Abstract: Techniques for monitoring a distortion signal of a power amplifier circuit, where the output of a distortion monitoring circuit includes little or no fundamental signal and closely represents the actual distortion of the amplifier circuit of a wired communications system. The power amplifier circuit can generate a distortion feedback signal that does not affect the power amplifier's output power capability, e.g., no inherent loss in the fundamental output of the amplifier. That is, using a distortion monitor circuit, the power amplifier circuit can resolve a distortion feedback signal from the intended output signal of the output power amplifier circuit.

Abstract: An ADC circuit that can resolve the most significant bits (MSBs) using a first circuit during a first stage of a multi-stage conversion and resolve the least significant bits (LSBs) using a second circuit during a second stage of the multi-stage conversion. This can be used, for example, in massively parallel applications where the reference level generation can be shared between thousands of converters.

Abstract: According to various aspects of the present application, systems and methods are provided for implementing a garbled circuit on a device. Doing so allows the device to perform computations while protecting the computations from being observed or accessed by an adversarial entity. A garbled circuit involves two parties, known as the generator and the evaluator, jointly evaluating a function. Conventionally, a garbled circuit is executed on two different devices in order for the two different parties to jointly calculate the function without each party revealing to the other party private information such as input values to the function. Some embodiments provide for execution of the garbled circuit on a single device by implementing both parties on the device as separate processes. Some embodiments prevent an adversarial entity with physical access to the device from being able to observe calculations performed by the device to evaluate a function.

Abstract: An impedance measurement system for detecting an analyte in a sample is disclosed. The system includes first, second, and third electrodes, wherein at least a portion of the third electrode is positioned between the first and second electrodes, means for generating an electromagnetic field between the first and second electrodes, means for electrically controlling the third electrode, wherein the third electrode modifies the electromagnetic field, and a processor for detecting a presence of the analyte in the sample, based at least in part on a property of the electromagnetic field.

Abstract: Radio frequency (RF) switches with controllable resonant frequency are provided herein. In certain embodiments, an RF switch includes a stack of two or more field-effect transistors (FETs) electrically connected between a first terminal and a second terminal. Additionally, the RF switch further includes an inductor connected between the first terminal and the second terminal and in parallel with the stack of FETs. A first portion of the FETs are controlled to turn on or off the RF switch. Additionally, a second portion of the FETs are controlled to provide tuning to a resonant frequency of the RF switch when the RF switch is turned off.

Abstract: An apparatus that implements DPD in a manner that can address OOB instability issues, PE instability issues, or both, is disclosed. The apparatus includes an actuator circuit configured to use a model of a power amplifier (PA) to apply a predistortion to at least a portion of an input signal, and an error correction circuit configured to generate an error signal indicative of a deviation of the output of the actuator circuit from the target output, e.g., in terms of OOB or PE. The apparatus also includes an adaptation circuit configured to update the model based on the error signal. By using such an error in adapting the model used for the DPD, undesirable effects of performing DPD, such as creation or amplification of OOB frequency components, or increasing amplitude of some samples, may be reduced or eliminated.

Abstract: Data isolators are described. The data isolators include a differential receiver having cross-coupled single-ended amplifiers. The single-ended amplifiers may be referenced to a time-varying reference potential. The cross-coupling of the single-ended amplifiers may provide high speed, low power consumption operation of the data isolator.

Abstract: Digital to analog conversion generates an analog output corresponding to a digital input by controlling unit elements or cells using data bits of the digital input. The unit elements or cells individually make a contribution to the analog output. Due to process, voltage, and temperature variations, the unit elements or cells may have mismatches. The mismatches can degrade the quality of the analog output. To extract the mismatches, a transparent dither can be used. The mismatches can be extracted by observing the analog output, and performing a cross-correlation of the observed output with the dither. Once extracted, the unit elements or cells can be adjusted accordingly to reduce the mismatches.

Abstract: Embodiments of the present disclosure describe mechanisms for a radar-based indoor localization and tracking system. One example can include monitoring unit that includes a radar source, a camera unit, and one or more processors coupled to the radar element and the camera unit. The monitoring unit is configured to generate point cloud data associated with an object; execute Point Cloud Library (PCL) preprocessing based, at least, on the point cloud data; execute Density-Based Spatial Clustering of Applications with Noise (DBSCAN) clustering; execute multi-object tracking on the object; and execute an image PCL overlay based on the point cloud data to generate real-time data associated with the object.

Abstract: Isolators for high frequency signals transmitted between two circuits configured to operate at different voltage domains are provided. The isolators may include resonators capable of operating at high frequencies with high transfer efficiency, high isolation rating, and a small substrate footprint. In some embodiments, the isolators may operate at a frequency not less than 20 GHz, not less than 30 GHz, not less than 65 GHz, or between 20 GHz and 100 GHz, including any value or range of values within such range. The isolators may include inductive loops with slits and capacitors integrally formed at the slits. The sizes and shapes of the inductive loops and capacitors may be configured to control the values of equivalent inductances and capacitances of the isolators. The isolators are compatible to different fabrication processes including, for example, micro-fabrication and PCB manufacture processes.

Abstract: System and apparatus for pace detection and implementation thereof. A device for detecting pace pulse in the presence of ECG waveforms is disclosed. Specifically, the present disclosure relates to an elegant, novel circuit and method for presenting pace pulse data with or without ECG signals measuring for use in useful in a variety of medical applications. This allows for robust, portable, low-power, higher S/N devices which have historically required a much bigger footprint and complexity.

Abstract: One embodiment is a urinary catheter system comprising an optical flow tube for connecting a catheter tube to a collection tube; and a disinfection and detection device configured to enclose the optical flow tube for detecting and destroying bacteria within the optical flow tube.

Abstract: Differential electro-mechanical oscillating circuits are described. These circuits may be used in a variety of contexts to produce differential oscillating signals, such as sine waves or square waves. A switched capacitor circuit (SCC) is used to prevent low-frequency locking, whereby the output of the resonator would otherwise lock to a constant value. More specifically, the SCC provides an impedance in parallel to the resonator between the output terminals of oscillating circuit. The SCC is designed so that, at low frequencies, its impedance is lower than the impedance of the resonator. The presence of such an impedance prevents the formation of an open circuit between the output terminals, thus maintaining the oscillating circuit in the oscillation mode. The differential electro-mechanical oscillating circuits described herein may be used to produce clock signals or otherwise to produce periodic reference signals.

Abstract: There is disclosed in one example an audio processor, including: an audio crossover to separate a first frequency band from a second frequency band, the first frequency band having a lower frequency band than the second frequency band; an excursion estimator to estimate from information of the first frequency band a predicted excursion of a low-frequency driver; an interpolator to interpolate an adjustment to the second frequency band to compensate for the estimated excursion; and circuitry to drive the adjusted second frequency to a receiver.

Abstract: An arc detection method includes classifying whether an arc fault is present in the power system by, for each of a plurality of bins of a current frame of a signal, marking the bin as a candidate bin if a magnitude spectrum of the bin meets first criteria; determining a number of candidate bins in the current frame; marking the number of candidate bins as candidate cluster bins if the number of candidate bins exceeds a minimum cluster size; for each of the candidate cluster bins, determining whether the candidate cluster bin is also a candidate cluster bin of a previous frame of the first signal and if so, identifying the current frame as a candidate frame and incrementing a candidate frame count; and if the candidate frame count exceeds a candidate frame count threshold, determining that an arc fault is present in the power system.

Abstract: Embodiments may relate to a circuit for use in an analog-to-digital converter (ADC) circuit. The circuit may include a first residue amplifier stage and a second residue amplifier stage. The circuit may further include a synthesized delay stage with a digital-to-analog converter (DAC) electrically positioned between a signal input and the input of the second residue amplifier stage. The circuit may further include a resistor electrically positioned between the signal input and the input of the second residue amplifier stage. Other embodiments may be described or claimed.

Abstract: A liquid crystal waveguide (LCW) can include actively controlled incoupling of light into a LCW, such as by using a voltage-controlled electrode to actively vary a property of an LC material arranged to affect the incoupling of light into the LCW. Actively varying light incoupling into the LCW can be used, for example, such as for calibration or compensation or to provide closed-loop feedback such as to stabilize the amount of light into the LCW while accommodating or reducing sensitivity of the LCW to variations in one or more of: input laser light incidence angle, input laser wavelength, LCW or input laser temperature, input laser optical power level, or the like. This can advantageously help improve or maximize light incoupling efficiency, which can improve performance and robustness of the LCW under actual operating conditions. The LCW can be used for, among other things, beamsteering in in-plane and out-of-plane directions.

Abstract: System in package (SIP) modules are compact packages that include components such as processors, memory, sensors, and passive components on a single substrate. One low cost and compact way to integrate an antenna into a SIP module is to suspend an antenna in molding compound so that the antenna is embedded in the real estate of the molding compound layer. To embed the antenna, the molding compound is first deposited. A cavity can be cut in the molding compound to hold the antenna. The cavity can be filled with conductive material to form the antenna. Further molding compound can be deposited to cover the antenna and enclose the antenna in the molding compound layer. Ground structures can also be suspended in the molding compound. Such an embedded antenna can be particularly useful for radio applications.

Abstract: This disclosure describes techniques to perform analog signal conditioning (including filtering and amplification) and analog-to-digital conversion (ADC) on a System-in-package (SIP) assembly technology. In particular, the disclosure combines a programmable gain amplifier (PGA), one or more filter circuits, and an ADC circuit onto the same SIP. These devices are coupled together on the SIP using high-accuracy and precise integrated-passive components. The SIP receives an analog signal, amplifies the analog signal with the PGA on the SIP, filters the amplified analog signal with the filter circuit(s) on the SIP, and then performs analog-to-digital conversion on the filtered amplified analog signal with the ADC circuit on the SIP. The SIP can be configured for various applications based on a variety of inputs and control mechanisms.