Entries |
Document | Title | Date |
20080200139 | Gain adjusting apparatus, storage apparatus, and gain adjusting method - A total gain candidate determining unit determines candidates suitable as a total gain Kt in an AGC feedback loop including an equalizer, an A/D converter, and an FIR filter. For each candidate for the total gain Kt, a gain setting unit sets a corresponding gain Kp in a preamplifier | 08-21-2008 |
20080233913 | HIGH LINEARITY, LOW NOISE FIGURE, FRONT END CIRCUIT WITH FINE STEP GAIN CONTROL - A system, method, and electrical circuit comprises a LNA signal line path comprising a LNA and a first signal mixer operatively connected to the LNA. The circuit further comprises an attenuator signal line path comprising an attenuator and a second signal mixer operatively connected to the attenuator; a radio frequency (RF) power detector operatively connected to an output of each of the LNA and the attenuator, wherein the RF power detector is adapted to vary a front end power gain of the electrical circuit; and logic circuitry operatively connected to the RF power detector, wherein the logic circuitry is adapted to (i) select transmission of a signal through only one of the LNA signal line path or the attenuator signal line path, and (ii) output the selected signal. | 09-25-2008 |
20090011734 | Power Detector Radio Frequency Multiplexer - Implementations related to systems and devices that make use of a power detector multiplexer are presented herein. | 01-08-2009 |
20090042525 | METHOD AND SYSTEM FOR PRECISE TRANSMIT POWER ADJUSTMENT IN WIRELESS COMMUNICATION SYSTEMS - A method for precise transmit power adjustment in a wide personal area network (WPAN) is provided that includes coarse adjusting a power level of the radio signal by adjusting a gain setting of an amplifier that is used to power the radio signal, and fine adjusting the power level of the radio signal by adjusting a voltage level of an information signal that is provided to the amplifier so that the power level of the radio signal approaches a maximum allowable power level. | 02-12-2009 |
20090075613 | DISTRIBUTED RF FRONT-END FOR UWB RECEIVERS - Described herein are ultra wide-band distributed RF (UWB-DRF) front-end receivers comprising composite cells distributed along transmission lines, where each composite cell comprises a low-noise amplifier (LNA) merged with a mixer. By merging the LNA and the mixer in each composite cell, the power consumption and chip area of the RF front-end is reduced. Further, the distributed architecture of the RF front-end allows it to operate over a wide bandwidth by absorbing the parasitic capacitances of the composite cells into the transmission lines of the RF-front end. Embodiments of the RF front-end provide wideband flat gain, low noise figure (NF), wideband linearity, and wideband matching at the inputs of the RF front-end. In an embodiment, a programmable resistance at the termination of the RF transmission line allows the RF front-end to trade off a few decibels of mismatch at the RF input for higher gain and lower NF. | 03-19-2009 |
20090081977 | BROADCAST RECEIVING APPARATUS - When a RF signal is output, noise is prevented from appearing in the RF signal without degrading convenience. | 03-26-2009 |
20090111414 | LOCAL OSCILLATOR BUFFER AND MIXER HAVING ADJUSTABLE SIZE - Selectable sizes for a local oscillator (LO) buffer and mixer are disclosed. In an embodiment, LO buffer and/or mixer size may be increased when a receiver operates in a high gain mode, while LO buffer and/or mixer size may be decreased when the receiver operates in a low gain mode. In an embodiment, LO buffer and mixer sizes are increased and decreased in lock step. Circuit topologies and control schemes for specific embodiments of LO buffers and mixers having adjustable size are disclosed. | 04-30-2009 |
20100022211 | Low noise, highly linear amplifying stage and signal receiver using the same - The invention provides a signal amplifying stage, used in a signal receiver. The signal amplifying stage has: a fixed-gain low noise amplifier (LNA), amplifying an input signal; a variable-gain LNA (VG-LNA) array, amplifying the input signal, including a plurality of parallel VG-LNAs, the VG-LNA array being parallel with the fixed-gain LNA; a variable-gain amplifier (VGA), being in series with the fixed-gain LNA and the VG-LNA array, for amplifying output signals from the fixed-gain LNA and the VG-LNA array to generate an output signal; an attenuator, being in parallel with a combination of the fixed-gain LNA, the VG-LNA array and the VGA, for attenuating the input signal to generate the output signal; and a control loop, coupled to the VGA and the attenuator, for detecting power levels of the output signal to enable and control the fixed-gain LNA, the VG-LNA array, the VGA and the attenuator. | 01-28-2010 |
20100022212 | Radio Receiver - A radio receiver adapted to alternatively receive data over a communication channel in a first mode and a second mode. The second mode facilitates reception of data at higher data rates than the first mode. The radio receiver comprises a signal-processing unit and a control unit. The signal processing unit is adapted to determine a quality condition of the communication channel. The control unit is adapted to determine, based on the quality condition, whether the communication channel facilitates operation in the second mode and assess at least one configuration condition, one of the at least one configuration condition being that the communication channel is determined to facilitate operation in the second mode. The control unit is further adapted to configure the radio receiver to operate in the second mode when all of at least one configuration condition are fulfilled or to operate in the first mode otherwise. A method for controlling the radio receiver is also disclosed. | 01-28-2010 |
20100022213 | RADAR DETECTION ALGORITHM - A system includes a radio frequency transceiver. A baseband processor includes an automatic gain control module. The automatic gain control module has a gain that changes from and subsequently returns to a predetermined value each time the radio frequency transceiver receives a radio frequency signal. The baseband processor is configured to selectively generate an interrupt signal each time a radio frequency signal is received based on a magnitude of the change in the gain of the automatic gain control module and a length of time in which the gain returns to the predetermined value. A control module is configured to identify a radio frequency signal received by the radio frequency transceiver as a radar signal in response to the baseband processor having generated a plurality of interrupt signals at substantially equal time intervals. | 01-28-2010 |
20100167677 | RECEIVER LOCAL OSCILLATOR LEAKAGE COMPENSATION IN THE PRESENCE OF AN INTERFERER - A ZIF radio compensation method is disclosed. The ZIF radio compensation method employs high gain setting compensation values, which are reliably calculated for low gain settings, during entry of the radio into a communications network. Once the network entry is complete, these coarse calibration values are refined during times when no interfering signal is present. The ZIF radio compensation method allows a receiver to use no additional circuitry to achieve isolation, for potential cost savings. The ZIF radio compensation method further speeds up initial calibration, allowing the radio to join the communications network more rapidly. | 07-01-2010 |
20100173599 | AUTOMATIC GAIN CONTROL WITH OUT OF BAND BLOCKING SIGNAL COMPENSATION - One embodiment of the present subject matter includes a method of receiving an input signal. The method, in various embodiments, includes detecting a peak of the input signal and detecting an envelope of the input signal. In various embodiments, the peak and envelope are used to identify out-of-band blocking signals and to adjust gain control. The method also includes comparing the peak to a first threshold Tp and comparing the envelope to a second threshold Te. In the method, if the peak is above the first threshold and the envelope is below the second threshold, then ignoring the input signal. If the envelope is above the second threshold, the method includes applying automatic gain control to decode information encoded in the input signal. | 07-08-2010 |
20100197261 | WIRELESS CONTROL SUBSYSTEM FOR A MOBILE ELECTRONIC DEVICE - Methods and apparatus are provided for wireless communications in a mobile electronic device. In one aspect, the mobile electronic device includes an antenna subsystem and a plurality of wireless communications modules. A method may involve supplying RF signals from each of the wireless communications modules to a single unit for manipulating the RF signals; and controlling the unit for manipulating RF signals to connect an RF signal of a selected one of the wireless communications modules to the antenna subsystem. The unit for manipulating RF signals may perform various kinds of RF signal processing or conditioning. Furthermore, the antenna system may include a phased array antenna. Besides portable computers such as laptop, notebook and netbook computers, the same principles are applicable to mobile electronic devices generally, including cellphones for example. | 08-05-2010 |
20100233983 | SYSTEM INCLUDING RECEIVER FRONT ENDS - A system including an output node and receiver front ends. The receiver front ends are configured to receive an input signal. Each of the receiver front ends is configured to receive the input signal and provide an output signal at the output node. At least one of the receiver front ends is configured to selectively consume less power. | 09-16-2010 |
20100248669 | DUAL-BAND TRANSCEIVER - A dual-band transceiver is disclosed. In one embodiment, the system includes a first mixer circuit that generates a first signal having a first frequency that is within a first predefined frequency range. The system also includes a second mixer circuit that generates a second signal having one of a second frequency that is within a second predefined frequency range and a third frequency that is within a third predefined frequency range, and wherein each of the first mixer circuit and the second mixer circuit are used for at least two frequency bands. | 09-30-2010 |
20100279641 | RECEIVER FOR WIRELESS COMMUNICATION SYSTEM - One exemplary receiver for a wireless communication system includes a plurality of signal processing components arranged to generate a receiver output according to a radio frequency (RF) signal. The signal processing components include amplifiers having a class-AB biased amplifier included therein. The signal processing components are disposed in a chip, and the class-AB biased amplifier is an amplifier which processes a signal corresponding to the RF signal before any other amplifier included in the chip. Another exemplary receiver for a wireless communication system includes an RF signal processor and a frequency conversion interface. The RF signal processor is to generate an RF signal, and has a class-AB biased amplifier arranged to apply amplification upon the RF signal. The frequency conversion interface is coupled to the RF signal processor, and used for receiving the RF signal generated from the RF signal processor and generating a down-converted result of the RF signal. | 11-04-2010 |
20100323651 | TUNABLE ADAPTIVE FILTER WITH VARIABLE GAIN TRANS-CONDUCTANCE STAGE - In an exemplary embodiment, the communication device including an analog filter, where a digital signal processor sets the gain of the analog filter and the pole location of the filter simultaneously in order to maintain the filter pole location at a desired value or within a desired range. In further exemplary embodiments, the methodology to simultaneously set the gain and the pole location of the filters. | 12-23-2010 |
20100323652 | SYSTEMS, METHODS, APPARATUS, AND COMPUTER-READABLE MEDIA FOR PHASE-BASED PROCESSING OF MULTICHANNEL SIGNAL - Phase-based processing of a multichannel signal, and applications including proximity detection, are disclosed. | 12-23-2010 |
20110039509 | WIRELESS RECEIVER - A wireless receiver designed to conform to the standard IEEE 802.15.4. The receiver comprises an analog front-end and a digital decoder. The analog components of the front end include one or more amplifiers and an analog-to-digital converter (ADC). The digital decoder receives the output of the ADC and demodulates it in a demodulator which is driven at an a chip frequency by an internal or external clock. The demodulator comprises a sampler operable to sample the digital signal at a sampling frequency and a correlation unit operable to process a set of bits, referred to as a chip code, in the sampled digitized signal and output therefrom a set of correlation values. The set of correlation values is an indicator of likely mapping between the chip code that has been processed and a set of possible chip codes defined according to the standard. The demodulator further comprises a symbol selection unit and a frequency correction unit. The symbol selection unit has the function of deciding which symbol has been received based on an analysis of each set of correlation values. The frequency correction unit is operable to make adjustments to the chip frequency based on the correlation values output from the correlation unit, specifically to increase or decrease the chip frequency based on a measurement of whether the maximum correlation value among each set of correlation values occurs earlier or later than predicted. This scheme has the advantage that phase and frequency compensation is done after correlation avoiding the need for coherent demodulation while at the same time not requiring the stringent specifications of a conventional non-coherent demodulation scheme. | 02-17-2011 |
20110045791 | METHOD AND SYSTEM FOR EQUALIZING ANTENNA CIRCUIT MATCHING VARIATIONS - A method for processing signals includes generating a frequency response adjusted signal of an antenna, and adjusting a gain of the antenna by varying a gain of a programmable amplifier that amplifies the frequency response adjusted signal. The generating of the frequency response adjusted signal may take place prior to the gain adjusting. A frequency response of the antenna may be dynamically adjusted during the generating. A programmable filter used for the generating may be autonomously adjusted. The gain of the antenna may be dynamically adjusted. The gain of the programmable amplifier may be autonomously varied. The programmable filter and the programmable amplifier may be adjusted sequentially. | 02-24-2011 |
20110059710 | DYNAMIC CREST FACTOR REDUCTION SYSTEM - A system and method for performing digital crest factor reduction. In one embodiment, the method is devised to suppress the signal amplitude to maintain a low signal peak to average ratio (PAR), while maintaining a desirable Error Vector Magnitude (EVM). This technique may be designed to operate in highly dynamic signal conditions. | 03-10-2011 |
20110065403 | METHODS AND APPARATUS TO PERFORM RADIO FREQUENCY (RF) ANALOG-TO-DIGITAL CONVERSION - Methods and apparatus to perform radio frequency (RF) analog-to-digital conversion are described. According to one example, a receiver includes an amplifier to amplify received analog RF signals and a mixer-free circuit for converting the received analog RF signals to digital signals. | 03-17-2011 |
20110111716 | Mobile Terminal Station And Synchronous Control Method - A mobile terminal station sets a fixed gain set value that is a predetermined gain value at initial synchronization and amplifies a received signal received from a wireless base station in accordance with the set fixed gain set value. Then, the mobile terminal station detects a synchronizing signal pattern from the amplified received signal, and controls to perform an automatic gain control by using the fixed gain set value as the initial value of the automatic gain control when the synchronizing signal pattern is detected and modifies the fixed gain set value when the synchronizing signal pattern is not detected. | 05-12-2011 |
20110159833 | ACTIVE ANTENNA ARRAY FOR A MOBILE COMMUNICATIONS NETWORK WITH A PLURALITY OF GAIN SWITCHES AND A METHOD FOR ADJUSTING A SIGNAL LEVEL OF INDIVIDUAL RADIO SIGNALS - An active antenna array for a mobile communications network and a method for receiving radio signals is disclosed. The active antenna array has a plurality of antenna elements for relaying radio signals, a plurality of first amplifiers for amplifying a plurality of individual receive signals a plurality of first analogue-to-digital converters and a plurality of first gain switches located between one of the plurality of first analogue-to-digital converters and the plurality of first amplifiers. A digital signal processor is connected to outputs of the plurality of first analogue-to-digital converters and has a common gain switch control line connected to at least two of the plurality of first switches for controlling the gain of the first gain switches. | 06-30-2011 |
20110189969 | Receiver Arrangement with AC Coupling - A receiver arrangement with AC coupling is specified in which a filter arrangement ( | 08-04-2011 |
20110201294 | Method and System for LNA Adjustment to Compensate for Dynamic Impedance Matching - Aspects of a method and system for LNA adjustment to compensate for dynamic impedance matching are provided. In this regard, an antenna matching network may be configured to maximize received signal strength for a determined frequency and an amplifier gain may be adjusted based on the maximized signal strength such that output levels of the amplifier are between specified limits. The antenna matching network may be programmatically controlled via one or more switching elements. The amplifier gain may be programmatically controlled via one or more bias points. The antenna matching network may be configured for a plurality of frequencies in a frequency band, such as an FM broadcast band, and a configuration for each frequency may be stored. Accordingly, when the receiver is tuned to a frequency, a corresponding configuration may be retrieved from memory. | 08-18-2011 |
20110294448 | ANALOG FRONT END CIRCUIT FOR CABLE AND WIRELESS SYSTEMS - A circuit includes, an attenuator responsive to an input signal and a feedback signal, a variable gain low-noise amplifier responsive to the attenuator and to the feedback signal, a tracking filter, a frequency converter, and an RSSI responsive to the variable gain amplifier to generate an output signal to which the feedback signal is responsive. The frequency converter may be a mixer having a single-ended input and a differential output. The circuit may further include an analog baseband block responsive to the mixer to filter out high frequency signals. The tracking tuner performs bandpass filtering operation on the output signals of the variable gain low-noise amplifier. | 12-01-2011 |
20110300821 | TECHNIQUES FOR OPTIMIZING GAIN OR NOISE FIGURE OF AN RF RECEIVER - Techniques for optimizing gain or noise figure of an RF receiver are disclosed. In an exemplary embodiment a controller controls a capacitor bank between an LNA and a mixer of the RF front end of the receiver. For a given center frequency a first set of capacitors is switched to the mixer and a second set of capacitors is switched to ground. The ratio of capacitance of the second set to the first set of capacitors affects either gain of the RF FE or noise figure of the receiver. Therefore, the RF FE of the receiver may be controlled in such a way as to optimize for either RF FE gain or for receiver noise figure. | 12-08-2011 |
20120003949 | WIRELESS COMMUNICATION APPARATUS - According to one embodiment, a wireless communication apparatus includes a filter module, a generator, a first comparator and a power management module. The filter module is configured to transmit an uplink channel component among a received signal by an antenna. The generator is configured to generate an input voltage by using the uplink channel component. The first comparator is configured to output a first high signal when the input voltage is higher than a first threshold voltage, and output a first low signal when the input voltage is not higher than the first threshold voltage. The power supply management module is configured to change a power supply for transmission and reception of a wireless signal from an off state to an on state when the first high signal is continuously output for a minimum transmission time of an uplink signal or more. | 01-05-2012 |
20120149321 | APPARATUS AND METHOD FOR RADIO FREQUENCY RECEPTION WITH TEMPERATURE AND FREQUENCY INDEPENDENT GAIN - Apparatus and methods are disclosed, such as those involving an RF receiver. One such apparatus includes a front end having an input and an output. The front end forms part of an RF signal receive path. The front end includes a front-end resistor configured to receive an input signal; and a passive mixer downstream of the front-end resistor on the receive path. The passive mixer mixes the input signal with a local oscillation signal. The front-end includes a transimpedance amplifier located downstream of the passive mixer on the receive path. The transimpedance amplifier includes an input and an output. The front end further includes a feedback resistor coupled between the input and output of the transimpedance amplifier. The gain of the front end is a ratio of the feedback resistance to the front-end resistance, and is temperature- and frequency-insensitive. The apparatus also provides relatively constant input impedance and high linearity. | 06-14-2012 |
20120329417 | Low Noise Amplifier Protection Using A Peak Detector - Embodiments of a radio frequency (RF) receiver implementing one or more forms of protection to protect devices of the RF receiver from in-band interferers is provided. The RF receiver includes an integrated circuit terminal configured to couple a RF signal received at an antenna to a RF signal path, and a low noise amplifier (LNA) coupled to the RF signal path and configured to amplify the RF signal to provide an amplified RF signal. To protect the LNA from in-band interferers, the RF receiver can further include one or more clamping circuits and/or an over-voltage detector to determine if a peak of the RF signal exceeds an acceptable level. | 12-27-2012 |
20130078937 | SWITCHED CAPACITOR DETUNER FOR LOW NOISE AMPLIFICATION CIRCUIT HAVING BYPASS PATH - An RF circuit is disclosed having a low-noise amplification (LNA) circuit and a bypass path that provides a bypass around the LNA circuit. In the amplification mode, the bypass path is open and the LNA circuit amplifies the receive signal in accordance within a power gain frequency response. During the amplification mode, the LNA circuit is tuned such that a power gain resonance frequency band of the power gain frequency response is within the receive frequency band. On the other hand, in the bypass mode, the bypass path is closed and the receive signal is not amplified but rather bypasses the LNA circuit. Also, during the bypass mode, the power gain frequency response of the LNA circuit is transposed to reduce or eliminate excessive insertion losses caused by the LNA circuit within the receive frequency band. | 03-28-2013 |
20130084819 | GAIN CONTROL CIRCUIT, FM RECEIVER AND COMPUTER PROGRAM PRODUCT - The present invention provides a gain control circuit for an FM receiver that can reduce a reproduced audio output according to the magnitude of the noise component of an intended signal included in a received signal. | 04-04-2013 |
20130095779 | FILTER CIRCUIT AND RECEIVING DEVICE - To implement a filter circuit with low noise and a low cutoff frequency in a smaller area, a filter circuit has a first circuit which receives an input signal supplied to an input terminal, amplifies the signal, and outputs the amplified signal to an output terminal, a first differential amplification circuit for receiving the output signal of the first circuit through a first capacitance element, a first resistance element for forming a negative feedback path between the input and output of the first differential amplification circuit, and a second resistance element for forming a negative feedback path between the output of the first differential amplification circuit and the input of the first circuit. | 04-18-2013 |
20130183919 | False Signal Detection in Signals in Wireless Communications - There is provided a method for use in a wireless communication to avoid detection of a false modulated signal in a paged device. In one embodiment, a modulated signal is received by the paged device. Then, the modulated signal is identified by the paged device as a preliminary false modulated signal. Thereafter, the gain of at least one paged device amplifier and/or a matching threshold of the paged device is reduced by the paged device to decrease a sensitivity of the paged device to avoid detection of a future false modulated signal. In one embodiment, the wireless communication is a Bluetooth wireless communication and the paged device is a Bluetooth enabled device. An exemplary system for implementing one embodiment of the disclosed method is described. | 07-18-2013 |
20130273867 | RADIO FREQUENCY SIGNAL RECEIVING DEVICE - Disclosed is a radio frequency signal receiving device, which includes a low-noise amplifier (LNA) and a mixer. The LNA includes a first inductor and a second inductor. The mixer has a first differential pair and a second differential pair, common ends of the first differential pair and the second differential pair are respectively coupled to the first differential output end and the second differential output end. The first inductor and the second inductor are serially connected between the first differential output end and the second differential output end of the LNA, so as to reduce power consumption and reach suitable frequency response. The first inductor and the second inductor generate a resonance effect with parasitic capacitance on the mixer, so as to effectively reduce flicker noises, and improve a working benefit of the radio frequency signal receiving device. | 10-17-2013 |
20130273868 | ACTIVE ANTENNA ARRAY FOR A MOBILE COMMUNICATIONS NETWORK WITH A PLURALITY OF GAIN SWITCHES AND A METHOD FOR ADJUSTING A SIGNAL LEVEL OF INDIVIDUAL RADIO SIGNALS - An active antenna array for a mobile communications network and a method for receiving radio signals is disclosed. The active antenna array has a plurality of antenna elements for relaying radio signals, a plurality of first amplifiers for amplifying a plurality of individual receive signals a plurality of first analogue-to-digital converters and a plurality of first gain switches located between one of the plurality of first analogue-to-digital converters and the plurality of first amplifiers. A digital signal processor is connected to outputs of the plurality of first analogue-to-digital converters and has a common gain switch control line connected to at least two of the plurality of first switches for controlling the gain of the first gain switches. | 10-17-2013 |
20130288630 | DIGITAL DEMODULATION CIRCUIT USING AUTOMATIC GAIN CONTROL CIRCUIT HAVING TEMPERATURE COMPENSATION FUNCTION - A digital demodulation circuit amplifies a received signal of an intermediate frequency with a variable gain control amplifier so as to convert it into a baseband signal, which is separated into a common-mode component and an orthogonal component. A first gain control voltage is generated based on the common-mode component and the orthogonal component. Additionally, a temperature correction value is generated by smoothing a pulse-width modulation signal, having a pulse width corresponding to ambient temperature, and by adding a predetermined gain and an offset thereto. A second gain control voltage is generated by adding the temperature correction value to the first gain control voltage. The variable gain control amplifier amplifies a received signal with the second gain control voltage. Thus, it is possible to achieve a temperature compensation function and an automatic gain control function in the digital demodulation circuit with a simple circuit configuration. | 10-31-2013 |
20140113578 | AMPLIFIERS WITH NOISE SPLITTING - Amplifiers with noise splitting to improve noise figure are disclosed. In an exemplary design, an apparatus (e.g., a wireless device, an integrated circuit, etc.) includes a plurality of amplifier circuits and at least one interconnection circuit. The amplifier circuits receive an input radio frequency (RF) signal. The interconnection circuit(s) are coupled between the plurality of amplifier circuits. Each interconnection circuit is closed to short the outputs or internal nodes of two amplifier circuits coupled to that interconnection circuit. The plurality of amplifier circuits may include a plurality of gain circuits coupled to a plurality of current buffers, one gain circuit and one current buffer for each amplifier circuit. Each amplifier circuit provides an output current, which may include a portion of the current from each of the plurality of gain circuits when the plurality of amplifier circuits are enabled. | 04-24-2014 |
20140171003 | RECEIVER ARCHITECTURE WITH COMPLEMENTARY PASSIVE MIXER AND COMPLEMENTARY COMMON-GATE TIA WITH LOW-NOISE GAIN CONTROL - A circuit for a low-power and blocker-tolerant mixer-amplifier stage may include a complementary mixer formed by transmission gates having complementary structures. The complementary mixer may be configured to receive one or more radio-frequency (RF) signals and to convert the one or more RF signals to intermediate frequency (IF) current signals. A complementary TIA may be coupled to the complementary mixer and may be configured to receive the IF current signals and provide IF voltage signals. The complementary TIA may be formed by coupling an NMOS-TIA and a PMOS-TIA to a common load. A first portion of the complementary mixer may be coupled to the NMOS-TIA and a second portion of the complementary mixer may be coupled to the PMOS-TIA. | 06-19-2014 |
20140335810 | RECEIVER FOR WIRELESS COMMUNICATION SYSTEM - One exemplary receiver for a wireless communication system includes signal processing components arranged to generate a receiver output according to a radio frequency (RF) signal. The signal processing components include amplifiers having a class-AB biased amplifier included therein. The signal processing components are disposed in a chip, and the class-AB biased amplifier is an amplifier which processes a signal corresponding to the RF signal before any other amplifier included in the chip. The class-AB biased amplifier has a first amplifier block, a bias circuit and a second amplifier block. The first amplifier block is arranged to receive an input at the input port and generating a first output. The bias circuit is arranged to bias the first amplifier block for a class-AB operation. The second amplifier block is arranged to generate an output at the output port according to the first output. | 11-13-2014 |
20140342683 | WIRELESS COMMUNICATION SYSTEM - A wireless communication system includes: a filter; and a semiconductor chip including a signal processing integrated circuit having an amplifier, wherein a main surface of the semiconductor chip is provided with a plurality of electrode terminals along an edge portion thereof; wherein the amplifier has a transistor including a control electrode, a first electrode through which a signal is outputted, and a second electrode to which a voltage is applied; wherein the control electrode, the first electrode and the second electrode of the transistor are connected to the electrode terminals, respectively; and wherein none of wirings are arranged between the electrode terminals and placements of the control electrode, the first electrode and the second electrode, making space between the electrodes and the electrode terminals narrow. | 11-20-2014 |
20150094006 | RECEIVER OF NFC DEVICE AND NFC DEVICE INCLUDING THE SAME - A receiver of a near field communication device includes a local oscillator, a first channel, and a second channel. The local oscillator may be configured to generate a first local oscillating signal. The first channel may be configured to process an input signal by mixing the input signal with the first local oscillating signal. The second channel may be configured to process the input signal by mixing the input signal with a second local oscillating signal that has a phase difference of 90 degrees with respect to the first local oscillating signal. Each of the first and second channels may include a comparator unit that includes a comparator configured to compare, in a comparator mode, an amplifier output signal with a reference voltage whose level increases in a step-wise manner and the comparator unit may be configured to set a level of the reference voltage to be used in a normal mode based on an output signal of the comparator. | 04-02-2015 |
20150303959 | GAIN CONTROL METHOD, MODULE, AND WIRELESS SIGNAL RECEIVER USING THE SAME - An exemplary embodiment of the present disclosure illustrates a gain control method executed in a wireless signal receiver. The gain control method has the following steps. A wideband channel is continuously monitored to check whether an interference signal exists in a wireless signal. When the interference signal exists in the wireless signal, an interference received signal strength indicator is obtained. A front end gain of the wireless signal receiver is controlled according to the interference received signal strength indicator. When the interference signal exists in the wireless signal, the wireless signal receiver is prohibited from using a maximum front end gain. | 10-22-2015 |