Patents Represented by Attorney, Agent or Law Firm Brian S. Edmonston
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Patent number: 6687285Abstract: A mobile station operating in the slotted mode, while monitoring the Quick Paging Channel, monitors the Paging Channel in its assigned slot at least once every N minutes, regardless of what the Quick Paging Channel indicates for that slot. The mobile station shall keep a counter for the number of false alarms that have occurred and another counter for the number misses that have occurred. The count of accumulated false alarms (QPCH_FA) and the count of accumulated misses (QPCH_MISS) are stored by the mobile station and will be sent to the base station when so requested. These two counters can be reset at powering-up or by the base station via messaging, or both. When the number of accumulated misses in a given time interval T1 exceeds a certain threshold Nm1, the mobile station may send a message to inform the base station of this.Type: GrantFiled: March 19, 1999Date of Patent: February 3, 2004Assignee: Qualcomm IncorporatedInventor: Yu-Cheun Jou
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Patent number: 6400712Abstract: An efficient method and architecture for transferring packetized digital data over a circuit switched data network. On packet data calls, the receiving entity initially identifies the packetized data call as being of the circuit switched variety, thereby permitting further processing of the call using circuit switched infrastructure. Based on identification information embedded in the received data packets, the receiving entity subsequently identifies the call as being a packet data format, and routes the payload packet data to the upper layers of the protocol stack of the receiving entity. The network layer then routes the packet data directly to the connected data network (such as the internet), bypassing normal circuit switched call processing. Accordingly, infrastructure not equipped to handle packet data can be made to do so in an efficient and reliable manner, using only existing cellular service options and a unified interworking function (IWF) module.Type: GrantFiled: May 26, 1998Date of Patent: June 4, 2002Assignee: Qualcomm IncorporatedInventor: Marc S. Phillips
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Patent number: 6323725Abstract: A bias cell for use in biasing all NMOS differential pair is configured to substantially eliminate variations in transconductance caused by body effects. In one example, a voltage threshold mismatch between NMOS devices of the bias cell is substantially eliminated to thereby reduce variations in transconductance caused by body effects. To reduce the voltage threshold mismatch, the bias cell includes a transconductance-setting resistor connected between gates of a pair of current source devices. Circuitry is connected to the resistor for applying a voltage across the resistor. A bias line connects a signal output from the bias circuit to the differential pair.Type: GrantFiled: March 31, 1999Date of Patent: November 27, 2001Assignee: Qualcomm IncorporatedInventors: Jeremy Mark Goldblatt, Seyfollah Bazarjani
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Patent number: 6314534Abstract: A novel and improved method and apparatus for address generation in an interleaver is provided. In accordance with one embodiment of the invention, an address is generated using a random address fragment and a bit reversed address fragment. The bit reversed address fragment is selected by first generating two consecutive candidate bit reversed fragments. The second bit reversed address fragment is selected when the first bit reversed address fragment generates an address that is greater than a maximum address. The address generator allows address generation for interleaver and deinterleaver frame sizes of N, where N is not an integer power of two, without any cycle penalty.Type: GrantFiled: March 31, 1999Date of Patent: November 6, 2001Assignee: Qualcomm IncorporatedInventors: Avneesh Agrawal, Qiuzhen Zou
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Patent number: 6130923Abstract: A wireless receiver receiving multipath Wash-code symbols determines which of fingers 402, 410 have locked on a signal. Measurements of the correlation energies between the received signal and all possible symbols are stored in energy storage units 404, 412. The actual signals are combined in combiner 408. A maximum determiner 416 determines the most likely combined symbol, and an index for this symbol is fed back to the energy storage units. Lock detectors 406, 414 use the measurement for this fed-back symbol to determine whether the finger has locked onto a path. This determination is used to decide whether the next signal detected by that finger should be applied to the combiner.Type: GrantFiled: December 11, 1998Date of Patent: October 10, 2000Assignee: QUALCOMM IncorporatedInventors: Jeffrey A. Levin, Christopher C. Riddle, Tom B. Sherman
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Patent number: 6118826Abstract: A method and apparatus for encoding and decoding QAM trellis modulated data. In the transmitter, a subset of bits of an input bit set are convolutionally encoded based upon a punctured convolutional code of a lower data rate to provide a set of coded symbols. The coded symbols and the uncoded bits of the input bit set are provided to a QAM modulator to provide a QAM modulation signal indicative of the values of coded symbols and the uncoded bits. In the receiver a QAM demodulator converts the received QAM signal to QAM signal space coordinates. A decoder employing the Viterbi algorithm is used to reconstruct a corrected estimate of the values of the coded data bits from the received signal coordinates. The corrected estimate of the values of the coded data bits are then used in conjunction with the received signal coordinates to provide corrected estimates of the values of the uncoded input bits.Type: GrantFiled: July 16, 1997Date of Patent: September 12, 2000Assignee: QUALCOMM IncorporatedInventors: Ephraim Zehavi, Jack Keil Wolf
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Patent number: 6111857Abstract: A novel and improved method and apparatus for planning a wireless telecommunications network. An electronic representation of wireless telecommunications system can be configured within a given market area and the operation of that wireless telecommunications system simulated. The simulation is performed using a set of databases that contain terrain and population information associated with the market area over which the wireless network in configured. To perform the simulation a composite propagation loss matrix and a demand and service vector are generated using the terrain and population information, as well as the configuration of the wireless telecommunications network. Once the composite propagation loss matrix and the demand and service vector are generated an analysis of the reverse link is performed. Subsequently, an analysis of the forward link is performed. During both the reverse and forward link analysis the multiple iterations of analysis are performed until a stable result is achieved.Type: GrantFiled: September 11, 1997Date of Patent: August 29, 2000Inventors: Samir S. Soliman, Sheila M. Reynolds
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Patent number: 6111865Abstract: A novel and improved method and system for paging a cellular telephone or other wireless terminal using two paging channels that reduces standby mode power consumption described. In one embodiment of the invention, a minimally encoded quick paging channel is established over which short, quick page messages are transmitted during one of a set of quick paging slots. The quick page message indicates that a communications request has been received, and that the receiving communication terminals should process a highly encoded full paging channel over which more detailed, full page messages are transmitted during the next full paging slot. A terminal monitors full paging channel only after a quick page message has been received on the quick paging channel.Type: GrantFiled: May 30, 1997Date of Patent: August 29, 2000Assignee: Qualcomm IncorporatedInventors: Brian K. Butler, Klein S. Gilhousen
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Patent number: 6101397Abstract: The process of the present invention enables a mobile radiotelephone to signal a request for a voice connection after transmission of a facsimile image. The user depresses a button on the radiotelephone when a voice connection is needed. The radiotelephone transmits the request as a frame of data to the base station. The base station interprets the request and, after the facsimile transmission, turns off the modems and turns on the speech coders in anticipation of the voice signal.Type: GrantFiled: November 27, 1996Date of Patent: August 8, 2000Assignee: Qualcomm IncorporatedInventors: Matthew S. Grob, Gadi Karmi
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Patent number: 6073007Abstract: A method and apparatus for providing personal and business mobile wireless communications service is described. A message is received having a message type. Message separability and cost allocation is performed based on the message type. The message is processed when the message is a fleet message, and the message is forwarded to a message management center when the message is a personal message. Once the message is forwarded, it is deleted. In one embodiment of the invention, the messages are transmitted via a wireless satellite link between a mobile communications terminal and a network management system. A fleet computer receives the messages from the network management system and, after determining whether they are personal or fleet messages, processes them accordingly.Type: GrantFiled: July 24, 1997Date of Patent: June 6, 2000Assignee: Qualcomm IncorporatedInventor: Thomas F. Doyle
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Patent number: 6069526Abstract: A power amplifier circuit arrangement particularly useful for portable phones used in wireless systems. A power amplifier stage can be partially or completely bypassed so that multi-stage amplifiers can be built that allow wide dynamic range of power amplification to be obtained efficiently. A switch at the input of an amplifier stage couples an input signal either to an amplifier or to a bypass path. The output of the amplifier is coupled to a first impedance-transforming network. The bypass path includes a second impedance-transforming network. A third impedance transforming network couples the outputs of the first and second impedance transforming networks. The impedance transforming networks are constructed and arranged so that input and output signals see the correct load regardless of whether the amplifier is used or bypassed. Using the principles of this invention, multi-stage amplifiers can be constructed including input and bypass attenuators to achieve a wide range of gain levels.Type: GrantFiled: August 4, 1998Date of Patent: May 30, 2000Assignee: Qualcomm IncorporatedInventor: Gary J. Ballantyne
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Patent number: 6038037Abstract: A novel and improved method and apparatus for providing an interface to a digital wireless telephone system compatible with standard analog wire line fax machines is described. To process a fax, a source interface waits until an interface to a destination fax machine has been established before establishing an interface to a source fax machine. The source fax transmission rate must be less than or equal to the destination fax transmission rate and the data rate of the digital channel. To establish the source fax interface at the proper rate, the source interface first selects and initial data rate from a set of standard fax transmission rates. The source interface sends unacceptable rate (failure to train) messages to the source fax machine until the source fax transmission rate is less than or equal to the data channel rate and the destination fax transmission rate.Type: GrantFiled: December 13, 1996Date of Patent: March 14, 2000Assignee: Qualcomm IncorporatedInventors: Nikolai K. N. Leung, Johnny K. John
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Patent number: 6023717Abstract: A discrete polyphase digital filter is provided having only a single multiplier and a single cumulative adder for use in a mobile telephone. In one implementation, the filter is a discrete N-phase digital filter including an input line providing an input signal and a group of M delay elements connected to the input line for generating M successively delayed versions of the input signal. A coefficient memory unit is provided for storing M filter coefficients. A multiplier is connected to outputs of the delay elements and to the coefficient memory for multiplying the output of each successive delay element with a corresponding coefficient. A cumulative adder is also provided for summing M successive outputs from the multiplier to provide a single, filtered output signal for each group of M input signals. The multiplier and adder are operated at a rate of M/N times a frequency of the input signal to thereby provide one output signal for every N input signals.Type: GrantFiled: October 30, 1996Date of Patent: February 8, 2000Assignee: Qualcomm IncorporatedInventor: Panayotis Argyroudis
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Patent number: 6006108Abstract: A novel and improved digital FM audio processor for use in a dual-mode communication system selectively operative in either FM or code division multiple access (CDMA) modes. Analog voice or voice-band data is input to a speech encoder/decoder (CODEC) which converts the analog signal to a digital signal. The digital FM signal is read from the CODEC, filtered, compressed, up-sampled and combined with a transponded SAT signal and then modulated for RF transmission. On the receive side, the FM analog signal is received, demodulated, down-sampled, expanded, and filtered before being converted to the proper format (.mu.-law, a-law, or linear) for the speech CODEC. The CODEC then converts the digital FM audio signal into an analog waveform for conversion to sound. By performing the FM audio processing digitally, the same digital signal processing (DSP) firmware may integrated on the same application specific integrated circuit (ASIC) which is capable of performing audio processing of both FM and CDMA audio signals.Type: GrantFiled: January 31, 1996Date of Patent: December 21, 1999Assignee: QUALCOMM IncorporatedInventors: Peter J. Black, Randeep Singh, Way-Shing Lee, Henry Chang
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Patent number: 6005506Abstract: A receiver comprising a sigma-delta analog-to-digital converter (.SIGMA..DELTA. ADC) can be utilized in one of four configurations, as a subsampling bandpass receiver, a subsampling baseband receiver, a Nyquist sampling bandpass receiver, or a Nyquist sampling baseband receiver. For subsampling .SIGMA..DELTA. receivers, the sampling frequency is less than twice the center frequency of the input signal into the .SIGMA..DELTA. ADC. For Nyquist sampling .SIGMA..DELTA. receivers, the sampling frequency is at least twice the highest frequency of the input signal into the .SIGMA..DELTA. ADC. For baseband .SIGMA..DELTA. receivers, the center frequency of the output signal from the .SIGMA..DELTA. ADC is approximately zero or DC. For bandpass .SIGMA..DELTA. receivers, the center frequency of the output signal from the .SIGMA..DELTA. ADC is greater than zero.Type: GrantFiled: December 9, 1997Date of Patent: December 21, 1999Assignee: Qualcomm, IncorporatedInventors: Seyfollah S. Bazarjani, Steven C. Ciccarelli, Saed G. Younis, Daniel K. Butterfield
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Patent number: 6002933Abstract: A method and apparatus for operating a cellular telephone system that supports performing an inter-system soft handoff is described. A subscriber unit generates a pilot strength measurement report when the pilot channel from a base station is detected. When a base station controller receiving the pilot strength measurement report determines that the base station is part of a second cellular telephone system, a inter-system soft handoff request is generated. An admission control subsystem receives the inter-system soft handoff and either grants or denies the request base on the traffic level with the second cellular telephone system. In a preferred embodiment of the invention, the traffic level is determined based on link load messages received periodically by the admission control subsystem that are generated by an interface port coupled to an interconnect between the first cellular telephone system and the second cellular telephone system.Type: GrantFiled: April 29, 1997Date of Patent: December 14, 1999Assignee: Qualcomm IncorporatedInventors: Paul E. Bender, Toni L. Holcman, Gadi Karmi, Kuo-Chun Lee, Suzanne M. Lueder, Bibhu P. Mohanty, Robert C. Ottinger, Roy F. Quick, Jr., Steven P. Stachwick, Todd Sutton, Venkat Tangirala, Noam A. Ziv
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Patent number: 5982315Abstract: A bandpass .SIGMA..DELTA. DC utilizing either a single-loop or a MASH architecture wherein the resonators are implemented as either a delay cell resonator, a delay cell based resonator, a Forward-Euler resonator, or a two-path interleaved resonator. The resonator can be synthesized with analog circuit techniques such as active-RC, gm-C, MOSFET-C, switched capacitor, or switched current. The switched capacitor or switched current circuits can be designed using single-sampling, double-sampling, or multi-sampling circuits. The non-stringent requirement of a .SIGMA..DELTA. ADC using switched capacitor circuits allows the ADC to be implemented in a CMOS process to minimize cost and reduce power consumption. Double-sampling circuits provide improved matching and improved tolerance to sampling clock jitter. In particular, a bandpass MASH 4-4 .SIGMA..DELTA. ADC provides a simulated signal-to-noise ratio of 85 dB at an oversampling ratio of 32 for a CDMA application. The bandpass .SIGMA..DELTA.Type: GrantFiled: September 12, 1997Date of Patent: November 9, 1999Assignee: QUALCOMM IncorporatedInventors: Seyfollah S. Bazarjani, Saed G. Younis
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Patent number: 5978413Abstract: A method and system incorporating the use of interference cancellation during synchronized demodulation of a code division multiple access (CDMA) signal is described. A wireless communications receiver uses synchronized demodulation techniques to estimate the data contained in multiple orthogonal sub-channels of multiple CDMA signals. In response to these estimates an ideal waveform is constructed for each CDMA signal. These ideal waveforms are subtracted from the original signal received to form an interference-cancelled version of the original signal which is used when demodulating individual orthogonal sub-channels.Type: GrantFiled: August 28, 1995Date of Patent: November 2, 1999Inventor: Paul E. Bender
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Patent number: 5978679Abstract: A novel and improved method and apparatus for switching the radio interface layer of a wireless telephone call from code division multiple access (CDMA) cellular to GSM time division multiple access (TDMA) cellular during the course of that telephone call or other communication is described. In accordance with one embodiment of the invention, a set of base stations operating in accordance with the GSM standard generate pilot beacons signals in accordance with CDMA technology. During a phone call, a subscriber unit detects CDMA pilot signals, and notifies a base station controller when CDMA pilot signals are detected and the strength at which they are received. The base station controller identifies CDMA pilot signals from CDMA pilot beacon, and initiates a CDMA to GSM handover via the generation of a set of signaling messages which instruct the subscriber unit and receiving GSM infrastructure equipment to prepare for the switching of the radio interface layer.Type: GrantFiled: February 23, 1996Date of Patent: November 2, 1999Assignee: QUALCOMM Inc.Inventor: Daniel H. Agre
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Patent number: 5974041Abstract: An amplifier circuit for providing an amplified signal in response to an input signal. The amplifier circuit includes an input network for applying the input signal to a selected at least one of a plurality of amplifier stages. An output network is provided for coupling the amplified signal from the selected at least one amplifier stage. The appropriate amplifier stage is selected by a control circuit in response to a desired power value of the amplified signal. By selectively activating only the amplifier stage(s) that are necessary to provide the desired level of output power, increased DC efficiency can be accomplished in applications that require an amplifier which operates linearly over a wide dynamic range.Type: GrantFiled: December 27, 1995Date of Patent: October 26, 1999Assignee: Qualcomm IncorporatedInventors: Richard K. Kornfeld, Charles E. Wheatley, III, Richard J. Camarillo, Katherine W. White