Class / Patent application number | Description | Number of patent applications / Date published |
455303000 | Using plural separate signal paths | 16 |
20090061807 | RADIO RECEIVER AND METHOD FOR RECEIVING AND PLAYING SIGNALS FROM MULTIPLE BROADCAST CHANNELS - A radio receiver may comprise a receiver adaptable for receiving a plurality of broadcast streams over a plurality of broadcast channels, wherein the receiver will attempt to receive a selected broadcast stream on a selected broadcast channel, and if the selected broadcast stream is not receivable on the selected broadcast channel, the receiver will attempt to receive the selected broadcast stream on an alternative broadcast channel. A computer readable medium may allow a user of a receiver to create a composite stream comprising at least one portion selected from each of at least two of a plurality of broadcast streams. A method of open interface merge replication may involve comparing data between first and second databases, and if a conflict exists, updating one of the first and second databases with at least a portion of data from the other of the first and second databases to resolve the conflict. | 03-05-2009 |
20100151809 | Method and apparatus for co-channel interference detection in a radio - A method of configuring a tuner includes sampling a radio frequency and measuring at least one signal quality metric for the sampled frequency. It is determined whether there is co-channel interference on the sampled frequency based on the measurement of the at least one signal quality metric. The sampled frequency is selected as an operational frequency for the tuner if it was determined in the determining step that there is an absence of co-channel interference on the sampled frequency. | 06-17-2010 |
20110065408 | MISMATCHED DELAY BASED INTERFERENCE CANCELLATION DEVICE AND METHOD - An interference signal cancellation device comprises a signal splitter, a delay element and a signal combiner. The signal splitter distributes a disturbed signal to a first signal path and a second signal path. The delay element is situated in at least one of the first signal path and the second signal path for introducing a relative delay between a first signal in the first signal path and a second signal in the second signal path. The signal combiner combines the first signal and the second signal. An interference signal within the disturbed signal is substantially reduced within the signal combiner. A method for interference signal cancellation is also proposed. Furthermore, a computer program product with instructions for the manufacture and a computer program product enabling a processor to carry out the method for interference signal cancellation are also proposed. | 03-17-2011 |
20130303103 | Method and Apparatus for Adaptive Cancellation of Distortion and Phase Noise - An adaptive cancellation circuit and method are provided. The circuit includes a main path and an auxiliary path. The main path includes a first amplifier configured to output a first amplified signal to a first mixer. The main path is configured to output a first signal comprising a wanted signal component and a distortion component. The auxiliary path includes a second amplifier configured to output a second amplified signal to a second mixer. The second mixer is connected to a filter configured to remove the wanted signal component. The auxiliary path is configured to output a second signal including the distortion component. | 11-14-2013 |
20140099908 | Ordered Electromagnetic Interference Cancellation - Progressive cancellation of electromagnetic interference (EMI) is achieved by establishing a canceller stage processing order in a receiver feed circuit. Such a processing order may be one that progressively narrows an interference analysis bandwidth around desired target signal and optimizes gain-bandwidth characteristics of a cancellation loop in each canceller stage accordingly. A cancellation signal generated by each canceller stage is adaptively controlled without disturbing the stability of the cancellation loop. By doing so, the residual interference-to-noise ratio at each adaptive canceller stage is optimized independently from the closed cancellation loop control of the other canceller stages resulting in improved interference cancellation in the receiver feed circuit. | 04-10-2014 |
20150050904 | WIDEBAND INTERFERENCE MITIGATION SYSTEM WITH NEGATIVE GROUP DELAY AND METHOD FOR WIDEBAND INTERFERENCE CANCELLATION - Embodiments of a wideband interference mitigation (IM) system with negative group delay (NGD) compensation and method for wideband interference cancellation are generally described herein. In some embodiments, the wideband IM system may include first frequency-selective circuitry to capture interfering signals within a bandwidth of interest from a primary signal path after removal of a desired signal, cancellation circuitry to implement a negative group delay (NGD) on output signals from the first frequency-selective circuitry to generate negative group-delayed signals, and second frequency-selective circuitry to generate interference cancellation signals from the negative group-delayed signals for combining with signals from the primary signal path. The negative group delay provided by the cancellation circuitry may compensate for a group delay of the first frequency-selective circuitry, a group delay of the second frequency-selective circuitry and a group delay of primary signal path so that the interference cancellation signals have little or no group delay with respect to signals of the primary signal path within the bandwidth of interest. | 02-19-2015 |
455304000 | Phase shift in at least one path | 1 |
20090068974 | MULTI-MODE - MULTI-BAND DIRECT CONVERSION RECEIVER WITH COMPLEX I AND Q CHANNEL INTERFERENCE MITIGATION PROCESSING FOR CANCELLATION OF INTERMODULATION PRODUCTS - Multi-mode-multi-band direct conversion receiver with complex I and Q channel interference mitigation processing for cancellation of intermodulation products are described. In one embodiment, a method comprising over sampling of the entire receiver passband to acquire the IMP source signals that can generate IMPs within the SOI, using these signals to generate a coherent complex I-Q channel estimates of the interference and (after phase and amplitude adjustment) using these estimates to cancel the SOI inband IMPs in the I and Q channels independently and simultaneously in near real time, generating estimates of 2 | 03-12-2009 |
455305000 | With balancing or neutralizing | 9 |
20090221255 | DIGITAL APPROACH FOR IMAGE REJECTION CORRECTION IN LOW INTERMEDIATE FREQUENCY CONVERSION TUNER - A method of processing an in-phase signal component and a quadrature signal component of a low intermediate frequency (LIF) signal includes estimating and correcting an amplitude imbalance between a digitized in-phase signal component and a digitized quadrature signal component at a first point in time, and estimating and correcting a phase imbalance between the digitized in-phase signal component and the digitized quadrature signal component at a second point in time in response to the correcting process. The digitized in-phase signal component corresponds to the in-phase signal component at the first point in time and the digitized quadrature signal component corresponds to the quadrature signal component at the first point in time. The second point in the time is subsequent to the first point in time. | 09-03-2009 |
20100317310 | DIRECTIVITY CONTROL SYSTEM, CONTROL DEVICE, COOPERATIVE STATION DEVICE, RECEPTION STATION DEVICE, AND METHOD OF CONTROLLING DIRECTIVITY - A directivity control system includes a first reception station device which receives an interference signal and a desired signal; a cooperative station device disposed at a different place from the first reception station device, which receives a signal using an antenna; and a control device which controls the directivity of an antenna of the first reception station device, wherein the control device regards a combination of the antenna of the first reception station device and the antenna of the cooperative station device as one array antenna, and calculates a sum, using a weight, of a received signal received using the antenna of the first reception station device and a received signal received using the antenna of the cooperative station device to compose a directivity pattern having a null in an arrival direction of the interference signal in the array antenna. | 12-16-2010 |
20110034141 | A PROCESS FOR MINIMISING JAMMER NOISE IN RECEIVER SYSTEMS - A process is disclosed for minimising jammer noise in receiver systems. The process comprises the use of a primary receiver ( | 02-10-2011 |
20140287708 | LINEARITY IN PASSIVE MIXER CIRCUITS - A circuit used in a mixer configured to receive a signal made up of a relatively small modulation signal and a relatively large carrier signal is described. The mixer includes multiple switches. A balancing circuit configured to receive a supply voltage and a clocking signal is provided, and the balancing circuit provides a control signal to a switch in the mixer. The balancing circuit includes a capacitor configured to receive and selectively dissipate charge as a gate voltage along a gate path. The control signal causes switching of the switch in the mixer at times in accordance with the clocking signal according to a voltage difference value between a source voltage and the gate voltage, wherein the voltage difference value between the source voltage and the gate voltage is approximately a predetermined voltage value greater than a turn on voltage level of the switch. | 09-25-2014 |
20160173154 | COMMUNICATION DEVICE AND METHOD FOR RECEIVING A SIGNAL | 06-16-2016 |
455306000 | Filter in at least one path | 4 |
20090061808 | ADAPTIVE RF CANCELLER SYSTEM AND METHOD - An adaptive electromagnetic wave canceling system and method for canceling an electromagnetic interference (EMI) signal generated from an EMI signal source, from a broadband signal being received by a receiver. In one implementation an adaptive canceller subsystem is used that directly receives the EMI signal and a sample of the broadband signal, in which the sample includes an EMI signal component. A time delay stage is incorporated to delay the broadband signal before it is received by the receiver. The adaptive canceller subsystem generates a correction signal that is an inverse of the EMI signal component. The correction signal is applied to the broadband signal to effectively cancel the EMI signal component therefrom before the broadband signal is received by the receiver. In one implementation an automatic gain control is implemented that automatically adjusts the adaptive canceller subsystem to a level of the sample broadband signal, to thus form a closed loop EMI canceling system. | 03-05-2009 |
20140141741 | METHOD AND SYSTEM FOR RECIPROCAL MIXING CANCELLATION OF WIDEBAND MODULATED BLOCKERS - A method for reciprocal-mixing noise cancellation may include receiving, from a first mixer, a first signal comprising a wanted signal at a first frequency and a modulated signal at a second frequency. The modulated signal may be a product of a reciprocal-mixing of an unwanted signal with a phase noise. The second frequency may be greater than the first frequency, and at least a portion of the modulated signal may overlap the wanted signal, adding a reciprocal-mixing noise to the wanted signal. Using the first signal, a narrow second signal may be generated at a third frequency, twice the second frequency. At a second mixer, the second signal may be mixed with the first signal to generate a third signal. The third signal may be subtracted from the first signal to remove a reciprocal-mixing noise and to generate the wanted signal at the first frequency without the reciprocal-mixing noise. | 05-22-2014 |
20150038099 | DIRECT CONVERSION RECEIVER DEVICE WITH FIRST AND SECOND STAGES AND RELATED METHODS - A direct conversion receiver device may receive I and Q signals. The direct conversion receiver device may include a blind IQ balance circuit configured to balance the I and Q signals without a pilot signal, and a mixer coupled to the blind IQ balance circuit and configured to generate I and Q baseband signals using an operational frequency, the operational frequency being based upon bandwidth and modulation of the I and Q signals. The blind IQ balance circuit may include a first stage configured to generate an intermediate amplitude balanced Q signal based upon the I and Q signals, and a second stage coupled to the first stage and configured to generate phased balanced I and Q signals based upon the intermediate amplitude balanced Q signal and the I signal. | 02-05-2015 |
20150056939 | INTEGRATED CIRCUIT FOR COMMUNICATION - The present invention provides an integrated circuit for communication, e.g., for mobile radio-frequency (RF) telecommunication, including a resonator, a main amplifier, a matching circuit, a blocker detector, a mixer circuit, and a translation filter. The resonator provides conversion from single-end to differential, and filtering function for rejecting blockers at harmonics of local oscillation signal. The blocker detector detects occurrence of blocker; according to whether blocker exists, the main amplifier amplifies differential signal of the resonator by different gains, and the mixer circuit mixes amplified signal with different numbers of mixers. The translation filter contributes to rejection of blockers closed to in-band by providing a first pass band which is translated to a second pass band by the mixer circuit. The matching circuit provides impedance match. | 02-26-2015 |