Patent application number | Description | Published |
20130028357 | DETECTION AND MITIGATION OF INTERFERENCE IN A RECEIVER - A novel receiver architecture optimizes receiver performance in the presence of interference. In various embodiments, power estimation circuits are used with variable selectivity to determine the exact nature of the interference and to optimize the performance correspondingly. The variable selectivity is achieved using stages of filtering with progressively narrower bandwidths. Also, the actual method of optimizing the receiver performance is novel compared to the prior art in that the gain settings and the baseband filter order (stages to be used) will be optimized based on the nature of the interference as determined by the power detector measurements. For a device such as a cellular phone that operates in a dynamic and changing environment where interference is variable, embodiments advantageously provide the capability to modify the receiver's operational state depending on the interference. | 01-31-2013 |
20130102267 | DETECTION AND MITIGATION OF INTERFERENCE IN A MULTIMODE RECEIVER USING VARIABLE BANDWIDTH FILTER - Embodiments include a novel receiver architecture to optimize receiver performance in the presence of interference. In various embodiments, power estimation circuits are used to determine the exact nature of the interference and to optimize the performance correspondingly. Variable selectivity of at least one power estimation circuit is achieved using a filter with variable bandwidth, with power measurements taken using different bandwidth settings. Also, the actual method of optimizing the receiver performance is novel compared to the prior art in that the gain settings and the baseband filter order (stages to be used) will be optimized based on the nature of the interference as determined by the power detector measurements. For a device such as a cellular phone that operates in a dynamic and changing environment where interference is variable, embodiments advantageously provide the capability to modify the receiver's operational state depending on the interference. | 04-25-2013 |
20130309989 | DETECTION AND MITIGATION OF INTERFERENCE IN A MULTIMODE RECEIVER USING VARIABLE BANDWIDTH FILTER - Embodiments include a novel receiver architecture to optimize receiver performance in the presence of interference. In various embodiments, power estimation circuits are used to determine the exact nature of the interference and to optimize the performance correspondingly. Variable selectivity of at least one power estimation circuit is achieved using a filter with variable bandwidth, with power measurements taken using different bandwidth settings. Also, the actual method of optimizing the receiver performance is novel compared to the prior art in that the gain settings and the baseband filter order (stages to be used) will be optimized based on the nature of the interference as determined by the power detector measurements. For a device such as a cellular phone that operates in a dynamic and changing environment where interference is variable, embodiments advantageously provide the capability to modify the receiver's operational state depending on the interference. | 11-21-2013 |
20140004812 | DETECTION AND MITIGATION OF INTERFERENCE BASED ON INTERFERENCE LOCATION | 01-02-2014 |
20140155060 | METHOD AND APPARATUS FOR SIGNAL SCANNING FOR MULTIMODE RECEIVER - In a signal processing method, an input signal is provided at an input to a receiver. A bandwidth of the receiver is controlled to a predetermined wideband setting. For band in a plurality of frequency bands, the input signal is processed at the receiver with a mixer, an amplifier, and a filter, to generate a first processed signal, and a power spectral density of the processed signal is generated over that frequency band, to provide a frequency domain signal for that frequency band. Based on the frequency domain signals corresponding to each frequency band in the plurality of frequency bands, a frequency domain representation of the processed signal is reconstructed over a reconstruction band having a bandwidth larger than the predetermined wideband setting. Based on the reconstructed frequency domain representation, a spectral component is identified corresponding to at least one cellular telephony access mode. | 06-05-2014 |
20140185533 | METHOD AND APPARATUS FOR TRANSMITTER OPTIMIZATION BASED ON ALLOCATED TRANSMISSION BAND - First and second inputs are received. The first input indicates a frequency offset of a frequency band allocated for signal transmission. The said allocated band is a subband of a total band available for transmission. The second input indicates a bandwidth of the allocated band. One or more filters of a transmitter of a communications system are controlled to operate cumulatively in a lowpass filtering mode, wherein the highest frequency in a pass band in the lowpass filtering mode is less than the highest frequency of the total band available for transmission. A signal is filtered using the filter(s). | 07-03-2014 |
20140270004 | METHOD AND APPARATUS FOR COMPENSATING FOR FREQUENCY ERRORS BETWEEN BASE STATION AND MOBILE STATION - Methods and apparatuses for compensating for frequency mismatch between a base station and mobile station are disclosed. At a first oscillator, a fixed reference oscillation signal is generated. At a second oscillator, a baseband oscillation signal is generated. A frequency divided version of the baseband oscillation signal is locked to a frequency divided version of the first reference oscillation signal. At a third oscillator, a first RF oscillation signal is generated. A frequency divided version of the first RF oscillation signal is locked to the frequency divided version of the second reference oscillation signal. A frequency adjustment signal is inputted to the second and third oscillators. At the second and third oscillators, frequency errors of the baseband oscillation signal and first RF oscillation signal, respectively, are compensated based on the frequency adjustment signal. | 09-18-2014 |
20140302809 | DETECTION AND MITIGATION OF INTERFERENCE BASED ON INTERFERENCE LOCATION - Embodiments include a novel receiver architecture to optimize receiver performance in the presence of interference. In various embodiments, the presence of interference is detected, and the relative frequency location of the interference is detected. The relative frequency location specifies whether the frequency of the interference is high side (above the desired signal, i.e., at a higher frequency) or low side (below the desired signal). The receiver is configured based on the detected interference and relative location thereof. For a device such as a cellular phone that operates in a dynamic and changing environment where interference is variable, embodiments advantageously provide the capability to modify the receiver's operational state depending on the interference. | 10-09-2014 |
20140329480 | DETECTION AND MITIGATION OF INTERFERENCE IN A RECEIVER - A receiver architecture optimizes receiver performance in the presence of interference. In various embodiments, power estimation circuits are used with variable selectivity to determine the exact nature of the interference and to optimize the performance correspondingly. The variable selectivity is achieved using stages of filtering with progressively narrower bandwidths. Also, the actual method of optimizing the receiver performance is an improvement compared to the traditional techniques in that the gain settings and the baseband filter order (stages to be used) will be optimized based on the nature of the interference as determined by the power detector measurements. For a device such as a cellular phone that operates in a dynamic and changing environment where interference is variable, embodiments advantageously provide the capability to modify the receiver's operational state depending on the interference. | 11-06-2014 |
20150237630 | Method and Apparatus for Transmitter Optimization Based on Allocated Transmission Band - First and second inputs are received. The first input indicates a frequency offset of a frequency band allocated for signal transmission. The said allocated band is a subband of a total band available for transmission. The second input indicates a bandwidth of the allocated band. One or more filters of a transmitter of a communications system are controlled to operate cumulatively in a lowpass filtering mode, wherein the highest frequency in a pass band in the lowpass filtering mode is less than the highest frequency of the total band available for transmission. A signal is filtered using the filter(s). | 08-20-2015 |
20150349820 | Detection and Mitigation of Interference Based on Interference Location - Embodiments include a novel receiver architecture to optimize receiver performance in the presence of interference. In various embodiments, the presence of interference is detected, and the relative frequency location of the interference is detected. The relative frequency location specifies whether the frequency of the interference is high side (above the desired signal, i.e., at a higher frequency) or low side (below the desired signal). The receiver is configured based on the detected interference and relative location thereof. For a device such as a cellular phone that operates in a dynamic and changing environment where interference is variable, embodiments advantageously provide the capability to modify the receiver's operational state depending on the interference. | 12-03-2015 |
20150381222 | Detection and Mitigation of Interference in a Receiver - A receiver architecture optimizes receiver performance in the presence of interference. In various embodiments, power estimation circuits are used with variable selectivity to determine the exact nature of the interference and to optimize the performance correspondingly. The variable selectivity is achieved using stages of filtering with progressively narrower bandwidths. Also, the actual method of optimizing the receiver performance is an improvement compared to the traditional techniques in that the gain settings and the baseband filter order (stages to be used) will be optimized based on the nature of the interference as determined by the power detector measurements. For a device such as a cellular phone that operates in a dynamic and changing environment where interference is variable, embodiments advantageously provide the capability to modify the receiver's operational state depending on the interference. | 12-31-2015 |
Patent application number | Description | Published |
20090260305 | TRAILER, WALL CONSTRUCTION AND MANUFACTURING METHOD - A trailer includes a bed with a floor structure and a superstructure mounted on the bed. The superstructure includes a wall construction of wall sections with interconnected tongue-and-groove edges and wall section ends. Corner posts include channels receiving the wall section ends for forming corners of the superstructure. A top rail forms a rim of the superstructure and receives the top-most wall sections. A rub rail connects the walls to the floor structure and receives the bottom-most wall sections. A method of manufacturing a trailer includes the steps of providing a bed with a floor structure and forming a superstructure from wall sections by interconnecting their tongue-and-groove edges. The trailer can be configured for a moving floor, a tipping mechanism or an ejector mechanism for discharging and/or loading materials and cargo in an interior. | 10-22-2009 |
20090311085 | CONTAINER PACKER SYSTEM AND METHOD - A container packer system includes a transfer base, which receives a container packer adapted for movement longitudinally between retracted and extended positions with respect to the transfer base. The transfer base includes a power subsystem with a motor or engine driving an hydraulic pump for powering hydraulic piston-and-cylinder units of the system, including a container packer piston-and-cylinder unit for hydraulically extending and retracting the container packer. The container packer generally encloses an interior adapted for receiving bulk material for transfer to a transport container, which can comprise a standard shipping container, a trailer or some other bulk material receptacle. The container packer includes a push blade assembly longitudinally movably mounted in its interior and actuated by a push blade piston-and-cylinder unit. A container packer method includes the steps of loading the interior of the container packer with bulk material in its retracted position on the transfer base, locating a transport container in alignment and behind the transfer base, hydraulically inserting part of the container packer into the transport container, hydraulically emptying the container packer of bulk material into the transport container with the push blade assembly, retracting the push blade assembly within the container packer and extracting the container packer onto the transfer base. | 12-17-2009 |
20100266374 | CONTAINER PACKER SYSTEM AND METHOD - A container packer system includes a transfer base, which receives a container packer adapted for movement longitudinally between retracted and extended positions with respect to the transfer base. The transfer base includes a power subsystem with a motor or engine driving an hydraulic pump for powering hydraulic piston-and-cylinder units of the system, including a container packer piston-and-cylinder unit for hydraulically extending and retracting the container packer. The container packer generally encloses an interior adapted for receiving bulk material for transfer to a transport container, which can comprise a standard shipping container, a trailer or some other bulk material receptacle. The container packer includes a push blade assembly longitudinally movably mounted in its interior and actuated by a push blade piston-and-cylinder unit. A container packer method includes the steps of loading the interior of the container packer with bulk material in its retracted position on the transfer base, locating a transport container in alignment and behind the transfer base, hydraulically inserting part of the container packer into the transport container, hydraulically emptying the container packer of bulk material into the transport container with the push blade assembly, retracting the push blade assembly within the container packer and extracting the container packer onto the transfer base. | 10-21-2010 |