Antinoise Or Distortion Patents (Class 375/278)
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Patent number: 7248639Abstract: A method for reducing out-of-band emission in an AM transmitter for digital transmission includes generating, from a digital modulation signal, an amplitude signal and a phase-modulated radio frequency signal configured to control the AM transmitter. A digital modulation process is used in which a hole is formed around a 0/0 point so that a zero crossing is avoided by a substantial margin in a vector diagram representation. Thereby a respective bandwidth of the amplitude signal and the phase-modulated radio frequency signal is limited so that the out-of-band emission decreases as a function of a shoulder distance achievable by the AM transmitter at a rate where a spectrum mask is not exceeded.Type: GrantFiled: January 17, 2002Date of Patent: July 24, 2007Assignee: Deutsche Telekom AGInventors: Dietmar Rudolph, Andreas Schaefer
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Patent number: 7242725Abstract: An adaptive broadband post-distortion receiver for wireless digital communications improves performance of a wireless digital communications system. The improved performance of the system includes improved linear AM-AM and AM-PM responses approaching saturation. Indeed, the proposed adaptive broadband post-distortion receiver has an effect on attributes such as bit error rate and transmitter power efficiency and, in turn, on modulation and bandwidth. The adaptive broadband post-distortion receiver is configured with an adaptively controlled IF post-distorter located at the IF stage of the receiver. The placement of the distortion canceling function in the IF section of the receiver lends itself to broadband applications. The post-distorter is configured to cancels the distortion produced by the transmitter and receiver as it is adaptively controlled using bit error rate calculations. The distortion canceling utilizes bit error rate information that is otherwise available in the receiver.Type: GrantFiled: April 2, 2003Date of Patent: July 10, 2007Assignee: Harris Stratex Networks Operating CorporationInventors: Frank S. Matsumoto, David C. M. Pham
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Patent number: 7164728Abstract: Transport frames to be transmitted on a communication channel are formed from coded-signal frames. Each coded-signal frame comprises one or more sets of bits to be protected against transmission errors. A respective error detection code is calculated for a subset of bits, and placed in a respective transport frame along with this subset of bits. Some at least of the transport frames contain a plurality of subsets of bits, emanating from different coded-signal frames and accompanied by the corresponding error detection codes.Type: GrantFiled: July 21, 2000Date of Patent: January 16, 2007Assignee: Matra Nortel CommunicationsInventors: Albert-Patrick Krief, Pierre Force
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Patent number: 7158582Abstract: An I/Q modulator processes a time-discrete I/Q signal comprising an I component and a Q component. The I/Q signal is based on a sampling frequency which is equal to four times a carrier frequency of a carrier signal onto which the I/Q signal is modulated. A predistorter of the modulator predistort the I and components with a predistortion signal, which depends on the I and Q components, so as to form a predistorted I component and, in temporal alternation therewith, a predistorted Q components. An adjuster of the modulator adjusts the signs of the predistorted I and Q components so that two temporally successive predistorted components have a first sign and two additional successive predistorted components, which follow the first-mentioned components in time, have a second sign which is the inverse of the first sign, so as to produce therefrom an output signal at an output of the modulator.Type: GrantFiled: March 2, 2001Date of Patent: January 2, 2007Assignee: Fraunhofer-Gesellschaft zur Foerderung der Angewandten Forschung E. V.Inventors: Eberhard Gamm, Reiner Retkowski, Gerald Ulbricht, Heinz Gerhaeuser
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Patent number: 7131038Abstract: A method and apparatus determines an uncoded bit error rate pb based on a target symbol error rate ?s. The uncoded bit error rate pb is determined based on a weighted series expansion of the target symbol error rate ?s, comprising weights W that are a function of a maximum number of symbol errors that can be corrected t and a number of symbols in an information field K. The maximum number of symbol errors t and the number of symbols in the information field K is selected such that the uncoded bit error rate pb that produces a symbol error rate that is less than or equal to the target symbol error rate ?s is largest.Type: GrantFiled: December 20, 2000Date of Patent: October 31, 2006Assignee: 3Com CorporationInventors: Vlad Mitlin, Richard G. C. Williams
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Patent number: 7120192Abstract: A synchronization establishing apparatus in a spectrum spread communication system, includes a search section that calculates correlation values from a received spectrum spread signal, and calculates power values and power addition values of the power values. Also, the search section selects larger ones of the power addition values to output together with timing data corresponding to the selected larger power addition values. One of the symbols and the power values is corrected in phase based on phase change quantities. A frequency offset estimating section estimates frequency offsets from one of the correlation values and the power values and demodulation timing data and calculates the phase change quantities from the estimated frequency offsets. A demodulation path selecting section selects path timings based on the selected larger power addition values and outputs the demodulation timing data to the frequency offset estimating section.Type: GrantFiled: February 9, 2001Date of Patent: October 10, 2006Assignee: NEC CorporationInventor: Takahiro Kumura
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Patent number: 7072420Abstract: The invention relates to a method of adjusting a radio frequency signal produced by radio frequency circuitry in response to receipt of phase and amplitude control signals from digital baseband circuitry which operates to convert digital data signals into such phase and amplitude control signals. The phase and amplitude control signals are adjusted in the digital baseband circuitry in order to compensate for time alignment errors which occur in the radio frequency circuitry.Type: GrantFiled: October 16, 2001Date of Patent: July 4, 2006Assignee: Telefonaktiebolaget L M Ericsson (publ)Inventor: Jonas Persson
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Patent number: 7065151Abstract: A channel optimization system for use with a communications channel and method of separating and encoding signals associated with the communications channel. In one embodiment, the channel optimization system includes an assorter that receives first and second signals having disparate transmission characteristics and selects one of the first and second signals. The channel optimization system also includes a translator, coupled to the assorter, that encodes the selected one of the first and second signals into a symbol representation as a function of a transmission characteristic associated therewith.Type: GrantFiled: December 21, 2000Date of Patent: June 20, 2006Assignee: Agere Systems Inc.Inventor: Jingdong Lin
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Patent number: 7046738Abstract: A method for generating a premodulation-filtered modulation waveform having a real part and an imaginary part for transmitting octal symbols uses a reduced lookup table. Successive octal symbols, each comprising three information bits, are input to a logic unit. The logic unit forms a first derived bit by combining the first and third information bits and a second derived bit by combining the second and third information bits. The first and second information bits, along with the first and second derived bits, are delayed in respective L-bit shift registers. The bit sequences in the L-bit shift registers are used to determine a corresponding filtered waveform segment for each bit sequence. The waveform segments corresponding to the delayed first information bits and the delayed first derived bits are combined to obtain a segment of said imaginary waveform part.Type: GrantFiled: February 8, 2000Date of Patent: May 16, 2006Assignee: Ericsson Inc.Inventor: Paul W. Dent
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Patent number: 6922554Abstract: The invention relates to a method for implementing a transceiver, in which method radio-frequency signals are transmitted and received with a transceiver for communicating information. A radio-frequency signal received at a receiving stage is subjected to at least a first filtering step, in which a desired receiving signal is separated from the signal with a filter. A signal to be transmitted at a transmission stage is subjected to at least a second filtering step, in which a desired transmission signal is separated from the signal with a filter, to be transmitted. In the method, the same filter is used at least partly in said first and second filtering steps.Type: GrantFiled: May 23, 2001Date of Patent: July 26, 2005Assignee: Nokia Mobile Phones Ltd.Inventors: Tomi-Pekka Takalo, Petri Heliö, Kalle Asikainen
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Patent number: 6836226Abstract: An ultra-wideband pulse modulation apparatus, system and method is provided. The pulse modulation method increases the available bandwidth in an ultra-wideband, or impulse radio communications system. One embodiment of the present invention comprises a pulsed modulation system and method that employs a set of different pulse transmission, or emission rates to represent different groups of binary digits. The modulation and pulse transmission method of the present invention enables the simultaneous coexistence of the ultra-wideband pulses with conventional carrier-wave signals. The present invention may be used in wireless and wired communication networks such as CATV networks.Type: GrantFiled: November 12, 2002Date of Patent: December 28, 2004Assignee: Pulse-LINK, Inc.Inventor: Steven A. Moore
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Patent number: 6834109Abstract: The present invention includes a method and system for compensating for cross-talk interference in communication systems. The method includes estimation of the interfering signals. Further, the method includes performing a compensation operation on at least one interfering signal.Type: GrantFiled: November 10, 2000Date of Patent: December 21, 2004Assignee: Tokyo Electron LimitedInventors: Thomas E. Paré, Jr., Michail Tsatsanis, Ioannis Kanellakopoulos, Mark Alan Erickson, Cecilia Gabriela Galarza, James W. Waite, Daniel Joseph Hernandez, Sunil C. Shah, Ming Gu, Norman Man Leung Yuen, Heberly Rosario, Di Lin, Fernando Lopez-de-Victoria
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Patent number: 6810089Abstract: A transmission system having a channel subjected to fading uses an iterative block detection method which includes a multiplication step for multiplying the received blocks via a filter matrix whose elements are written as ρ j * E ⁢ ⁢ ( ρ j 2 ) + N 0 where &rgr;j*, j=1, . . . , n are the conjugate values of the coefficients &rgr;j of the channel, n is the size of the block, E(&rgr;j2) is the expectation &rgr;j2, and No is the variance of the Gaussian noise.Type: GrantFiled: December 6, 2000Date of Patent: October 26, 2004Assignee: Koninklijke Philips Electronics N.V.Inventor: Antoine Chouly
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Patent number: 6771708Abstract: A nonlinear compensator comprising a signal processing section, a distortion detecting section, and a distortion correcting section. The signal processing section detects the time difference and phase difference between two signals by calculating correlation, synchronizes the two signals with each other, and causes the phase of one signal to coincide with that of the other. The distortion detecting section determines an amplitude error and a phase error in the two signals and inputs the errors as distortion components to a distortion correcting section. The distortion correcting section sequentially selects the amplitude, the phase, and the amount of compensation corresponding to the value of the amplitude from the amounts of compensation registered at the initial stage and updated adaptively, and adds the amount of compensation to the digital base band signal obtained at the input demodulation section to compensate for the distortion components.Type: GrantFiled: September 18, 2000Date of Patent: August 3, 2004Assignee: Kabushiki Kaisha ToshibaInventors: Masaru Suga, Seiji Isobe, Takeshi Sawada
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Patent number: 6731914Abstract: The present invention provides a method for determining nonlinear distortion of a transmitter. A test symbol sequence is transmitted from the transmitter under test as an analog output signal. The analog output signal is sampled to produce a first sequence which represents the test symbol sequence as distorted by a linear distortion sequence and a nonlinear distortion sequence. The test symbol sequence is filtered via an adaptive filter to produce a second sequence such that the second sequence is approximately equal to the test symbol sequence as distorted by the linear distortion sequence. The second sequence is subtracted from the first sequence to produce an output sequence substantially equal to the nonlinear distortion sequence.Type: GrantFiled: February 22, 2001Date of Patent: May 4, 2004Assignee: Broadcom CorporationInventors: John L. Creigh, Oscar E. Agazzi
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Patent number: 6704353Abstract: Channel induced distortion is cancelled from a QAM or similarly modulated signal that has both a signal component and a distortion component. Using digital signal processing, the information component of the received signal is removed by canceling magnitude variations arising from the information content. This is accomplished by normalizing the received signal to the magnitude value of one ring on the QAM constellation. Once the distortion component of the received signal is reconstructed, a compensation factor can be derived and applied to the received signal in order to remove the effects of the channel distortion prior to further processing and decoding of the received signal.Type: GrantFiled: November 29, 1999Date of Patent: March 9, 2004Assignee: CynTrust Communications, Inc.Inventors: Robert Joseph McCarty, Jr., Akshaya Trivedi
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Patent number: 6647069Abstract: In a cable television (CATV) data communication network, channel throughput and communications robustness are increased in a manner that improves speed of data transmission while maintaining compatibility with existing specifications and equipment. Enhanced throughput can be realized using the return channel of the CATV network. Alternatively, data retransmission and/or diversity techniques can be used to improve throughput.Type: GrantFiled: April 30, 1999Date of Patent: November 11, 2003Assignee: Texas Instruments IncorporatedInventors: Mordechai Segal, Ofir Shalvi, Zvi Reznic
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Patent number: 6608860Abstract: An improved transmitter capable of achieving high linearity with minimal power dissipation is disclosed, comprising a digital phase splitter and an output stage. The digital phase splitter includes a positive phase digital-to-analog converter (DAC) for converting the positive phase portion of a set of input digital data into an analog signal, and a negative phase DAC for converting the negative phase portion of the set of input digital data into another analog signal. The analog signals from the phase splitter are passed to the output stage for transmission onto a transmission medium. The transmitter may be operated in low power dissipation mode. Because the phases of the input digital signal are split in the digital domain prior to the output stage, the output stage experiences minimal crossover distortion. Consequently, the transmitter is able to minimize power dissipation without suffering from poor linearity performance.Type: GrantFiled: November 5, 1999Date of Patent: August 19, 2003Assignee: Cadence Design Systems, Inc.Inventors: Eric H. Naviasky, Martin J. Mengele
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Patent number: 6574285Abstract: A communications system (10) which utilizes an 128-ary QAM signal constellation suitable for non-linear applications. The communications system includes a modulator (18) for utilizing the 128-ary constellation to implement the modulation. The 128-ary constellation is a circular constellation which provides a simplified amplitude predistortion by utilizing the subject 128-ary constellations, enabling more efficient communications can then be achieved through a peak-power-limited non-linear channel (16). Such non-linear channels (16) are more power efficient at creating RF energy from DC energy.Type: GrantFiled: July 16, 2001Date of Patent: June 3, 2003Assignee: Northrop Grumman CorporationInventor: Joseph E. Galins
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Patent number: 6563885Abstract: A system and method facilitate estimating noise in a received signal. The received signal includes a plurality of data tones. Noise is estimated for a selected subset of data tones for each data burst, such that noise estimates for all data tones can be computed over a plurality of data bursts. As a result of spreading the noise estimates over more than one burst, the overall computations associated with obtaining the noise estimates can be reduced based on the size of the respective subsets. The updated data tone noise estimates further can be employed in subsequent processing, such as in beamforming calculations.Type: GrantFiled: October 24, 2001Date of Patent: May 13, 2003Assignee: Texas Instruments IncorporatedInventors: David Patrick Magee, Srinath Hosur
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Patent number: 6529565Abstract: Since in a demodulated base band signal in an FSK receiver, etc. usually a DC offset is produced due to a frequency difference between a transmitter and a receiver, etc., which lowers demodulation margin, a circuit is constructed for detecting an error in a center level thereof to correct same in a simple manner. In this circuit, a bit synchronizing signal, which is at a beginning of a the base band signal EB is sampled twice with an interval of 1/(baud rate) sec and an average of two sampled values is obtained by applying sampled output pulses thus obtained to a holding capacitor in a hold circuit. In this way the error in the center level is detected and the center level is corrected by subtracting it from the base band signal in a subtracter.Type: GrantFiled: September 22, 1998Date of Patent: March 4, 2003Assignee: General Research of Electronics, Inc.Inventor: Kazuo Kawai
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Patent number: 6487240Abstract: A receiver architecture includes a selectivity filter (206) for selectively passing a wanted channel and rejecting unwanted channels. The selectivity filter has a filter BT of about one-half the BT of the transmitter filter. A discriminator (208) is coupled to the selectivity filter for converting received symbols from the frequency domain to the time domain symbols. A symbol recovery processor (210) is coupled to the discriminator for recovering the symbols through a two-state maximum likelihood sequence estimation (MLSE) technique in which templates are optimized with a BT substantially less than the BT of the transmitter filter.Type: GrantFiled: November 10, 2000Date of Patent: November 26, 2002Assignee: Motorola, Inc.Inventor: Weizhong Chen
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Patent number: 6477196Abstract: A method of excising one or more narrow-band interfering signals in a direct sequence spread spectrum receiver that performs a magnitude spectral analysis on baseband signals in a detection channel to determine which frequency bins in the spectral analysis output contain the interfering narrow-band signals by comparing the magnitude of the signals in the frequency bins to a threshold. The corrupted frequency bins are determined by the signal magnitudes exceeding the threshold and band reject filters excise the narrow-band signals in the signal channel in accordance with the corrupted frequency bins.Type: GrantFiled: August 30, 1999Date of Patent: November 5, 2002Assignee: Rockwell Collins, Inc.Inventors: Christopher J. Swanke, Steven L. White
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Patent number: 6445747Abstract: A system and method to reduce a ratio between a peak signal power and an average power (PAPR) in a multi-tone communication system. The system includes an encoder configured to receive a plurality of input bits and to generate a plurality of coded symbols based on the plurality of input bits, and a phase shift calculator configured to calculate a plurality of phase shift values for the coded symbols that minimizes the peak to average power ratio. The system further includes an encoding phase shifter coupled to the encoder and the phase shift calculator, configured to receive the phase shift values from the phase shift calculator and configured to phase shift the plurality of coded symbols to generate a plurality of phase shifted symbols.Type: GrantFiled: December 31, 1998Date of Patent: September 3, 2002Assignee: AT&T CorporationInventors: Hamid Jafarkhani, Vahid Tarokh
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Patent number: 6442218Abstract: The present invention relates to a demodulator which receives a signal transmitted via phase modulation or multivalue QAM modulation, and decides transmitted data based on the received signal. The present invention enhances a transmission-line estimate by using tentatively decided data symbols as pilot symbols and in estimating a transmission line without a decrease in accuracy of transmission-line estimate even when an error rate of the tentatively decided data symbols is increased. The demodulator includes a pilot-based transmission-line estimation unit for estimating transmission-line characteristics by using pilot symbols. A tentative-data-decision unit for tentatively deciding data symbols based on the pilot-based transmission-line estimate. A data-based transmission-line estimation unit for estimating the transmission-line characteristics by using the tentatively decided data.Type: GrantFiled: August 19, 1999Date of Patent: August 27, 2002Assignee: Fujitsu LimitedInventors: Michiharu Nakamura, Yasuyuki Oishi, Kazuo Nagatani, Hajime Hamada, Yoshihiko Asano, Hiroyuki Seki, Yoshinori Tanaka
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Patent number: 6411644Abstract: A control system comprising an electrical circuit that produces distortion where the electrical circuit has a frequency band of operation. A pilot modulated carrier signal is frequency hopped about the frequency band of operation. The hopping pilot modulated carrier signal does not interfere with any signal applied to or generated by the electrical circuit as it is not at any time located within the frequency band of operation. Information obtained from the hopping pilot modulated carrier is provided to the control system which uses such information to cancel the distortion produced by the electrical circuit.Type: GrantFiled: September 29, 1998Date of Patent: June 25, 2002Assignee: Lucent Technologies Inc.Inventor: Robert Evan Myer
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Patent number: 6385261Abstract: An impulse noise detector detects impulse noise in an audio signal by filtering out the audio components of the signal, then comparing an envelope of a filtered signal with a threshold obtained as a moving average of the envelope. Short-duration impulse noise is thereby detected without detecting tone bursts and other fast-rising signals of longer duration. The envelope may be taken directly from the filtered signal, or from a difference signal obtained from a preliminary envelope of the filtered signal, to emphasize impulse noise when distorted audio components leak into the filtered signal.Type: GrantFiled: January 19, 1999Date of Patent: May 7, 2002Assignee: Mitsubishi Denki Kabushiki KaishaInventors: Masayuki Tsuji, Masahiro Tsujishita, Kenichi Taura, Masayuki Ishida
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Patent number: 6377630Abstract: A transmission circuit comprises a fixed-frequency oscillator for oscillating a frequency for the transmission, a voltage controlled oscillator for outputting a signal containing a modulation signal component, a frequency mixer for mixing an output signal of the fixed-frequency oscillator and an output signal of the voltage controlled oscillator, a high-frequency amplifier for amplifying output of the frequency mixer and supplying the amplified signal to a transmission antenna, and a power control circuit for first turning on power of the voltage controlled oscillator and the high-frequency amplifier at the beginning of the transmission and after expiration of a predetermined time, turning on power of the fixed-frequency oscillator.Type: GrantFiled: March 16, 1999Date of Patent: April 23, 2002Assignee: Mitsumi Electric Co., Ltd.Inventor: Tetsuro Uchida
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Patent number: 6320912Abstract: There is disclosed a digital modulator whose modulation parameter can be controlled and in which modulation data or modulated signals are prevented from generating interference signals with adjoining circuits through control when power supply is turned on or system is changed. The digital modulator has a device for detecting that the power supply is turned on, and the transmission data is modulated with fixed data in response to an output of the detecting device for a time required for completing a required system constitution setting. The digital modulator also has a device for detecting the presence of the control for changing the system after the power supply is turned on. In response to an output of the detecting device, modulation is performed with the fixed data for a time from the start till the completion of the setting with a predetermined time added thereto.Type: GrantFiled: July 27, 1998Date of Patent: November 20, 2001Assignee: NEC CorporationInventor: Satoshi Baba
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Patent number: 6252912Abstract: A method and apparatus are described for adaptively predistorting a signal before it is transmitted by a transmitter in order to compensate for nonlinearities which are introduced. Statistical information regarding the received signal is accumulated at a receiver, and is preferably transmitted back to the transmitter for processing. The processing includes a constellation analysis to determine the distortion characteristics of the signal, which may include bias, gain imbalance, lock and quad angle errors, and nonlinear distortions including AM-AM and AM-PM conversion effects, with all of these phenomena occurring anywhere in the transmitter-channel-receiverchain. From analysis of the statistics of the distortions in the received signal constellation, adjustments are made in the transmitter and/or receiver parameters.Type: GrantFiled: December 24, 1997Date of Patent: June 26, 2001Assignee: General Dynamics Government Systems CorporationInventor: Sheldon N. Salinger
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Patent number: 6192090Abstract: A circuit and method for adaptively calculating a decision error of a digital signal in a digital modulation system.Type: GrantFiled: August 29, 1997Date of Patent: February 20, 2001Assignee: Samsung Electronics Co., Ltd.Inventor: Myeong-Hwan Lee
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Patent number: 6148047Abstract: The present invention provides dc offset compensation circuit (800) for a zero IF FM quadrature demodulator in an AMPS cellular mobile telephone system. A frequency offset is introduced to remove modulation inherent dc components from supervisory audio tones and Manchester codes from a modulated signal. The local oscillator (608) is operated at a frequency that is slightly different, e.g. 5 kHz from a frequency which would mix down the intermediate frequency signal to zero. A dc offset is produced with a control loop to eliminate fixed dc components caused by leakage from a local oscillator (608). After a given time, the control loop may be frozen and the frequency offset of the local oscillator (608) can be removed.Type: GrantFiled: June 30, 1998Date of Patent: November 14, 2000Assignee: Philips Electronics North America CorporationInventor: Rishi Mohindra
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Digital radio transmission and reception system applying a direct modulation and demodulation method
Patent number: 6034990Abstract: A digital radio transmission and reception system capable of preventing shift of carrier by fading through receiving a modulated signal radio-transmitted, and then directly demodulating the signal.Type: GrantFiled: August 25, 1997Date of Patent: March 7, 2000Assignee: Samsung Electronics Co., Ltd.Inventor: Keun-Mo Kang -
Patent number: 6016114Abstract: A analog-to-digital conversion apparatus and method for mobile communication devices are disclosed by the present invention. Because the conventional CMOS process does not allow for high order anti-aliasing circuits to be fabricated with digital circuits on the same chip, a new apparatus had to be developed to use low order anti-aliasing filters for the analog-to-digital conversion. The apparatus of the present invention includes a low order anti-aliasing circuit, a delta-sigma converter, and post-conversion filters. The post conversion filters include a decimation circuit, a droop correction filter, and an offset adjust circuit. In this implementation, a low order analog anti-aliasing filter can be used along with a delta-sigma converter and post-conversion filters to eliminate the need for high order analog anti-aliasing filters. Another aspect of the present invention is the duplication of the circuits to process the incoming signals. The duplicate circuit is fed a null signal to process the noise only.Type: GrantFiled: April 21, 1997Date of Patent: January 18, 2000Assignee: LSI Logic CorporationInventors: Edward W. Liu, Qasim Rashid Shami
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Patent number: 5995552Abstract: Radio equipment for communicating digital data includes a clock modulation part for angular-modulation of a clock signal by a given modulation signal; and a data processing part processing the digital data based on the clock signal angular-modulated in the clock modulation part and producing angular-modulated digital data. In the radio equipment, levels of harmonics generated from the clock signal and the digital data are reducible.Type: GrantFiled: November 29, 1995Date of Patent: November 30, 1999Assignee: Fujitsu LimitedInventor: Yukihiro Moriyama
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Patent number: 5933448Abstract: Amplitude and phase errors between branches I and Q of a transceiver utilizing phase quadrature modulation are corrected by preventing propagation of a nominal-frequency signal from a digital part through a loop part and a reception branch to an RSSI indicator by changing the frequency response of a component on the path of the signal. The same indicator that normally measures the payload signal, here measures only undesired signal components. After this, such amplitude and/or phase correction signals are determined with which the measuring result obtained from the indicator reaches the minimum. The resultant correction signals are stored in the memory, and the frequency response of the system is then restored to normal.Type: GrantFiled: April 4, 1997Date of Patent: August 3, 1999Assignee: Nokia Telecommunications OyInventor: Keijo Katisko
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Patent number: 5812612Abstract: A transmitter which can easily suppress diffusion of a spurious signal with a simple constitution, wherein the on/off operations of the transmitting circuit and the carrier signal generating circuit are controlled by the first control signal which rises at the predetermined timing and falls at the predetermined timing, and the on/off operation of the modulator is controlled by the second control signal which gently rises at the same or later timing than the rise timing of the first control signal and gently falls at the same or earlier timing than the fall timing of the first control signal, so that a phenomenon which is similar to pulse modulation of the leaked carrier signal fc becomes hard to be generated, therefore diffusion of the spurious signal can be suppressed.Type: GrantFiled: November 17, 1995Date of Patent: September 22, 1998Assignee: Sony CorporationInventor: Shin Saito
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Patent number: 5745528Abstract: A transmitted digital VSB signal comprises a sequence of M-level symbols, where the value of M is defined by a mode control signal which is periodically multiplexed with the transmitted signal. A receiver includes an up/down counter which is reset to a zero count in response to a channel change signal and a latch responsive to the zero count of the counter for storing the next received mode control signal whose accuracy has been verified. The counter is incremented or decremented in response to each subsequently received verified mode control signal which respectively matches or does not match the stored mode control signal. Acquisition of new mode control signals is thereby relatively immune to burst noise, is effected very rapidly after a channel change and less rapidly in the absence of a channel change.Type: GrantFiled: July 13, 1995Date of Patent: April 28, 1998Assignee: Zenith Electronics CorporationInventors: Mark Fimoff, Timothy G. Laud
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Patent number: 5729182Abstract: Device for continuous phase modulation, produced from a frequency synthesizer including a variable oscillator and a phase-locked loop with, in series, a frequency division circuit, a phase comparator and a low-pass filter. In order to reduce modulation in the loop, the modulation is applied not only to the input of the synthesizer but also, in compensation, in the loop. In order to eliminate the modulation residue in the loop, a control signal for the oscillator is derived by a circuit which performs a correlation between the residue of the modulation and the output signal from a filter producing the same filtering effect as the loop, and which receives the modulation signal from the input of the synthesizer.Type: GrantFiled: August 7, 1996Date of Patent: March 17, 1998Assignee: Thomson-CSFInventors: Lionel Fousset, Marc Chelouche, Jean-Luc De Gouy, Laurent Collin
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Patent number: 5703908Abstract: A method and apparatus for improved mobile radio telecommunications employs the transmission of a pilot reference signal within the coherence band of the modulated carrier wave. The receiver in this system uses instantaneous phase estimation techniques of the pilot and carrier received waveforms to provide immunity from phase distortion introduced by the channel.Type: GrantFiled: December 14, 1994Date of Patent: December 30, 1997Assignee: Rutgers UniversityInventors: Richard J. Mammone, Kevin Farrell, Brian Freeman
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Patent number: 5694433Abstract: A method and apparatus for producing amplified signals for communications having reduced adjacent channel energy involving generating a first signal having an undesired amount of adjacent channel energy, generating a second signal corresponding to the undesired amount of adjacent channel energy, and subtracting the second signal from the first signal to remove the undesired amount of adjacent channel energy. Several embodiments are disclosed.Type: GrantFiled: September 14, 1994Date of Patent: December 2, 1997Assignee: Ericsson Inc.Inventor: Paul W. Dent
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Patent number: 5633893Abstract: Continuous phase modulated (CPM) signals, such as quaternary CPFSK signals, are filtered to limit their bandwidth while simultaneously minimizing the amount of amplitude modulation and intersymbol interference introduced by this filtering process. By designing a modulation filter such as a finite impulse response (FIR) filter to add only a nominal, controlled amount of amplitude modulation, high efficiency, nonlinear power amplifiers may be employed to transmit the filtered CPFSK signals. Although the filter adds a small amount of amplitude modulation and intersymbol interference, digital signal processor-based receivers satisfactorily demodulate this type of signal using sequence estimation algorithms such as the Viterbi algorithm. Thus, the filtering of CPM signals permits narrowing of the transmitted signal spectrum while managing the intersymbol interference resulting from the controlled amount of amplitude modulation added by filtering.Type: GrantFiled: September 29, 1994Date of Patent: May 27, 1997Assignee: Ericsson Inc.Inventors: Ross W. Lampe, Jyun-chen Chen
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Patent number: 5623518Abstract: A method and apparatus for transmitting binary data trains of 0 and 1 data bits, or combinations of these data bits over a communications network. The data bits are converted into pulses whose polarity changes from pulse to pulse, so as to enable an optimal exploitation of the transmission channel with a low error rate. The pulses generated by an apparatus of the present invention have a signal shape that produces a minimum inter-symbol interference. Processing and evaluation of the transmitted pulses are performed by a processor, so that a minimal error rate is attainable even under unfavorable transmission conditions.Type: GrantFiled: April 16, 1993Date of Patent: April 22, 1997Assignee: Hani Prolectron AGInventor: Peter Pfiffner
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Patent number: 5491713Abstract: A Manchester decoder and clock recovery circuit for recovering Manchester encoded data and a clock synchronized with the incoming data. The circuit uses an oversampling rate of eight times the data rate, and a reduction in circuit elements to reduce the circuit power consumption requirements. The circuit operates in a search mode and in a tracking mode. A clock phase generator produces eight phase clocks, used by a sampling and majority vote circuit to determine the decoded data value. During the tracking mode, the phase of the synchronized clock can be adjusted during data reception.Type: GrantFiled: April 28, 1993Date of Patent: February 13, 1996Assignee: Hughes Aircraft CompanyInventors: Peter W. Kwok, Ira R. Feldman, Douglas A. Dwyer
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Patent number: 5446421Abstract: A data transmission system includes a source of a data signal and a modulator, responsive to the data signal, producing a first modulated signal representing the data signal and a second modulated signal representing a signal 180 out-of-phase with the data signal. The first and second modulated signals are transported via a transmission channel. A first demodulator demodulates the transported first modulated signal and a second demodulator demodulates the transported second modulated signal. A subtractor, responsive to the first and second demodulators, produces a signal representative of the data signal.Type: GrantFiled: February 2, 1994Date of Patent: August 29, 1995Assignee: Thomson Consumer Electronics, Inc.Inventor: David L. Kechkaylo