Class / Patent application number | Description | Number of patent applications / Date published |
455233100 | With diverse control (tone, etc.) | 10 |
20080227421 | Reducing Power Consumption In Receivers Employing Conversion To Intermediate Frequency - A receiver to recover a signal of interest while consuming reduced power in some scenarios. The receiver contains a in-phase channel processing path and a quadrature phase channeling path for down converting an input signal to an intermediate frequency, and then recovering the signal of interest by further processing of the input signal at intermediate frequency. One of the two paths is turned off upon occurrence of a desired condition, which reduces power consumption. In an embodiment, the condition is that the input signal does not contain an image signal of the signal of interest. | 09-18-2008 |
20090098845 | METHOD AND APPARATUS FOR EFFICIENT DC CALIBRATION IN A DIRECT-CONVERSION SYSTEM WITH VARIABLE DC GAIN - A wireless communication receiver includes a multitude of look-up tables each storing a multitude of DC offset values associated with the gains of an amplification stage disposed in the wireless communication receiver. The entries for each look-up table are estimated during a stage of the calibration phase. During such a calibration stage, for each selected gain of an amplification stage, a search logic estimates a current DC offset number and compares it to a previous DC offset estimate that is fed back to the search logic. If the difference between the current and previous estimates is less than a predefined threshold value, the current estimate is treated as being associated with the DC offset of the selected gain of the amplification stage and is stored in the look-up table. This process is repeated for each selected gain of each amplification stage of interest until the look-up tables are populated. | 04-16-2009 |
20090264090 | DC OFFSET CALIBRATION IN A DIRECT CONVERSION RECEIVER - A direct conversion receiver ( | 10-22-2009 |
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 |
20100144300 | ANTENNA DEVICE, RECEPTION DEVICE AND RADIO WAVE TIMEPIECE - An antenna device including: an antenna unit having an oscillating body capable of oscillating at a predetermined natural frequency and being displaceable by an external magnetic field, and a converter for converting motion of the oscillating body to an electrical signal, when a radio wave signal having a frequency band for inducing resonance of the oscillating body comes, the oscillating body resonating with a magnetic field component of the radio wave signal, the converter converting resonance of the oscillating body to the electrical signal, and an electrical signal corresponding to the radio wave signal being outputted; a sensitivity varying section capable of varying degree of displacement of the oscillating body occurring by the external magnetic field; and a sensitivity controller for adjusting the degree of the displacement by using the sensitivity varying section in accordance with the electrical signal outputted from the antenna unit. | 06-10-2010 |
20110319044 | Adaptive cancellation of multi-path interferences - A multi-path signal interference cancellation system cancels multiple time delayed signal components of a multi-path interference signal received by a receive antenna and carried on a receiver transmission line of a radio receiver system. The interference cancellation system includes a plurality of adaptive interference canceller circuits, each of which has a synchronous detector, a signal controller and an integrator as essential parts of closed control loops defined by the canceller circuits. The integrator has gain and bandwidth characteristics associated therewith which are adjustable to adjust the gain and bandwidth of each closed control loop. An intensity profile of the multi-path interference signal is generated and stored in a memory. An intensity profile signal from the memory is provided to the integrator of each adaptive interference canceller circuit to adjust the gain and bandwidth of the integrator and the loop in which it is situated to maximize the error detection residual signal-to-noise ratio of each adaptive interference canceller circuit. Each adaptive interference canceller circuit generates a cancellation signal from which a synthesized cancellation signal is generated and effectively injected onto the receiver transmission line to cancel the multiple time delayed signal components of the multi-path interference signal carried thereon so that the radio receiver of the radio receiver system only receives a desired signal. | 12-29-2011 |
20120258679 | APPARATUS AND METHOD FOR REDUCING INTERFERENCE SIGNAL IN RECEIVER - An interference signal reducing apparatus of a wireless communication system divides a signal that is input through a receiving antenna into a first signal and a second signal having a magnitude larger than that of the first signal and detects a frequency and a magnitude of an interference signal from the first signal, thereby generating an interference removal signal and then adds an interference removal signal to the signal that is input through the receiving antenna and thus reduces a magnitude of the interference signal. | 10-11-2012 |
20120270516 | RECEIVER FOR ESTIMATING AND COMPENSATING FOR IN-PHASE/QUADRATURE MISMATCH - A receiver includes a first mixer configured to provide an in-phase (I) component of a radio frequency (RF) signal to an I channel by down-converting the RF signal, a second mixer configured to provide a quadrature (Q) component of the RF signal to a Q channel by down-converting the RF signal, amplification means, arranged on the I and Q channels, configured to amplify the I and Q components, a mismatch estimator configured to convert the amplified I and Q components into a frequency domain, and estimate a gain mismatch value and a phase mismatch value on the basis of the converted components, and a mismatch compensator configured to compensate for mismatch of the received signal on the basis of the estimated gain and phase mismatch values. | 10-25-2012 |
20130337757 | Phased-Array Receiver for mm-Wave Applications - The present disclosure relates to a circuit for providing a signal gain, comprising: a first stage comprising a first set of variable gain transconductors arranged for receiving an input signal and for performing phase-shifting of the input signal, thereby producing an intermediate signal, and a second stage, comprising a second set of transconductors and a plurality of capacitors arranged for receiving the intermediate signal and for providing an output signal to a combiner, wherein the first stage and second stage together form a filter, and wherein the first set of variable gain transconductors and at least one of the transconductors of the second set define the signal gain of the circuit. | 12-19-2013 |
20140030993 | DEVICES FOR AUTOMATIC ADJUSTMENT OF GAIN AND ATTENUATION FACTORS - A device for the automatic adjustment of a gain and/or attenuation factor of several amplification or attenuation elements connected in a cascade comprises respectively a detector for measuring a signal level of a signal disposed at the input of the respective amplification or attenuation element and respectively a downstream control unit for determining the gain and/or attenuation factor respectively associated with each amplification or attenuation element. The control unit is a forward control unit for determining the gain and/or attenuation factor respectively associated with each amplification or attenuation element dependent upon the measured signal level of the signal disposed at the input of each amplification or attenuation element. | 01-30-2014 |