Patents Represented by Attorney, Agent or Law Firm William M. Hooks
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Patent number: 7872527Abstract: A circuit, system and method determine the control voltage for a DC-DC converter. A control module determines a raw battery voltage and an operating temperature. It references a look up table to determine a voltage regulator control voltage based on the battery voltage and the operating temperature during normal operation. In some cases, the control module also uses a level of interference to determine the control voltage.Type: GrantFiled: March 31, 2009Date of Patent: January 18, 2011Assignee: QUALCOMM, IncorporatedInventor: Graham Paul Smith
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Patent number: 7851947Abstract: A circuit which selects a supply voltage from a plurality of voltage supplies is presented. The circuit includes a first transistor configured to select a first voltage supply, a second transistor configured to select a second voltage supply, a first parasitic current inhibitor coupled the first transistor, the first voltage supply, and the second voltage supply, where the first parasitic current inhibitor automatically utilizes the voltage supply providing the highest voltage for preventing a substrate current from flowing through a bulk node of the first transistor, and a second parasitic current inhibitor coupled the second transistor, the first voltage supply, and the second voltage supply, where the second parasitic current inhibitor automatically utilizes the voltage supply providing the highest voltage for preventing a substrate current from flowing through a bulk node of the second transistor.Type: GrantFiled: November 5, 2007Date of Patent: December 14, 2010Assignee: QUALCOMM, IncorporatedInventors: Marco Cassia, Aristotele Hadjichristos, Conor Donovan, Sang-Oh Lee
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Patent number: 7839202Abstract: A bandgap voltage reference circuit and methods for generating a bandgap reference voltage are disclosed. An operational amplifier receives first and second input voltages from a first and second current path, respectively. A buffer stage is coupled to an output of the operational amplifier and generates third and fourth voltages on the first and second path. A temperature dependent current is generated using the third and fourth voltages in combination with a first diode, second diode and a resistor. A third current path mirrors the temperature dependent current and a temperature independent voltage is generated for the bandgap reference voltage in the third current path using the temperature dependent current in combination with a second resistor and related diode.Type: GrantFiled: October 2, 2007Date of Patent: November 23, 2010Assignee: QUALCOMM, IncorporatedInventors: Susanta Sengupta, Kenneth Charles Barnett, Yunfei Feng
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Patent number: 7764127Abstract: This disclosure describes designs for a digitally controlled oscillator (DCO). The DCO can overcome many of the shortcomings associated with conventional voltage controlled oscillators (VCOs), and may improve wireless communication devices. The described DCO may improve the frequency synthesis process, reduce noise in a wireless communication device, and allow for simplification of various components of the device.Type: GrantFiled: November 30, 2006Date of Patent: July 27, 2010Assignee: QUALCOMM, IncorporatedInventors: Bo Sun, Arun Jayaraman, Gary John Ballantyne, Gurkanwal S Sahota
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Patent number: 7739425Abstract: Various methods and processing systems are disclosed which include sending and receiving components communicating over a bus having first and second channels. The sending component may broadcast on the first channel a plurality of read and write address locations, a plurality of transfer qualifiers, and write data. The receiving component may store the write data broadcast on the first channel at the receiving component based on the write address locations and a first portion of the transfer qualifiers. The receiving component may also retrieve read data from the receiving component based on the read address locations and a second portion of the transfer qualifiers, and broadcast the retrieved read data on the second channel.Type: GrantFiled: January 21, 2005Date of Patent: June 15, 2010Assignee: QUALCOMM, IncorporatedInventor: Jinsoo Kim
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Patent number: 7692486Abstract: An amplifier is disclosed that includes configurable feedback based on the output of a received signal strength indicator. The feedback may be increased for high received signal levels, and decreased for low received signal levels. In an embodiment, the configurable impedance may comprise a plurality of discrete impedance settings. Amplitude and/or time hysteresis may be incorporated.Type: GrantFiled: October 5, 2007Date of Patent: April 6, 2010Assignee: QUALCOMM, IncorporatedInventors: Mahim Ranjan, Li Liu
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Patent number: 7573853Abstract: Controlling transmission energy in a variable rate communication system that gates out portions of a frame in a predetermined and predicable fashion. In particular, the present invention describes a method and apparatus which identifies closed loop power control commands that have been generated erroneously based on portions of a frame that have been gated. The identified power control commands are ignored. In an alternative embodiment, if identification of the erroneous power control commands occurs after response measures have been taken, the transmitting station responds by setting the transmission energy back to the state it would have been in had the erroneous power control commands been identified prior to the response.Type: GrantFiled: April 10, 2003Date of Patent: August 11, 2009Assignee: QUALCOMM IncorporatedInventors: Ahmed Saifuddin, Sandip Sarkar, Edward G. Tiedemann, Jr.
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Patent number: 6777908Abstract: A battery cell balancing method and apparatus. A simple and inexpensive method and apparatus to balance the cells within a battery configuration where at least some of the cells are arranged in series or a combination of series and parallel. One embodiment balances the cells proportionally to the level of imbalance between the cells. This embodiment is adaptable to more than two cells in series. Another embodiment balances the cells with a constant current. This embodiment will more quickly balance the cells because of the constant current. Components are selected in specific positions to reduce the current draw of the circuit and the effect on the system. The invention injects current into or withdraws current from a position between series cells to be balanced based on whether the voltage is higher or lower than the fractional voltage needed for the cells to be in balance.Type: GrantFiled: May 13, 2002Date of Patent: August 17, 2004Assignee: Qualcomm IncorporatedInventors: Richard E. Thorne, William Von Novak
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Patent number: 6671250Abstract: A method for deep paging in a communication system employing orthogonal channelizing codes, such as Walsh sequences, of predetermined length m, that does not require a high powered paging channel. The method includes the steps of generating a paging channel message which is combined with a Walsh sequence having a length greater than or equal to 2m, and transmitting the paging channel message at a data rate of less than 4800 bits per second (bps). By transmitting the paging channel message at a low data rate and integrating collected energy over a period longer by a factor on the order of 1000, the message is able to penetrate buildings and other structures or high attenuation environments, thereby allowing one to successfully page a user terminal that is inside such a structure or area. Preferably, the paging channel message is formed using an auxiliary Walsh sequence on the order of 65536 chips in length, and the data rate is less than 10 bps.Type: GrantFiled: August 17, 1999Date of Patent: December 30, 2003Assignee: Qualcomm IncorporatedInventor: Leonard N. Schiff
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Patent number: 6519456Abstract: A base station architecture splits modem functionality into modulator and demodulator entities, each configured to handle multiple telephone calls. A high-speed digital bus with associated routing elements connects multiple-channel (i.e., multiuser) modulator and demodulator elements. The modulator and demodulator elements may be physically separated, residing on different cards, and even different shelves, within the base station. During softer handoff between forward channels of the base station, multiple modulator elements use the address of a demodulator element in communication with a mobile subscriber unit. A base station controller broadcasts forward-link frames to all modulator elements. The multiple modulator elements simultaneously receive forward-link frames from the base station controller. The multiple modulator elements filter these forward-link frames and accept only those to be transmitted to the particular mobile subscriber unit in communication with the demodulator element.Type: GrantFiled: October 14, 1998Date of Patent: February 11, 2003Assignee: Qualcomm IncorporatedInventors: Franklin P. Antonio, Houtan Dehesh, Walid Hamdy, Kuo-Chun Lee, Jan K. Wegrzyn