Patent application number | Description | Published |
20090175237 | Method And Apparatus For Selective Disregard Of Co-Channel Transmissions On A Medium - A method and apparatus to selectively disregard co-channel transmissions on a medium uses an automatic gain control/clear channel assessment (AGC/CCA) circuit to gather signal power information, which is used to establish receiver sensitivity thresholds. Raw and cyclical power measurements of a received signal are processed by the AGC/CCA circuit to determine whether a current received signal process should be halted, and a new signal acquisition sequence begun. | 07-09-2009 |
20090175383 | Wireless Communication Using Beam Forming And Diversity - A method and apparatus for wirelessly transmitting real-time data streams is described. To ensure continuous data flow, fast diversity and slow diversity can be used. Fast diversity chooses a receive antenna based on received signal parameters, such as signal strength, during the transmission header and prior to information transfer. Slow diversity stores received signal parameters from previous packets, associates the parameters with a selected antenna, and uses the parameter history to denote a “default” antenna. Additionally, receive and/or transmit beam forming can be used to maintain continuous communication between stations. Beam forming, which combines antenna signals to maximize performance, is possible when at least two transmit/receive signal processing chains are available. | 07-09-2009 |
20090311972 | SYNTHESIZER AND MODULATOR FOR A WIRELESS TRANSCEIVER - A transceiver including a transmit modulator and a receiver. The modulator may accept a channel selection input, a first modulation input, a second modulation input, and an amplitude input. During transmit time slots, the modulator may generate a modulated output having a carrier frequency selected by the channel selection input. The carrier frequency may be frequency modulated by the first modulation inputs, phase modulated by the second modulation input, and amplitude modulated by the amplitude input. During receive time slots, the modulator may generate a carrier frequency selected by the channel selection input and offset by the first modulation input. The modulator may alternate between providing modulated transmit signals during transmit time slots and providing a local oscillator for the receiver during receive time slots. | 12-17-2009 |
20090311979 | POLAR MODULATOR WITH PATH DELAY COMPENSATION - A modulation system comprising a signal processing unit and a modulator. The signal processing unit may generate a low frequency modulator signal, a high frequency modulator signal, and a modulator amplitude control signal. The modulator may generate a modulated signal for transmission via a wireless network based, at least in part, on the low frequency modulator signal, the high frequency modulator signal, and the modulator amplitude control signal. The signal processing unit comprises a delay compensation unit for delaying the generation of the high frequency modulator signal and the modulator amplitude control signal based, at least in part, on signal generation and modulation path delays associated with the low frequency modulator signal to substantially align the modulator signals at the output of the modulation system. | 12-17-2009 |
20100098183 | Decoding System And Method For Digital Communications - A Viterbi decoding system interprets bits in received QAM constellations as many-valued parameters rather than binary valued parameters. It performs the Viterbi algorithm using these many-valued parameters to provide results superior to hard decision decoding. Rather than applying a hard 0-1 function to the QAM data, the system uses a non-stepped linear or curved transfer function to assign values to the bits. In another aspect, a system differentiates between data bits based on their estimated reliability, giving more emphasis to decoding reliable bits than unreliable bits using any of a variety of techniques. By differentiating between god and bad bits and de-emphasizing or ignoring unreliable bits, the system can provide a significant reduction in uncorrectable errors and packet loss. | 04-22-2010 |
20100222092 | Method And Apparatus For Transient Frequency Distortion Compensation - Transient distortion is compensated for by multiplying an exponentially-decaying phase shift onto the distorted waveform. The exponentially decaying phase shift waveform is patterned after the transient which typically takes the form of an exponential and occurs upon introduction of power to a circuit or circuit component. A digital circuit produces an appropriate exponentially-decaying waveform which is used as the input for a look up table whose output is a complex sinusoidal waveform capable of compensating for the distortion. The complex sinusoid is multiplied onto the transmitted waveform. The decaying exponential is biased so that it crosses a threshold at which point the compensating circuitry is turned off. | 09-02-2010 |
20110294528 | Method And Apparatus For Transient Frequency Distortion Compensation - Transient distortion is compensated for by multiplying an exponentially-decaying phase shift onto the distorted waveform. The exponentially decaying phase shift waveform is patterned after the transient which typically takes the form of an exponential and occurs upon introduction of power to a circuit or circuit component. A digital circuit produces an appropriate exponentially-decaying waveform which is used as the input for a look up table whose output is a complex sinusoidal waveform capable of compensating for the distortion. The complex sinusoid is multiplied onto the transmitted waveform. The decaying exponential is biased so that it crosses a threshold at which point the compensating circuitry is turned off. | 12-01-2011 |
20120002704 | Measuring Received Signal Strength on Neighboring Frequencies of a Channel with Interference in a Wireless Device - System and method for operating a wireless narrowband receiver. A signal may be received on a channel of the wireless narrowband receiver. At least a portion of the signal may be received from a first wireless narrowband transmitter. The wireless narrowband receiver may implement an adaptive frequency hopping algorithm. It may be determined if interference is present on the channel and one or more errors are detected in receiving the signal. In response to determining that interference is present on the channel and one or more errors are detected in receiving the signal, received signal strength of one or more neighboring frequencies of the channel may be measured, and the resulting measurements may be stored in a memory. The measurements may be used to determine interference sources interference on the channel. | 01-05-2012 |
20120026988 | Wireless Communication Sharing in a Common Communication Medium Based on Voice Traffic Prediction - Performing wireless communication using first and second wireless communication protocols. The first and second wireless communication protocols may operate in a common communication medium. The wireless communication may be performed using the protocols over the common communication medium, e.g., in a time sharing fashion. Properties of voice traffic on current frames of the second wireless communication protocol may be measured. The method may further include predicting whether one or more subsequent frames of the second wireless communication protocol will have voice traffic. If the prediction indicates that the one or more subsequent frames of the second wireless communication protocol will not have voice traffic data may be transmitted using the first wireless communication protocol on the common communication medium during a subsequent second wireless communication protocol time slot. | 02-02-2012 |
20120064841 | CONFIGURING ANTENNA ARRAYS OF MOBILE WIRELESS DEVICES USING MOTION SENSORS - A device and method for the real-time motion detection and reconfiguration of an antenna array of a mobile wireless device is described. The mobile wireless device includes an antenna array for receiving and transmitting wireless signals, a motion sensor coupled to the antenna array, and a first circuitry coupled to the antenna array and the motion sensor. A change in orientation of the antenna array is detected by the motion sensor in real time and recognized by the first circuitry. The antenna array is reconfigured by the first circuitry in response to the detected change in orientation in an expeditious manner. | 03-15-2012 |
20120124444 | Sleep Clock Error Recovery Scheme - A wireless device includes a functional unit, a wireless transceiver, an antenna and a clock. The wireless transceiver and antenna are coupled to the functional unit. The clock is coupled to the functional unit and the wireless transceiver. The clock is generates a clock signal. The wireless device is coupled wirelessly to a wireless slave device. The functional unit is configured to determine an amount of time since a last keep alive transmission with the slave device has occurred based on the clock. The functional unit determines a number of keep alive transmissions to transmit to the slave device, and appropriate transmission times for the keep alive transmissions relative to a next scheduled keep alive transmission time, based on the determined amount of time since the last keep alive transmission. The functional unit begins successive transmission of the keep alive transmissions to the slave device per the transmission times. | 05-17-2012 |
20120155347 | POWER MANAGEMENT OF WIRELESS PROTOCOL CIRCUITRY BASED ON CURRENT STATE - Controlling power consumption in a wireless device. The wireless device may include first wireless protocol circuitry. The first wireless protocol circuitry may be configured to receive and process first signals according to a first wireless protocol. The wireless device may include a power controller coupled to the first wireless protocol circuitry. The power controller may be configured to control power consumption of elements of the first wireless protocol circuitry based on a current state. More specifically, in response to the first wireless protocol circuitry being in a listening state, the power controller may be configured to lower power consumption of one or more first elements of the first wireless protocol circuitry. Additionally, in response to the first wireless protocol circuitry being in a receiving state, the power controller may be configured to return power consumption of the one or more first elements to a higher power level. | 06-21-2012 |
20120155510 | Method And System For Message Transmission And Reception - Wireless devices may contain multiple radio transceivers, each conforming to different communication protocols. A first transceiver conforming to a first communication protocol in a first wireless device may be able to receive, detect, and/or decode messages transmitted by a second transceiver in a second wireless device conforming to a second communication protocol. The first transceiver may communicate received, detected, and/or decoded information to a different transceiver in the same first wireless device, thus enabling the collocated transceivers to work in concert efficiently. A wideband transceiver using a set of multiple sub-channels in parallel may receive, detect, and/or decode messages transmitted by a narrowband transceiver using a set of multiple channels serially, thereby reducing scan time and power consumption. | 06-21-2012 |
20120170681 | Negative Amplitude Polar Transmitter - A polar transmitter includes a phase monitoring unit for monitoring input modulating data. When a phase transition exceeds a phase transition threshold, the phase monitor unit can signal an amplitude negation unit to invert the amplitude data coupled to the polar amplifier. The phase monitoring unit can also add an offset to the phase data that is provided to a frequency synthesizer. In another embodiment, when the phase transition threshold is exceeded, the phase monitoring unit can trigger inverting differential frequency data coupled to the polar amplifier. In one embodiment, the phase offset and the amplitude negation are applied until a second phase transition value exceeding the phase transition threshold is detected. If such an event is detected, then the input amplitude data is no longer inverted and the phase offset value is no longer added to the modulating data. | 07-05-2012 |
20120170685 | Wireless Communication Using Beam Forming And Diversity - A method and apparatus for wirelessly transmitting real-time data streams is described. To ensure continuous data flow, fast diversity and slow diversity can be used. Fast diversity chooses a receive antenna based on received signal parameters, such as signal strength, during the transmission header and prior to information transfer. Slow diversity stores received signal parameters from previous packets, associates the parameters with a selected antenna, and uses the parameter history to denote a “default” antenna. Additionally, receive and/or transmit beam forming can be used to maintain continuous communication between stations. Beam forming, which combines antenna signals to maximize performance, is possible when at least two transmit/receive signal processing chains are available. | 07-05-2012 |
20120177161 | CALIBRATION OF SYNTHESIZER PHASE USING REFERENCE HARMONIC - Arbitrary phase variations of a shared frequency synthesizer can be calibrated using a reference harmonic each time the shared frequency synthesizer is allocated to a network device to enable one frequency synthesizer to be shared between multiple network devices. On determining that the shared frequency synthesizer has been allocated to the network device, an output frequency of the shared frequency synthesizer can be aligned with a predetermined reference frequency that is associated with an operating frequency band of the network device. A phase correction factor associated with the shared frequency synthesizer can be calculated from a signal calculated based, at least in part, on the output frequency of the shared frequency synthesizer and the predetermined reference frequency. The phase correction factor is applied to a signal received at the network device to correct a phase error associated with the shared frequency synthesizer. | 07-12-2012 |
20120207139 | MULTI-COMMUNICATION MODE PACKET ROUTING MECHANISM FOR WIRELESS COMMUNICATION SYSTEMS - The transmission range of a network communication device can be extended by enabling transition between legacy and non-legacy communication protocols. A communication device can receive a packet in a legacy packet format from a host device via a legacy network interface. In response to determining that the packet received via the legacy network interface is to be transmitted using one of a plurality of non-legacy communication protocols, a processing path within the communication device in accordance with which to process the packet for transmission using the non-legacy communication protocol is determined. The packet in the legacy packet format is reformatted to yield a target packet in a non-legacy packet format based, at least in part, on the non-legacy communication protocol. The target packet is provided to the destination network device in accordance with the non-legacy communication protocol. | 08-16-2012 |
20120250532 | System and Method for Clear Channel Assessment that Supports Simultaneous Transmission by Multiple Wireless Protocols - System and method for performing clear channel assessment for simultaneous transmission in a device implementing multiple wireless protocols. The system may include first and second wireless protocol circuitry configured to generate first and second signals, respectively, for wireless transmission according to first and second wireless protocols, respectively. A first in-band signal strength threshold and a second in-band signal strength threshold may be maintained by the first wireless protocol circuitry. It may be determined whether the first or second in-band signal strength threshold should be used in performing the clear channel assessment. Clear channel assessment may be performed using the determined in-band signal strength threshold. Performing clear channel assessment may include comparing an ambient signal strength on a channel with the determined in-band signal strength threshold. The first wireless protocol circuitry may be configured to determine whether to wirelessly transmit first signals based on the clear channel assessment. | 10-04-2012 |
20120294347 | COMMUNICATION UNIT WITH ANALOG TEST UNIT - Various devices and techniques for testing an analog portion of communication devices are disclosed. Such devices may include a communication unit and an analog test unit. The analog test unit may be configured to test analog portions of the communication unit and communicate information regarding testing to an external test unit. The analog test unit may also be configured to perform an analysis of a test signal that is output by a transmitter portion, looped back to a receiver portion, and subsequently received by the analog test unit. The analog test unit may also be configured to calibrate a DC offset of a receiver chain of the communication unit. The analog test unit may also be configured to perform a nonlinearity test on one or more ADCs and/or DACs of the communication unit. | 11-22-2012 |
20120300812 | PAGING CHANNEL PREDICTION FOR BLUETOOTH PAGING PROCEDURE - A Bluetooth paging procedure can implement a mechanism for predicting a Bluetooth paging channel in a paging channel hopping sequence. One or more Bluetooth paging channels, on which one or more page requests intended for a Bluetooth device were received, are determined from a plurality of Bluetooth communication channels. One of a plurality of paging channel hopping sequences associated with the Bluetooth device that comprises each of the one or more determined Bluetooth paging channels is identified. A time delay associated with determining a target Bluetooth paging channel from the plurality of Bluetooth communication channels on which to transmit a page response is determined. The target Bluetooth paging channel is determined based, at least in part, on the identified one of the plurality of the paging channel hopping sequences and the time delay. | 11-29-2012 |
20120329515 | PER-PACKET RATE AND POWER CONTROL FOR WIRELESS COMMUNICATIONS - A method and device are disclosed for concurrently transmitting a Wi-Fi signal or a Bluetooth signal while receiving a cellular data signal. Upon receiving a request to receive a cellular data signal, the device determines a frequency for which the Wi-Fi signal and/or Bluetooth signal is or will be transmitted. The device then selectively transmits the Wi-Fi and/or Bluetooth signals at reduced power levels based, at least in part, on the frequencies at which the signals are transmitted, so that the Wi-Fi and/or Bluetooth signals can be transmitted without interfering with the cellular data signal being received concurrently. | 12-27-2012 |
20130003626 | OSCILLATOR SETTLING TIME ALLOWANCE - Techniques are disclosed relating to oscillator settling time allowance. In one embodiment, an apparatus may include an oscillator and oscillation detection and control circuitry. The oscillation detection and control circuitry may be configured to awaken an oscillator at a predetermined time and detect an edge transition of oscillations. The oscillation detection and control circuitry may further be configured to measure the time from the power-on indication to edge transition detection. In one embodiment, the oscillation detection and control circuitry may be configured to store the measured time and use the measured time instead of the predetermined time for subsequent oscillator awakenings. In some embodiments, the apparatus may further include circuitry configured to compensate for an expected oscillator settling behavior. | 01-03-2013 |
20130052964 | ADAPTIVE INTERFERENCE CANCELLATION FOR TRANSMITTER DISTORTION CALIBRATION IN MULTI-ANTENNA TRANSMITTERS - A wireless communication device includes a core logic, first and second transceiver chains, first and second antennas, and an interference processor. The core logic is coupled to both the first and second transceiver chains, which in turn are coupled to the first and second antennas, respectively. The interference processor is coupled between the first and second transceiver chains. To calibrate circuitry within the first transceiver chain using first signals generated in the first transceiver chain while the second transceiver chain is transmitting second signals via the second antenna, the interference processor connects the transmit circuit of the second transceiver chain to the receive circuitry of the first transceiver chain to form an interference feedback path that can be used to compensate for unwanted components of the second signal undesirably picked up by the first antenna. | 02-28-2013 |
20130095883 | Method And System For Message Transmission And Reception - Wireless devices may contain multiple radio transceivers, each conforming to different communication protocols. A first transceiver conforming to a first communication protocol in a first wireless device may be able to receive, detect, and/or decode messages transmitted by a second transceiver in a second wireless device conforming to a second communication protocol. The first transceiver may communicate received, detected, and/or decoded information to a different transceiver in the same first wireless device, thus enabling the collocated transceivers to work in concert efficiently. A wideband transceiver using a set of multiple sub-channels in parallel may receive, detect, and/or decode messages transmitted by a narrowband transceiver using a set of multiple channels serially, thereby reducing scan time and power consumption. | 04-18-2013 |
20130102255 | Method And Apparatus For Transient Frequency Distortion Compensation - Transient distortion is compensated for by multiplying an exponentially-decaying phase shift onto the distorted waveform. The exponentially decaying phase shift waveform is patterned after the transient which typically takes the form of an exponential and occurs upon introduction of power to a circuit or circuit component. A digital circuit produces an appropriate exponentially decaying waveform which is used as the input for a look up table whose output is a complex sinusoidal waveform capable of compensating for the distortion. The complex sinusoid is multiplied onto the transmitted waveform. The decaying exponential is biased so that it crosses a threshold at which point the compensating circuitry is turned off. | 04-25-2013 |
20130107995 | SYSTEM AND METHOD FOR SINGLE CHAIN SEARCH WITH A MULTIPLE CHAIN RECEIVER | 05-02-2013 |
20130155926 | VOICE ACTIVITY DETECTION IN COMMUNICATION DEVICES FOR POWER SAVING - A mechanism can be implemented in a communication unit of a network device to utilize periods of silence encountered in voice communication to conserve power at the network device. In some embodiments, it can be determined that one or more packets of a received RF signal comprise audio data. The communication unit of the network device can determine whether the audio data associated with the one or more packets comprises voice information. The network device can switch to a power save mode based, at least in part, on determining that the audio data associated with the one or more packets does not comprise voice information. | 06-20-2013 |
20130163643 | SCHEDULED GAIN CONTROL IN COLLOCATED WIRELESS RECEIVERS USING FORWARD TIMED SIGNAL STRENGTH PREDICTIONS - An apparatus is disclosed comprising collocated primary receiver (PR) and a time synchronized receiver (TSR), with a Low Noise Amplifier (LNA) configured by a LNA gain control signal to create a shared amplified signal sent to the PR and the TSR for them to concurrently receive packets. The TSR is configured to generate a timed signal strength prediction signal based on the shared amplified signal and the LNA gain control signal. The primary receiver is configured to generate the LNA gain control signal based, at least in part, on the timed signal strength prediction signal. The PR may include a spread spectrum receiver, and the TSR may include a frequency hopping receiver. | 06-27-2013 |
20130202068 | WIDEBAND DETECTION OF NARROWBAND TRIGGER SIGNALS - A mechanism can be implemented for reducing the power consumption of a wireless radio device in establishing a wireless connection by utilizing a wideband signal to detect a narrowband trigger signal at a potential narrowband trigger frequency. The wireless radio device may operate a wideband receiver to receive an RF signal. Being aware of the potential narrowband trigger frequencies, the wideband receiver may utilize the received RF signal to detect the presence of a narrowband trigger signal at one of the potential narrowband trigger frequencies. | 08-08-2013 |
20130243044 | SYSTEM AND METHOD FOR RF SPUR CANCELLATION - This disclosure is directed to a wireless device with a suppressor that couples to the aggressor signal of a frequency source to generate a cancelling signal for suppressing spurs resulting from operation of the frequency source. The amplitude and phase delay of the cancelling signal are adjusted to optimize the cancellation of the spur. Preferably, a calibration routine is performed to establish appropriate delay and amplitude values to cancel the spurs occurring at each device gain setting. | 09-19-2013 |
20130297957 | OSCILLATOR SETTLING TIME ALLOWANCE - Techniques are disclosed relating to oscillator settling time allowance. In one embodiment, an apparatus may include an oscillator and oscillation detection and control circuitry. The oscillation detection and control circuitry may be configured to awaken an oscillator at a predetermined time and detect an edge transition of oscillations. The oscillation detection and control circuitry may further be configured to measure the time from the power-on indication to edge transition detection. In one embodiment, the oscillation detection and control circuitry may be configured to store the measured time and use the measured time instead of the predetermined time for subsequent oscillator awakenings. In some embodiments, the apparatus may further include circuitry configured to compensate for an expected oscillator settling behavior. | 11-07-2013 |
20140269995 | Method And Apparatus For Switching Between Low-Power, Single-Chain Listen And Multiple-Chain Demodulation - A single receive chain of a MIMO receiver is activated during a low power listen mode. Upon detecting a legacy short training field (L-STF) in a received packet, the single receive chain performs a first frequency estimation, and activates one or more additional receive chains of the MIMO receiver. The MIMO receiver uses maximal ratio combining (MRC) to receive the signal using the first receive chain and the one or more additional activated receive chains, wherein the MRC is based, at least in part, on the first frequency estimation. The MIMO receiver may determine whether the received packet is a high throughput/very high throughput (HT/VHT) packet, and if not, deactivate the one or more additional receive chains. In one alternative, the additional receive chains are not activated until determining that a HT/VHT packet has been received. | 09-18-2014 |