Abstract: An audio output circuit includes a port attenuation circuit, which is configured to convert an abrupt dc voltage offset transition between a pair of audio signals received in sequence at an input thereof into a more gradual transition. This conversion is achieved by performing, in sequence, a ramp-to-mute operation on a first of the pair of audio signals and a ramp-from-mute operation on a second of the pair of audio signals. The ramp-to-mute operation includes ramping an output of the audio output circuit from a dc voltage offset associated with the first of the pair of audio signals to a reference dc voltage offset. The ramp-from-mute operation includes ramping the output of the audio output circuit from the reference dc voltage offset to a dc voltage offset associated with the second of the pair of audio signals. These ramping operations may be performed using voltage steps having uniform step size.

Abstract: A communication system includes a transmitter that transmits multiple data streams to a receiver in the communication system. Each of the data streams includes data and a skip ordered set. The receiver includes a deskew unit for each data stream, each of which includes multiple data queues. Each of the deskew units stores symbols of the data stream received by the deskew unit into the data queues of the data unit by distributing the symbols among the data queues. The deskew unit aligns data symbols across the data streams by deskewing symbols stored in the data queues of the deskew units based on skip ordered sets in the deskew units. Moreover, the receiver may deskew more than one symbol per clock cycle.

Abstract: A method and apparatus for active line interface isolation have been described.

Abstract: An integrated circuit 2 is provided with a clamp transistor 20 for providing electrostatic discharge event protection. A detector circuit 28 produces a clamp control signal for switching the clamp transistor 20 to a conductive state so as to provide the electrostatic discharge protection. The detector circuit 28 also generates an electrostatic discharge event signal 36 which is distributed elsewhere within the integrated circuit 2 and controls a protection circuit element 60, 64, 44 to force a processing control signal 40, 52 of a signal processing transistor 38, 54 into a state in which the signal processing transistor 38, 54 is more resistant to electrostatic discharge damage. The signal processing transistors 38, 54 may be P-type field effect transistors associated with a receiver 14 or a transmitter 12 connected to an external signal communication line.

Abstract: A computing system includes a computer device and a detachable touch screen device. The computer device receives input from a touch screen of a detachable touch screen device when the detachable touch screen device is attached to a touch screen port of the computer device and displays an image on a display device of the computer device based on the input. Further, the detachable touch screen device receives input from the touch screen when the detachable touch screen device is detached from the computer device and displays an image on the touch screen based on the input. In various embodiments, the detachable touch screen device performs a computing function, a communication function, or a media function based on the input to the touch screen when the detachable touch screen device is detached from the computer device.

Abstract: A memory device is provided. The memory device includes a plurality of memory chips coupled in series, and a register serially coupled to the memory chips. The register includes an integrated delay-locked loop. The memory device may be included in a processing system. Moreover, a method for improving timing budgets in a registered dual in-line memory module (RDIMM) may be implemented using the memory device having a register with an integrated delay-locked loop.

Abstract: A method and apparatus for auto-frequency calibration for multi-band VCO have been disclosed where a VCO is first adjusted to a major frequency band and then adjusted to a sub-band within the major frequency band.

Abstract: Exemplary embodiments provide a reference signal generator having a reference or center frequency within a predetermined variance over variations in temperature within a specified range. An exemplary apparatus comprises a reference resonator to generate a first reference signal having a resonant frequency, with the reference resonator having a first temperature dependence; and a plurality of switchable circuits, with at least one switchable circuit providing a second temperature dependence opposing the first temperature dependence to maintain the resonant frequency within a predetermined variance over a temperature variation.

Abstract: A multi-phase power switching converter having first and second states includes a pulse width modulator having an output, a converter output providing an output signal, and a plurality of drivers, each having an output electrically coupled to the converter output and an input. When the converter is in the first state where a duty cycle of the converter is less than or equal to 100 divided by the number of drivers, each of the driver inputs is configured to be sequentially electrically coupled to the pulse width modulator output. When the converter is in the second state where the duty cycle of the converter is greater than 100 divided by the number of drivers, each of the driver inputs is simultaneously electrically coupled to the pulse width modulator output.

Abstract: An apparatus and a method for enhancing the use of automated test equipment (ATE), are presented. The apparatus comprises a test load board that mounts a plurality of devices to be tested (DUTs), and a daughter card communicating with the test board and the ATE, testing each of the plurality of devices, and providing test results to the ATE. The method comprises mounting a plurality of devices to be tested on the test load board, using the daughter card to communicate with the test board and the ATE, and using the daughter card for testing each of the plurality of DUTs, providing test results to the ATE. Also provided is a system to perform automated tests of integrated chips, comprising an ATE scan test unit, an off-load tester resource coupled to the ATE scan test unit, a processor executing commands to control the ATE unit and the off-load tester resource.

Abstract: A package (216) for electrically connecting an integrated circuit (212) to a printed circuit board (214) includes a mount array (219) and a substrate body (216A). The mount array (219) is electrically connected to the integrated circuit (212). The mount array (219) includes a plurality of positive terminal mounts (342), a plurality of negative terminal mounts (344), and a plurality of signal mounts (346). The substrate body (216A) includes a first conductive layer (220a), a second conductive layer (220b), and an insulating layer (222a) that is positioned between the first conductive layer (220a) and the second conductive layer (220b). The first conductive layer (220a) includes (i) a terminal portion (350) that is connected one of the terminal mounts (342) (344), and (ii) a signal portion (352) that is connected to the signal mounts (346). Further, the second conductive layer (220b) is directly connected to the other of the terminal mounts (344) (342).

Abstract: A method and apparatus for an output buffer with dynamic impedance control have been disclosed.

Abstract: A method and circuit for generating an adjustable delay signal is presented, wherein the delay can be linear and monotonic with high resolution delay steps. The circuit utilizes one or more serially coupled delay cells and a load cell. Each delay cell comprises an inverter, a nor-multiplexer, and a programmable capacitor, wherein a first control signal is used to control the operation of the nor-multiplexer and a second control signal is used to control capacitance of the programmable capacitor. Values of the first and the second control signals are selected based on any desired range of total delay time and any desired delay time for a specific application of the circuit.

Abstract: Micro-electromechanical acoustic resonators include a substrate having a cavity therein and a resonator body suspended over the cavity. The resonator body is anchored on opposing sides thereof (by support beams) to first and second portions of the substrate. These first and second portions of the substrate, which extend over the cavity as first and second ledges, respectively, each have at least one perforation therein disposed over the cavity. These perforations may be open or filled. The first and second ledges are formed of a first material (e.g., silicon) and the first and second ledges are filled with a second material having a relatively high acoustic impedance relative to the first material. This second material may include a material selected from a group consisting of tungsten (W), copper (Cu), molybdenum (Mo).

Abstract: A phase-locked loop includes a sample selector configured to select a set of samples from an oversampled portion of a data signal, a dynamic phase decision control circuit configured to indicate whether a predetermined number of edges is present in the set of samples, and a phase detector configured to determine a skew condition and a direction of the skew condition of the set of samples based on the indication of the dynamic phase decision control circuit. The phase detector is configured to produce a set of skew detection signals based on at least one skew condition determination. The phase-locked loop further includes a loop filter configured to filter the set of skew detection signals. The loop filter is also configured to produce a set of phase adjustment signals based on the set of skew detection signals. The sample selector is configured to select a set of samples from the oversampled portion of the data signal, based on the set of phase adjustment signals.

Abstract: A method and apparatus for frequency compensation for multi-band VCO have been disclosed where a VCO tank loading capacitance is adjusted slowly to allow VCO operation in a linear range.

Abstract: A serial buffer having a parser and multiple parallel processing paths is provided. The parser receives incoming packets, determines the type of each packet, and then routes each packet to a processing path that corresponds with the determined packet type. Packet types may include blocking priority packets (which implement bus slave operations), non-blocking priority packets (which access on-chip resources of the serial buffer) and data packets (which implement bus master operations). Because the different packet types are processed on parallel processing paths, the processing of one packet type does not interfere with the processing of other packet types. As a result, blocking conditions within the serial buffer are minimized.

Abstract: Exemplary embodiments of the invention provide a reference signal generator having a controlled quality (“Q”) factor. An exemplary apparatus to generate a harmonic reference signal includes a reference resonator, such as an LC-tank, which generates a first reference signal having a resonant frequency, and a plurality of reactance modules couplable to the reference resonator. Each reactance module comprises one or more reactance unit cells, and each reactance unit cell comprises a reactance element coupled in series to a switching element. In exemplary embodiments, the reactance element is a capacitor having a predetermined unit of capacitance, and the switching element is a transistor having a predetermined resistance when in an off state. The ratio of capacitance to resistance is substantially constant for all reactance modules of the plurality of reactance modules.

Abstract: A buffered DRAM that can be utilized in a DIMM or RDIMM package to reduce the load on the data lines connected to the package is presented. A buffered DRAM can include a DRAM memory cell; and a buffer coupled to receive data lines and strobe signals, the buffer further coupled to receive address and command signals. If data access is directed to a second DRAM, the buffer buffers the data and strobe signals for access by the second DRAM. If data access is directed to the buffered DRAM the buffer buffers the data and strobe signals for access by the DRAM memory cell.

Abstract: A divider can include a phase selection circuit that switches between a plurality of phase-separated clock signals in response to a fractional control signal to form a selected clock signal, the selected clock signal being utilized to generate a second clock signal; and a counter that receives the second clock signal and generates the fractional control signal and a transition control signal, the transition control signal indicating when the second clock signal should switch states in response to a transition of the selected clock signal, the counter generating a feed-back clock signal.