Abstract: An approach to separating multiple sources exploits the observation that each source is associated with a linear-circular phase characteristic in which the relative phase between pairs of microphones follows a linear (modulo) pattern. In some examples, a modified RANSAC (Random Sample Consensus) approach is used to identify the frequency/phase samples that are attributed to each source. In some examples, either in combination with the modified RANSAC approach or using other approaches, a wrapped variable representation is used to represent a probability density of phase, thereby avoiding a need to “unwrap” phase in applying probabilistic techniques to estimating delay between sources.

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: In this disclosure, new structures for high-performance voltage buffers (source followers and emitter followers) are described. The structures achieve high performance (linearity) and reduce power consumption. In addition, they are reconfigurable to optimize the performance and power consumption depending on the input frequency range.

Abstract: Apparatus and methods for amplifier input protection are provided. In certain implementations, an amplifier input protection circuit includes a first JFET electrically connected between a first input and a first output, and a second JFET electrically connected between a second input and a second output. Additionally, a first clamp is electrically connected to the first output, and a second clamp is electrically connected to the second output. A first current mirror mirrors a current through the first clamp, and provides the mirrored current to a third JFET electrically connected between the first JFET's source and gate. Additionally, a second current mirror that mirrors a current through the second clamp, and provides the mirrored current to a fourth JFET that is electrically connected between a source and gate of the second JFET. Configuring the protection circuit in this manner can provide the benefits of both low noise and low fault current.

Abstract: In one example embodiment, a programmable filter is provided, including a plurality of variable-inductance networks and a plurality of variable-capacitance networks. The programmable filter may be implemented in a classical filter topology, with variable-capacitance networks replacing discrete capacitors and variable-inductance networks replacing discrete inductors. An example variable-inductance network comprises a primary inductor with an intermediate tap, and secondary inductor connected at the intermediate tap, with switches for selecting an inductance.

Abstract: Apparatus and methods for high-frequency low-pass filtering are disclosed. A first resistor is operatively coupled between a first node and a second node. A second resistor is operatively coupled between the second node and a third node. An amplifier circuit has a first input operatively coupled to the third node and a first output operatively coupled to a fourth node. The first output is configured to provide a first output signal. A first complex impedance network is operatively coupled between the fourth node and the third node. A first feedback path is operatively coupled between the fourth node and the second node. The first feedback path is configured to invert at least a portion of the first output signal. The first feedback path is further configured to provide a first feedback capacitance at the second node.

Abstract: Embodiments of the present invention may provide a relative angular motion measurement system that includes a remote device used to control operations of a host device. The remote may include a plurality of light sources with predetermined light distribution patterns and angles of orientation with respect to a major axis of the remote. The host device may include a sensor and a controller. The sensor may detect light emitted from the remote (via the light sources) and generate output signals that may be interpreted by the controller. The controller may interpret the output signals from the sensor to estimate received intensity from each light source and calculate the orientation of the remote device based on data representing the light sources' light distribution patterns with fixed angles of orientation.

Abstract: The disclosed technology relates to an apparatus for protection against transient electrical events. In one aspect, the apparatus includes an analog switch with high bipolar blocking voltage comprising a first p-type well region, a second p-type well region, a first n-type well region disposed between the first and second p-type well regions, and a deep n-type well region surrounding the first p-type well region, the second p-type well region, and the first n-type well region. The apparatus additionally includes a first native n-type region disposed between the first p-type well region the n-type well region and a second native n-type region disposed between the second p-type well region and n-type well region. The apparatus is configured such that the first p-type well region serves as an emitter/collector of a bidirectional PNP bipolar transistor.

Abstract: A satellite sensor system for a vehicle includes an application motion sensor for sensing vehicle motion for the purpose of activating a vehicle safety system, a low power consumption motion sensor for monitoring vehicle motion when the vehicle is parked or otherwise not in a driving mode, and an RF communications interface to allow the satellite sensor system to communicate with the vehicle's electronics control unit. The system withholds power from the application sensor until the low power consumption motion sensor indicates that the vehicle is about to enter a driving mode.

Abstract: Various embodiments of the present invention methods for discovery, configuration, and coordinating data communications between master and slave devices in a communication system. Exemplary embodiments are described with reference to a two-wire point-to-point bus system, although the method can be used in other communication systems. Provisions are included for controlling the sequential powering of the bus and slave devices.

Abstract: A system has a baseband gain stage to receive incoming in-phase and quadrature voltage signals and output in-phase and quadrature current signals, a mixer core arranged to receive the in-phase and quadrature current signals and output radio frequency signals, and a variable gain amplifier to receive the radio frequency signals and produce a broadband radio signal.

Abstract: An analog to digital convertor (ADC) comprises an integrator having an input selectively connected to an intermediate frequency (IF) signal input and an output connected to a summer. The summer has an output connected to an input of a quantizer, the quantizer output being operatively connected to a signal strength indicator. The integrator includes a programmable gain feedback component. The summer has a synthesized calibration signal input, the value of the programmable gain feedback component being configured to vary when a synthesized calibration signal at the intermediate frequency is applied to the summer. The signal strength indicator is configured to detect a value of the programmable gain feedback component when the signal strength is minimized and to calibrate the ADC accordingly.

Abstract: An exemplary method and system of addressing an integrated circuit within a daisy chain network. In the exemplary method, the address of the integrated circuit may be initialized to a predetermined initial address. The integrated circuit may receive a command that includes a type identifier and an address field. Based on the type identifier, the type of command may be determined. As a result of the determination, reading the address from the address field. The read address may be stored in a register. The address may be modified, and may be output. Upon receipt of the data or a command, the integrity of the data including data within the received command, may be confirmed by an error checking algorithm.

Abstract: A microelectronic device tester has a mounting member (for mounting a device), a drive shaft connected to the mounting member, and a vibration shaft mechanically in communication with the drive shaft. The drive shaft and vibration shaft are non-coaxial, and the drive shaft has a drive shaft proximal end and a drive shaft distal end. The drive shaft proximal end is connected to the mounting member, and the drive shaft distal end terminates proximal of the entire vibration shaft.

Abstract: A signal processing device has a first discrete time analog signal processing section, which has an input, an output, a plurality of charge storage elements, and plurality of switch elements coupling the charge storage elements. The device has a controller coupled to the first signal processing section configured to couple different subsets of the charge elements of the first signal processing section in successive operating phases to apply a signal processing function to an analog signal presented at the input of the first signal processing section and provide a result of the applying of the signal processing function as an analog signal to the output of first signal processing section. The signal processing function of the first signal processing section comprises a combination of a filtering function operating at a first sampling rate and one or more modulation functions operating at corresponding modulation rates lower than the first sampling rate.

Abstract: The invention is directed to a multi-bit digital signal isolation system including a plurality of micro-transformers, each having a primary winding and a secondary winding, a transmitter circuit receiving a multi-bit signal and transmitting an encoded logic signal across the plurality of micro-transformers corresponding to the multi-bit signal, the primary winding of each micro-transformer receiving a signal corresponding to one of at least three possible states, and a receiver circuit receiving the encoded logic signal from the secondary windings of the plurality of transformers, decoding the encoded logic signal and reconstructing the received multi-bit signal based upon the decoded signal.

Abstract: A three-dimensional printing technique can be used to form a microphone package. The microphone package can include a housing having a first side and a second side opposite the first side. A first electrical lead can be formed on an outer surface on the first side of the housing. A second electrical lead can be formed on an outer surface on the second side of the housing. The first electrical lead and the second electrical lead may be electrically shorted to one another. Further, vertical and horizontal conductors can be monolithically integrated within the housing.

Abstract: Digital-to-analog converters (DACs) are used widely in electronics. The DACs are usually not ideal and typically exhibits errors, e.g., static mismatch errors. This disclosure describes a digital calibration technique for DAC static mismatch in continuous-time delta-sigma modulators (CTDSMs). The methodology utilizes the DAC unit elements (UEs) themselves to measure each other's mismatch. There are no extra circuitries except for the logic design inside DAC drivers or comparators. The methodology is an attractive calibration technique for high performance CTDSMs, especially for high speed system in multi-gigahertz range with low over-sampling rate (OSR).

Abstract: Apparatus and methods for multi-channel autozero and chopper amplifiers are provided herein. In certain configurations, an amplifier includes at least three channels that operate using multiple phases, including at least a non-inverting chop phase, an inverting chop phase, and an autozero phase. The amplifier further includes an autozero and chopping timing control circuit, which at least partially interleaves or staggers timing of the channels' phases. For example, in certain configurations, when one or more of the channels are being autozeroed at a certain time instance, at least some of the remaining channels operate in the non-inverting chop phase or the inverting chop phase.

Abstract: The present disclosure describes a mechanism to digitally correct for the static mismatch of the digital-to-analog converter (DAC) in at least the first-stage of a multi-stage noise shaping (MASH) analog-to-digital converter (ADC). The correction is applicable to continuous-time implementations, and is especially attractive for high-speed applications.