROL IN A WIRELESS DEVICE - A wireless device includes at least one antenna, a plurality of shared signal path components coupled to the at least one antenna, the plurality of shared signal path components including a shared adjustable gain element, e.g., Low Noise Amplifier (LNA), Power Amplifier (PA), etc., a first wireless interface, e.g. Wireless Local Area Network interface coupled to the plurality of shared signal path components, and a second wireless interface, e.g., Wireless Personal Area Network interface, coupled to the plurality of shared signal path components. During a first operational period, the first wireless interface controls gain of the shared adjustable gain element and during a second operational period that differs from the first operational period, the second wireless network interface controls gain of the shared adjustable gain element. With another embodiment the first wireless interface and/or the second wireless interface each includes shared adjustable gain elements for transmit and receive diversity. | 11-27-2008 |
20080291980 | CANCELLATION OF INTERFERENCE IN A COMMUNICATION SYSTEM WITH APPLICATION TO S-CDMA - Cancellation of interference in a communication system with application to S-CDMA. A relatively straight-forward implemented and computationally efficient approach of selecting a predetermined number of unused codes is used to perform weighted linear combination selectively with each of the input spread signals in a multiple access communication system. If desired, the predetermined number of unused codes is always the same in each implementation. Alternatively, the predetermined number of unused codes is selected from within a reordered code matrix using knowledge that is shared between the two ends of a communication system, such as between the CMs and a CMTS. While the context of an S-CDMA communication system having CMs and a CMTS is used, the solution is generally applicable to any communication system that seeks to cancel narrowband interference. Several embodiments are also described that show the generic applicability of the solution across a wide variety of systems. | 11-27-2008 |
20080285633 | Communication devices with integrated thermal sensing circuit and methods for use therewith - A communication device includes an integrated circuit having an on-chip thermal sensing circuit that generates a temperature signal based on a temperature of the integrated circuit. A processing module processes the temperature signal to generate temperature information that can be transmitted to a remote device or processes the temperature signal to generate control for adjusting transmit and/or receive characteristics of an RF transceiver. | 11-20-2008 |
20080284609 | RF Integrated circuit having an on-chip thermal sensing circuit - An integrated circuit includes a on-chip thermal sensing circuit that generates a temperature signal based on a temperature of the integrated circuit. An RF transceiver generates an outbound RF signal from outbound data and to generate inbound data from an inbound RF signal, based on the temperature signal. | 11-20-2008 |
20080282129 | Operational parameter adaptable LDPC (Low Density Parity Check) decoder - Operational parameter adaptable LDPC (Low Density Parity Check) decoder. A novel means is presented by which LDPC coded signal can be decoded, and any one or more operational parameters can be adjusted during the decoding processing. For example, the original information extracted from a received LDPC coded signal (e.g., log likelihood ratios (LLRs)), can be modified during (or before) the iterative decoding processing performed in accordance with decoding an LDPC coded signal. Such modification of an operational parameter can include any one or combination of scaling, compression (and expansion/decompression), adding an offset to or subtracting an offset from, scaling, rounding, and/or some other modification of an operational parameter. The bit (or variable) edge messages and/or the check edge messages can also undergo modification during decoding processing. In addition, the operational parameter modification can be selective, in that, different modification can be performed to different parameters and/or during different decoding iterations. | 11-13-2008 |
20080282022 | Partially storing software functions that are not expected to change over time in ROM instead of RAM - A technique to identify portions of software that does not change over time, in order to store that portion in ROM, instead of RAM, to reduce RAM size. The smaller RAM conserves space on a chip and consumes less power. The technique allows wireless devices, such as cell phones, to use less RAM. | 11-13-2008 |
20080280656 | Power management unit (PMU) sequencer - A technique to use a power management unit (PMU) sequencer to control switching of a plurality of functional modules between two or more power modes. The PMU sequencer sequences through a hierarchical order of turn-on and turn-off sequences based on dependencies established for each of the functional modules. In addition to the dependencies, turn-on and turn-off delay times are established for each of the functional modules. | 11-13-2008 |
20080280585 | RF receiver front-end and applications thereof - A radio frequency (RF) receiver front-end includes an low noise amplifier (LNA) module, a current domain mixing module, and a buffer module. The LNA module is coupled to amplify an inbound RF signal to produce an amplified inbound RF current signal. The current domain mixing module is coupled to mix the amplified inbound RF current signal with a local oscillation to produce a mixed current signal. The buffer module is coupled to provide a baseband or near baseband voltage signal from the mixed current signal. | 11-13-2008 |
20080280581 | RF receiver with adjustable antenna assembly - A radio frequency (RF) receiver includes an antenna assembly, a low noise amplifier module, a down conversion module, and a baseband processing module. The antenna assembly is coupled to receive an inbound RF signal that includes a first signal component and a second signal component. The antenna assembly adjusts amplitude and/or phase of the first and/or second signal components to produce an adjusted inbound RF signal based on an adjust signal. The low noise amplifier module amplifies the adjusted inbound RF signal to produce an amplified inbound RF signal. The down conversion module converts the amplified inbound RF signal into a first inbound symbol stream corresponding to the first signal component and into a second inbound symbol stream corresponding to the second signal component. The baseband processing module converts the first and second inbound symbol streams into inbound data and to generate the adjust signal. | 11-13-2008 |
20080280574 | RF transmitter with adjustable antenna assembly - A radio frequency (RF) transmitter includes a baseband processing module, an up conversion module, a power amplifier module, and an antenna assembly. The baseband processing module is coupled to convert outbound data into a first outbound symbol stream and a second outbound symbol stream and to generate an adjust signal. The up conversion module is coupled to convert the first outbound symbol stream into a first up converted signal and to convert the second outbound symbol stream into a second up converted signal. The power amplifier module is coupled to amplify the first and second up converted signals to produce first and second outbound RF signals. The antenna assembly is coupled to transmit the first and second outbound RF signals, wherein the antenna assembly adjusts at least one of amplitude and phase of at least one of the first and second outbound RF signals based on the adjust signal. | 11-13-2008 |
20080280571 | RF transceiver with adjustable antenna assembly - A radio frequency (RF) transceiver includes a baseband processing module, a configurable receiver section, a configurable transmitter section and a configurable antenna assembly. The baseband processing module converts outbound data into an outbound symbol stream, converts an inbound symbol stream into inbound data and generates a transmit adjust signal and a receive adjust signal. The receiver section converts an inbound RF signal into the inbound symbol stream. The transmitter section converts the outbound symbol stream into an outbound RF signal. The antenna assembly receives the inbound RF signal via a first antenna structure and transmits the outbound RF signal via a second antenna structure. The first antenna structure and/or the configurable receiver section adjusts phase and/or amplitude of the inbound RF signal in accordance with the receive adjust signal. The second antenna structure and/or the configurable transmitter section adjusts phase and/or amplitude of the outbound RF signal in accordance with the transmit adjust signal. | 11-13-2008 |
20080279264 | High speed data bus for communicating between wireless interface devices of a host device - A circuit includes a first wireless interface circuit that communicates packetized data to a first external device in accordance with a first wireless communication protocol. A second wireless interface circuit communicates packetized data to a second external device in accordance with a second wireless communication protocol. A plurality of signal lines communicate at least four lines of cooperation data between the first wireless interface circuit and the second wireless interface circuit, wherein the cooperation data relates to cooperate transceiving in a common frequency spectrum. | 11-13-2008 |
20080279163 | Cooperative transceiving between wireless interface devices of a host device with acknowledge priority - A wireless communication device includes a host module. A first wireless interface device transmits a first outbound packet in accordance with a first wireless communication protocol at a first power level and a first rate during a first time interval and that transmits a second outbound packet at a second power level and a second rate during a second time interval, wherein the first power level is less than the second power level and wherein the second rate is less than the first rate. A second wireless interface device transceives data between the host module and a second external device during the second time interval in accordance with a second wireless communication protocol. An antenna section provides at least one radio frequency communication path between the first wireless interface device and the first external device and between the second wireless interface device and the second external device. | 11-13-2008 |
20080279162 | Shared processing between wireless interface devices of a host device - An integrated circuit includes a first wireless interface circuit that transceives first packetized data between a host module and a first external device in accordance with a first wireless communication protocol, wherein the first wireless interface circuit includes a first processing module that processes the first packetized data. A second wireless interface circuit, coupled to the first wireless interface device, transceives second packetized data between the host module and a second external device in accordance with a second wireless communication protocol, wherein the second wireless interface circuit includes a second processing module that processes the second packetized data, wherein the second wireless interface circuit is operable to assign a first processing task to the first processing module and wherein the first processing task relates to the processing of the second packetized data. | 11-13-2008 |
20080279138 | Cooperative transceiving between wireless interface devices of a host device with shared modules - An circuit includes a first wireless interface circuit that transceives packetized data between a host module and a first external device in accordance with a first wireless communication protocol. A second wireless interface circuit transceives packetized data between the host module and a second external device in accordance with a second wireless communication protocol. The second wireless interface circuit includes at least one module that is shared with first wireless interface circuit, the module having a first state where the module is operational and a second state corresponding to a low-power state. The first wireless interface circuit and the second wireless interface circuit operate in accordance with a wireless interface schedule that includes a first time interval where the first wireless interface device and the second wireless interface device contemporaneously use the at least one module in the first state and a second time interval where the at least one module is in the second state. | 11-13-2008 |
20080274713 | Wireless communications device with global positioning based on received motion data and method data and method for use therewith - A circuit includes a global positioning system (GPS) receiver that receives a GPS signal and that generates GPS position data based on the GPS signal. A wireless receiver converts an inbound RF signal into an inbound symbol stream. A processing module converts the inbound symbol stream into inbound data that includes a motion parameter and generates position information based on at least one of the GPS position data and the motion parameter. | 11-06-2008 |
20080273579 | Programmable antenna assembly and applications thereof - A programmable antenna assembly includes a configurable antenna structure, a configurable antenna interface, and a control module. The configurable antenna structure includes a plurality of antenna elements that, in response to an antenna configuration signal, are configured elements into at least one antenna. The configurable antenna interface module is coupled to the at least one antenna and, based on an antenna interface control signal, provides at least one of an impedance matching circuit and a bandpass filter. The control module is coupled to generate the antenna configuration signal and the antenna interface control signal in accordance with a first frequency band and a second frequency band such that the at least one antenna facilitates at least one of transmitting and receiving a first RF signal within the first frequency band and facilitates at least one of transmitting and receiving a second RF signal within the second frequency band. | 11-06-2008 |
20080267149 | Selecting receiver parameters based upon transmitting device identification via transmission characteristics - A wireless device includes at least one antenna, an RF interface, and processing circuitry coupled to the RF interface and indirectly to the at least one antenna. The wireless device identifies other wireless devices that service based upon transmission characteristics of wireless signals received from other wireless devices and/or relative positions of the other wireless devices with respect to itself. In a first operational period, the wireless device determines transmission characteristics of the other wireless devices. Then, during a second operational period, without further interaction with the other wireless devices, the wireless device determines communication link characteristics based simply upon transmission characteristics of the other wireless devices. | 10-30-2008 |
20080267100 | Data block cluster processing in a wireless device - A wireless device includes a case, user interface, an antenna, first processing resources, and second processing resources. The first processing resources couple to the antenna and to the second processing resources and receive and operate upon a data signal transmitted by a transmitting wireless device. In its processing operations, the first processing resources produces decoded data blocks and writes the decoded data blocks to a data buffer. When a processing resource threshold is met with regard to the plurality of decoded data blocks, the first processing resources issue a service processing interrupt to the second processing resources. In response to the service processing interrupt, the second processing resources retrieve the plurality of decoded data blocks from the data buffer in response to the service processing interrupt and process the plurality of decoded data blocks. | 10-30-2008 |
20080262643 | Defect detector for hard disk drive and methods for use therewith - A defect detector a hard disk drive includes a signal energy processor that produces at least one energy signal from a plurality of read samples. A comparator module compares the at least one energy signal to at least one corresponding energy threshold and generates defect data when the at least one energy signal compares unfavorably to the at least one corresponding energy threshold. | 10-23-2008 |
20080259846 | Cooperative transceiving between wireless interface devices of a host device - A circuit includes a first wireless interface circuit that transceives packetized data with a first external device in accordance with a first wireless communication protocol. A second wireless interface circuit transceives packetized data with a second external device in accordance with a second wireless communication protocol and wherein the operation of the second wireless interface circuit interferes with the operation of the first wireless interface circuit. A processing module selectively preempts use of the second frequency spectrum by the second external device using a plurality of preemption modes including a first preemption mode and a second preemption mode. | 10-23-2008 |
20080242414 | Game devices with integrated gyrators and methods for use therewith - A game device such as a sporting good or video game device uses an integrated circuit (IC) that includes a gyrating circuit to measure at least one motion parameter of the device. An RF transmitter wirelessly transmits the at least one motion parameter to a remote device. | 10-02-2008 |
20080242354 | Communication devices with integrated gyrators and methods for use therewith - A device includes an on-chip gyrating circuit that generates a motion parameter based on motion of the device. An RF transceiver generates an outbound RF signal from an outbound symbol stream, transmits the outbound RF signal to a remote station of a wireless network, and generates an inbound symbol stream from an inbound RF signal received from the at least one remote station. A processing module is coupled to process the motion parameter to produce motion data, to convert outbound data into the outbound symbol stream, and to convert the inbound symbol stream into inbound data, wherein the outbound data includes the motion data. | 10-02-2008 |
20080242349 | Wireless communication device having GPS receiver and an on-chip gyrator - A circuit for use in a wireless communication device includes a on-chip gyrating circuit that generates a motion parameter based on motion of the circuit. A GPS receiver receives a GPS signal and that generates GPS position data based on the GPS signal. A processing module processes the motion parameter to produce motion data and generates position information based on the GPS position data and the motion data. A wireless telephone transceiver generates an outbound RF signal that includes outbound voice data and position information and that generates voice inbound data from an inbound RF signal. | 10-02-2008 |
20080242346 | Wireless communication device with programmable antenna system - A wireless communication device includes an integrated circuit (IC) and an antenna system. The IC includes a processing module and a transceiver section. The processing module establishes a wireless communication protocol, converts outbound data into an outbound symbol stream, converts an inbound symbol stream into inbound data, and establishes operational parameters. The transceiver section converts an inbound RF signal into the inbound symbol stream and converts the outbound symbol stream into an outbound RF signal. The antenna system provides a plurality of antenna structures corresponding to the plurality of operational modes of the wireless communication device, wherein the antenna system provides one of the plurality of antenna structures in accordance with the operational parameters to transceive the inbound and outbound RF signals. | 10-02-2008 |
20080242240 | Calibration of wireless communication device - A wireless communication device includes an integrated circuit (IC) and an antenna system. The IC includes a baseband processing module, a network processing module, a calibration processing module, a receiver section and a transmitter section. The network processing module establishes a wireless communication protocol and operational parameters based on the wireless communication protocol. The calibration processing module generates RF receiver calibration information based on the operational parameters and RF receive feedback and generates RF transmitter calibration information based on the operational parameters and RF transmit feedback. The receiver section provides the RF receive feedback and converts an inbound RF signal into an inbound symbol stream. The transmitter section provides the RF transmit feedback and converts an outbound symbol stream into an outbound RF signal. The antenna system provides the inbound RF signal to the receiver section and receives the outbound RF signal from the transmitter section. | 10-02-2008 |
20080242237 | Antenna system for use within a wireless communication device - An antenna system includes an antenna, a transmission line, an inductor module, a tunable capacitor module, and control logic. The transmission line is coupled to the antenna and to the inductor module. The tunable capacitor module is coupled to the transmission line in accordance with a capacitance control signal to provide a desired capacitance such that inductance of the inductor module and the desired capacitance tunes the antenna system. The control logic is coupled to generate the capacitance control signal based on the operational parameters. | 10-02-2008 |
20080238770 | GPS Device and integrated circuit with an on-chip gyrator - An integrated circuit, for use in a GPS device, includes an on-chip gyrating circuit that generates a motion parameter based on motion of the IC. A global positioning system (GPS) receiver receives a GPS signal and generates GPS position data based on the GPS signal. A processing module processes the motion parameter to produce motion data and that generates position information based on the GPS position data and the motion data. | 10-02-2008 |
20080238629 | RF transceiver system with adjustable transmission parameters and methods for use therewith - A circuit includes a transceiver coupled to transmit an outbound signal in accordance with a plurality of transmit parameters to at least one remote station and receive a inbound signal from the at least one remote station. The transceiver detects a packet transmission failure, selects one of a plurality of transmission failure causes, and adjusts at least one of a plurality of transmit parameters, based on the selected one of the plurality of transmission failure causes. | 10-02-2008 |
20080207259 | Dual RF transceiver system with interference cancellation and methods for use therewith - A voice, data and RF integrated circuit (IC) includes a first radio frequency (RF) receiver section coupled to receive a first inbound RF signal over a first range of frequencies and generate a first amplified RF signal, wherein the first inbound RF signal includes a desired RF signal and an undesired signal. A second RF receiver section is coupled to receive a second inbound RF signal over a second range of frequencies that is different from the first range of frequencies and generate a second amplified RF signal, wherein the second inbound RF signal includes the undesired signal. A first RF cancellation module provides the desired RF signal while attenuating the undesired signal. | 08-28-2008 |
20080207258 | Multimode transmitter with digital up conversion and methods for use therewith - A voice, data and RF integrated circuit (IC) includes a transmitter processing module, coupled to receive outbound data and to produce processed data in accordance with a selected one of a plurality of protocols and that generates a control signal based on the selected on of the plurality of protocols. A digital up conversion module produces a digital up-converted signal from the processed data. A radio receiver front end produces a transmit signal from the digital up-converted signal in accordance with the selected one of the plurality of protocols, based on the control signal. | 08-28-2008 |
20080207240 | Auto-calibrating receiver and methods for use therewith - A voice, data and RF integrated circuit includes a processing module that generates at least one control signal that indicates a receive calibration mode. An RF transmitter generates a transmit signal that includes a first calibration signal when the at least one control signal indicates the receive calibration mode. An RF receiver receives a received signal that includes the first calibration signal and generates at least one receiver equalization parameter for equalizing the RF receiver in response to receiver feedback signals, when the at least one control signal indicates the receive calibration mode. | 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 |
20080207147 | Radio transmitter front-end with amplitude and phase correction and methods for use therewith - A radio transmitter front-end for use in a voice data and RF integrated circuit (IC) includes a phase correction module that produces a phase adjusted signal in response to a phase modulated signal and at least one phase correction signal. An amplitude correction module produces an amplitude adjusted signal in response to an amplitude modulating signal and an amplitude correction signal. An amplifier amplifies the phase adjusted signal and amplitude modulates the phase adjusted signal, based on the amplitude adjusted signal, to produce a polar coordinate transmit signal. A correction generation module generates the at least one phase correction signal and the amplitude correction signal, based on the polar coordinate transmit signal and the phase adjusted signal. | 08-28-2008 |
20080207140 | Integrated circuit with contemporaneous transmission and reception of realtime and non-realtime data and methods for use therewith - A voice data and RF integrated circuit (IC) includes an RF transmitter that generates a transmit signal contemporaneously containing both outbound realtime data and outbound non-realtime data. The integrated circuit optionally includes an RF receiver that contemporaneously generates both outbound realtime data and outbound non-realtime data from a received signal. | 08-28-2008 |
20080205359 | Transmitter with digital up conversion and multimode power amplifier - A voice, data and RF integrated circuit (IC) includes a transmitter processing module, coupled to receive outbound data and to produce processed data in accordance with a selected one of a plurality of protocols and that generates a control signal based on the selected on of the plurality of protocols. A digital up conversion module produces a digital up-converted signal from the processed data. A radio receiver front end includes a programmable power amplifier that produces a transmit signal from the digital up-converted signal in accordance with the selected one of the plurality of protocols, based on the control signal. | 08-28-2008 |