Patent application number | Description | Published |
20100041361 | METHOD AND SYSTEM FOR A SINGLE-ENDED INPUT LOW NOISE AMPLIFIER WITH DIFFERENTIAL OUTPUT - Methods and systems for a single-ended input low noise amplifier (LNA) with differential output are disclosed and may include configuring the LNA and/or a balun on a chip for single-ended or differential mode, which may function as a load for the LNA. A frequency response and gain of the LNA may be configured via switched capacitors and resistors, which may include CMOS transistors. A transition frequency, and thus impedance matching and matching network gain, may be tuned via configurable gate-source capacitors. A received signal may be filtered via a surface acoustical wave (SAW) filter. The LNA may be impedance matched with an input device via the transition frequency tuning and off chip inductors and/or capacitors. The LNA may be configured for single-ended or differential input mode via switches outside of a signal path to the LNA and reverse isolation may be enabled via a cascode device. | 02-18-2010 |
20100210222 | Analog received signal strength indication in an RF transceiver - An integrated circuit radio transceiver and method therefor comprises a receiver front end that further includes a plurality of in-phase and quadrature phase receive processing block operable at first and second frequency bands wherein each of the receive processing blocks defines an ingoing signal path and further includes a plurality of filtering and amplification blocks disposed within the corresponding ingoing signal path, a plurality of RSSI blocks coupled to receive an ingoing analog signal from a corresponding plurality of nodes disposed throughout the ingoing signal path, each of the plurality of received signal strength indicator blocks producing a signal strength indication, and wherein a baseband processor is operable to receive a selected signal strength indication and to produce at least one gain setting to at least one amplification block within the in-phase or quadrature phase receive processing blocks. In operation, the baseband processor receive a signal strength indication from each RSSI block to determine a total amount of gain and appropriate gain distribution within the receive signal path. | 08-19-2010 |
20110002257 | Method and system for processing signals in a high performance receive chain - Aspects of a method and system for processing signals in a high performance receive chain may include amplifying a plurality of radio frequency signals in one or more respective one or ones of a plurality of amplifier chains in a multistandard radio frequency front-end, which may comprise one or more shared processing stages. The plurality of radio frequency signals may be compliant with a plurality of radio frequency communication standards and may be received concurrently. The one or more shared processing stages may be shared between two or more of the plurality of amplifier chains. Each of the two or more of the plurality of amplifier chains may be operable to amplify signals compliant with different radio frequency communication standards. | 01-06-2011 |
20110095812 | TRANSMISSION LINE COUPLED TO CIRCUITS AND Q-ENHANCEMENT CELL - Various example embodiments are disclosed. According to an example embodiment, an apparatus may comprise a first circuit, a second circuit, a transmission line coupled between the first circuit and the second circuit, and a Q-enhancement cell coupled to the transmission line. | 04-28-2011 |
20130157603 | METHOD AND SYSTEM FOR PROCESSING SIGNALS IN A HIGH PERFORMANCE RECEIVE CHAIN - Aspects of a method and system for processing signals in a high performance receive chain may include amplifying a plurality of radio frequency signals in one or more respective one or ones of a plurality of amplifier chains in a multistandard radio frequency front-end, which may comprise one or more shared processing stages. The plurality of radio frequency signals may be compliant with a plurality of radio frequency communication standards and may be received concurrently. The one or more shared processing stages may be shared between two or more of the plurality of amplifier chains. Each of the two or more of the plurality of amplifier chains may be operable to amplify signals compliant with different radio frequency communication standards. | 06-20-2013 |