Abstract: In an example, a system for detecting an object in an area over a screen of a mobile device may comprise a light source and a photodetector tilted toward the screen. Since a field of view of the photodetector and a radiation field of the light source may be directed toward the screen, the system may detect that a user performed a non-contacting gesture in the area over the screen. In another example, a system for detecting multiple modes of finger gestures may detect at least one of a signature gesture, a thumb joystick mode, or a thumb mouse mode. The system can execute a calendar application upon detecting that a user gestured in the shape of a letter “C”. When detecting a thumb gesture, the system may utilize a sensor having a reduced range relative to the range needed for hand gestures and, thereby, reduce power consumption.

Abstract: In a data processing system, a method for implementing a factor graph having variable nodes and function nodes connected to each other by edges includes implementing a first function node and a on a first computer system, the first computer system being in network communication with a second computer system; establishing a network connection to each of a plurality of processing systems; receiving, at the first function node, soft data from a variable node implemented on one of the processing systems, the soft data including an estimate of a value and information representative of an extent to which the estimate is believed to correspond to a correct value; and transmitting, from the first function node to the one of the processing systems, soft data representing an updated estimate of the value.

Abstract: Apparatus and methods calibrate one or more gain ranges for errors. A system can identify offset error and amplification error that occurs when the system transitions from amplifying an input signal by a first gain factor to amplifying the input signal by a second gain factor. To identify the amplification error, the system can compare the slope of the data signal in a source or reference gain range with the slope of the data signal in the destination gain range. To identify the offset error, the system can compare the amplitude of the data signal in a destination gain range with an expected value in the destination gain range.

Abstract: An MEMS device has a dynamically variable reference capacitor that provides a reference to a sense capacitance. In some embodiments, a 3-axis accelerometer includes a proof mass suspended above a substrate from an anchor, and a cantilevered Z-axis reference capacitor arm suspended above the substrate from the same anchor. In some embodiments, the proof mass is suspended from a plurality of anchors, and each anchor also supports one or more cantilevered arms, the cantilevered arms forming a dynamically variable reference capacitance.

Abstract: A transconductance stage has a common-emitter transconductance stage having common emitter transistors, a common-base transconductance stage having common base transistors, wherein collectors of the common emitter transistors and collectors of the common base transistors are cross-connected to allow in-phase signal combining, an input differential signal applied to the common-emitter transconductance stage and the common-base transconductance stage in parallel, and a selectable gain output, the output selectable between at least one high gain and one low gain, wherein the low gain is lower than the high gain. A switchable transconductance stage has at least one input voltage signal having a frequency in the microwave range, a switchable gain setting, the switchable gain setting having at least two gain settings, and an output current signal having a gain determined by the switchable gain setting.

Abstract: A connection device for connecting a load to a power supply, comprising at least first and second current control devices arranged in parallel between the power supply and the load, and a controller arranged to switch the current control devices on in sequence for temporally overlapping on periods.

Abstract: Methods and apparatus for temperature control of devices and mechanical resonating structures are described. A mechanical resonating structure may include a heating element and a temperature sensor. The temperature sensor may sense the temperature of the mechanical resonating structure, and the heating element may be adjusted to provide a desired level of heating. Optionally, additional heating elements and/or temperature sensors may be included.

Abstract: An exemplary level shifter includes a clock level shifter configured to generate a level shifted clock signal from an input clock signal; and a switched capacitor logic controller coupled to the clock level shifter. The switched capacitor logic controller is configured to steer the level shifted clock signal based on a data signal and the input clock signal, providing a level shifted version of the data signal.

Abstract: Embodiments of the present disclosure provide improved switching techniques for controlling three-level DAC cells employing a return-to-hold scheme. Disclosed techniques include switching a DAC cell off for at least the duration of a time period between two hold periods while a digital value of zero is being converted. Because the DAC cell is switched off between two hold periods, the current source drain voltage is not disturbed during the critical transient times when D flip-flop outputs change, which happens during the hold periods, in response to change of digital values to be converted. In this manner, power consumption may be reduced while preserving the high performance properties of a three-level return-to-hold DAC.

Abstract: A device has at least two current mode logarithmic amplifiers having currents as their inputs, and multiplexing logic electrically connected to outputs of the current mode logarithmic amplifiers to select one of the current mode amplifiers to produce an output signal.

Abstract: Circuits for generating voltage references are common in electronics. For example, these circuits are used in analog-to-digital converters, which convert an analog signal into its digital representation by comparing analog input signals against one or more voltage references provided by those circuits. In many applications, the speed and accuracy of such voltage references are very important. The speed of the voltage references is related to the physical properties of the devices in the circuit. The accuracy of the voltage reference is directly related to the circuit's ability to trim the full-scale voltage output. The present disclosure describes a fast and efficient reference buffer with a wide trim range which is particular suitable for submicron processes and high speed applications. The reference buffer comprises a plurality of diode-connected transistors, which can be selected to turn on or off using a controller to provide a wide trim range.

Abstract: A circuit can include an NMOS transistor having a drain and a source, a p-well containing the drain and the source, an n-well under the p-well, a circuit node, and a connection element connecting the n-well to the circuit node. The connection element can include a diode having an anode terminal connected to the circuit node and a cathode terminal connected to the n-well, a resistor having a first terminal connected to the circuit node and a second terminal connected to the n-well, a conductor directly connecting the n-well to the circuit node, or a well switch configured to connect the n-well to the circuit node during an enable phase of a switching signal and to electrically float the n-well during a non-enable phase of the switching signal. The diode can include a diode-connected transistor. The circuit node can be configured to receive a predetermined voltage having a magnitude equal to or greater than an upper supply voltage.

Abstract: Aspects of this disclosure relate to reference switchover. In one embodiment, an apparatus includes a phase error detector, a phase alignment detector, and a selection circuit. The phase error detector is configured to generate an indication of a relative phase difference between a first reference clock signal and a second reference clock signal. The phase alignment detector is configured to receive the indication of the relative phase difference and determine when the relative phase difference satisfies a preset threshold. The selection circuit is configured to transition from providing the first reference clock signal as a clock system reference signal to providing the second reference clock signal as the clock system reference signal responsive to the phase alignment detector detecting that the relative phase difference satisfies the preset threshold.

Abstract: Techniques to provide calibration of a measurement system in conjunction with measurement operations. The techniques may include providing a reference device in a signal processing chain within the measurement system. An excitation signal may be driven through the reference device while it may be connected to the signal processing chain within the measurement system and a calibration response may be captured. During a measurement operation, the reference device connection may be complemented with a sensor connection in the signal processing chain and the excitation signal may be driven through the signal processing chain. A measurement response may be captured from the system. The measurement system may generate a calibrated measurement signal that accounts for phase and/or amplitude errors within the system from the calibration response and the measurement response.

Abstract: The invention may provide a temperature sensor device that includes an analog temperature sensor to generate a first base-emitter voltage and a second base-emitter voltage, and an analog-to-digital converter (ADC) to sample at the voltages and generate corresponding digital values. The temperature sensor device may also include a logic unit to calculate a digital temperature code from the digital values using a digital virtual reference.

Abstract: Trigger routing in computational hardware such as a digital-signal processor involves routing a trigger signal from a first, master module to a second, slave module, thereby initiating an event at the slave module without involving a core processing unit.

Abstract: Active Noise Cancellation (ANC) systems and methods that reduce latency to improve performance. In certain embodiments the systems sample a noise signal using a sample period to create a stream of digital signal data that is representative of the noise signal. A data transport layer carries the digital signal data to a signal processor. The transport layer temporally organizes the digital signal data to place the digital signal data within an initial phase of a sample period. The remaining phase of the sample period is set to a duration that allows the signal processor to process the digital signal data carried in the initial phase and to output the processed data during the same sample period. In this way, the processing of data occurs within one sample period and the latency is reduced and predictable.

Abstract: A computer program product and method for using a computer program product for graphically developing a computer program for execution at least in part on a separate host processor device, such as, a digital signal processor. The computer program product includes code for providing a graphical programming environment. The computer code which is used for developing the computer program includes a cell module for graphically representing a graphical control. The cell module does not contain any host processor specific code. The cell module may include code for rendering on the display of the computer that is operating as the programming environment one or more graphical controls. The cell module may also contain host processor independent code that accepts input from a user (parameter value) and converts the parameter value or applies an equation to the parameter value.

Abstract: Mechanical resonating structures, as well as related devices and methods of manufacture. The mechanical resonating structures can be microphones, each including a diaphragm and a piezoelectric stack. The diaphragm can have one or more openings formed therethrough to enable the determination of an acoustic pressure being applied to the diaphragm through signals emitted by the piezoelectric stack.

Abstract: A system that incorporates the subject disclosure may include, for example, a method for producing an electrical signal from an apparatus comprising an induction coil coupled to a mechanical resonator, wherein the electrical signal has an operating frequency proportional to a mechanical resonating frequency of the mechanical resonator and proportional to a change in a magnetic flux resulting from a change in orientation in the apparatus, detecting with a detection circuit a change in the electrical signal resulting from a change in the magnetic flux caused by the change in orientation in the apparatus, and determining a direction of the apparatus according to the change in the electrical signal. Other embodiments are disclosed.