Abstract: This application describes systems and methods for using a physical unclonable function (PUF) to authenticate a device, which may include circuitry for generating PUF values that may uniquely identify the device. According to one aspect, the device may provide enrollment PUF values to an authentication device. The device may later be authenticated if PUF values generated by the device are within a threshold distance of the enrollment PUF values. Since the PUF values are compared using a distance, it may not necessary to apply an error correcting code to the PUF values. The enrollment values and/or the calculated distance may be adjusted to compensate for time variations in the PUF values due to circuit aging. Systems and methods are also described herein for authenticating the device without revealing new PUF values to any second party, for example using a cryptographic technique known as a garbled circuit.

Abstract: A super-capacitor has a substrate, at least two porous electrodes integrated within the substrate, and an electrolyte extending between the at least two porous electrodes. The electrolyte is integrated with the substrate, and is positioned within the substrate. The at least two porous electrodes and electrolyte are configured to store charge as a super-capacitor.

Abstract: An LC tank circuit, such as an LC tank circuit of a step-tuned voltage controlled oscillator, includes an inductor and one or more capacitors. The inductor can be dog-bone shaped with a body, an extension and a chamfered joint to improve current distribution. The body and the extension can extend along different directions. The body can be narrower than the extension, and the extension can be sufficiently wide to interface with a plurality of switched capacitor circuits coupled to different parts of the extension.

Abstract: Embodiments of the present disclosure describe mechanisms for radio frequency (RF) ranging between pairs of radio units based on radio signals exchanged between units. An exemplary radio system may include a first radio unit, configured to transmit a first radio signal, and a second radio unit configured to receive the first radio signal, adjust a reference clock signal of the second radio unit based on the first radio signal, and transmit a second radio signal generated based on the adjusted reference clock signal. Such a radio system may further include a processing unit for determining a distance between the first and second radio units based on a phase difference between the first radio signal as transmitted by the first radio unit and the second radio signal as received at the first radio unit. Disclosed mechanisms may enable accurate RF ranging using low-cost, low-power radio units.

Abstract: Systems and methods for synchronous demodulation using passive sampled analog filtering are disclosed. A system for synchronous demodulation includes an input channel for accepting an input signal, a first passive sampled analog filter for filtering the input signal, a mixer for mixing the filtered input signal and outputting a mixed signal, a second passive sampled analog filter for filtering the mixed signal, and an output channel for outputting the filtered mixed signal.

Abstract: An optical emitter package is disclosed. The optical emitter package can include a carrier, a switching die, and an optical emitter die mounted to the carrier. The optical emitter die can be directly electrically and mechanically connected to the carrier with a conductive adhesive. An energy storage device can be mounted to the carrier. The energy storage device can be directly electrically and mechanically connected to the carrier with a second conductive adhesive. The carrier can provide electrical communication between the switching die, the optical emitter die, and the energy storage device.

Abstract: An LC tank circuit, such as an LC tank circuit of a step-tuned voltage controlled oscillator, includes a plurality of switched capacitor banks and one or more inductors. A first switched capacitor bank switch in response to a range of control signals used to control the VCO output across a range of frequencies. A second switched capacitor bank can switch in response to a subset of the range of control signals used to control the VCO output across a subset of the range of frequencies. The control scheme for the first and second switched capacitor banks can improves the linearity of changes in the frequency of the output signal of the VCO.

Abstract: Aspects of the embodiments are directed to methods and imaging systems. The imaging systems can be configured to sense, by an light sensor of the imaging system, light received during a time period, process the light received by the light sensor, identify an available measurement period for the imaging system within the time period based on the processed light, and transmit and receive light during a corresponding measurement period in one or more subsequent time periods.

Abstract: Various embodiments mitigate the risk of frequency-lock in systems having multiple resonators by dynamically changing the frequency at which at least one of the resonators is driven. More particularly, the drive frequency of at least one of the resonators is changed often enough that the multiple resonators do not have time to achieve frequency lock. Changes in the oscillation of the resonators may be analyzed to determine, for example, acceleration of such systems. Some embodiments implement self-test by assessing expected performance of a system with toggling drive frequencies. More particularly, some embodiments implement self-test by artificially inducing displacement of a movable member of a system.

Abstract: A conversion time and an acquisition time of an ADC can be estimated so that a speed of the ADC can be calibrated. An ADC circuit can perform M bit-trials in its conversion phase and continue performing additional bit-trials in a calibration mode. The ADC can count the number of additional bit-trials performed, e.g., X bit-trials, that occur before the next conversion phase, where additional bit-trials can be considered to be the number of available bit-trials during an acquisition time if the ADC continues performing bit-trials instead of sampling an input signal. The ADC can estimate the conversion time and the acquisition time using M and X. Then, the conversion time of the ADC can be calibrated by adjusting one or more of the comparison time, DAC settling delay, and logic propagation delay.

Abstract: A time-to-digital converter (TDC) detects a timing relationship between signals representing two temporal events. Several samples are acquired over a certain time period for each event, and the signals related to the different events are digitized or quantized either by separate TDCs or by a single TDC in a time-sequential manner. The quantized results are then processed, for example added to/subtracted from one another, and used to determine the phase or time difference between the two events. When information being quantized is quasi-static over time periods where the measurement is performed, the instantaneous or “one shot” accuracy of a TDC need not be as good as or better than the desired time resolution. Digitally processing the signals and averaging the results moves an otherwise difficult analog quantizer problem to the digital domain where savings in power and chip area can be easily achieved without sacrificing accuracy.

Abstract: Embodiments of the present disclosure describe mechanisms for radio frequency (RF) ranging between pairs of radio units based on radio signals exchanged between units. An exemplary radio system may include a first radio unit, configured to transmit a first radio signal, and a second radio unit configured to receive the first radio signal, adjust a reference clock signal of the second radio unit based on the first radio signal, and transmit a second radio signal generated based on the adjusted reference clock signal. Such a radio system may further include a processing unit for determining a distance between the first and second radio units based on a phase difference between the first radio signal as transmitted by the first radio unit and the second radio signal as received at the first radio unit. Disclosed mechanisms may enable accurate RF ranging using low-cost, low-power radio units.

Abstract: Improvements in analog-to-digital converter (ADC) circuit accuracy are described that can utilize a digital-to-analog converter (DAC) circuit with one or more redundant unit elements, or one or more bits redundancy or non-binary weighted capacitors, and can reuse the existing DAC circuit for noise reduction to save power and die area. An ADC circuit can use redundancy bit(s), e.g., one or more DAC unit elements of a main DAC, and the remaining lower bits of the main DAC for repeated bit trials, and can average the data from the repeated bit trials to suppress noise from conversions.

Abstract: Embodiments of the present invention may provide a wafer-capped rechargeable power source. The wafer-capped rechargeable power source may comprise a device wafer, a rechargeable power source disposed on a surface of the device wafer, and a capping wafer to encapsulate the rechargeable power source. The rechargeable power source may include an anode component, a cathode component, and an electrolyte component.

Abstract: Microelectromechanical systems (MEMS) devices (such as gyroscopes) configured to reject quadrature motion are described. Quadrature motion arises for example when the drive motion of a gyroscope couples to the sense motion of a gyroscope even in the absence of an angular motion. In some circumstances, quadrature motion may result from the fact that the springs used in a gyroscope have slanted sidewall, which can impart torque in the mechanics of the gyroscope. MEMS gyroscope of the type described herein may be configured to reject quadrature motion by using only springs oriented substantially parallel to the drive direction. One such spring includes only beams parallel the drive directions, and optionally. These MEMS gyroscopes may be used to sense, among others, roll and pitch angular rates.

Abstract: A hardware-locked encrypted backup (HWLE-BU) that is locked to a single hardware device using the device's unique hardware identity, based on a Physically-Unclonable Function (PUF) or other suitable means providing a unique hardware identity. The HWLE-BU is bound to a specific hardware identity such that only the physical device that created the HWLE-BU can decrypt it, i.e., restoring HWLE-BU data requires utilizing the same physical hardware device in the decryption process.

Abstract: Background calibration techniques can effectively to correct for memory, kick-back, and order-dependent errors in interleaved switched-capacitor track-and-hold (T/H) circuits and amplifiers. The techniques calibrate for errors in both the track/sample phase and the hold-phase, and account for the effects of interleaving, buffer/amplifier sharing, incomplete resetting, incomplete settling, chopping, and randomization on the offset, gain, memory, and kick-back errors. Moreover, the techniques can account for order-dependent and state-dependent hold-phase non-linearities. By correcting for these errors, the proposed techniques improve the noise performance, linearity, gain/offset matching, frequency response (and bandwidth), and order-dependence errors. The techniques also help increase the speed (sample rate and bandwidth) and linearity of T/H circuits and amplifiers while simplifying the analog circuitry and clocking needed.

Abstract: A capacitive microelectromechanical systems (MEMS) sensor is provided, having conductive coatings on opposing surfaces of capacitive structures. The capacitive structures may be formed of silicon, and the conductive coating is formed of tungsten in some embodiments. The structure is formed in some embodiments by first releasing the silicon structures and then selectively coating them in the conductive material. In some embodiments, the coating may result in encapsulating the capacitive structures.

Abstract: Improved flash light detection and ranging (also referred to herein as “flash LIDAR”) systems and methods for determining the distance to a target object disposed in a field-of-view. A flash LIDAR system can include an array of illuminators, an array of light detectors, and a signal processor/controller, as well as have a field-of-view in which a target object may be disposed. The flash LIDAR system can effectively divide the field-of-view into a plurality of segments, and each illuminator in the illuminator array can be made to correspond to a specific segment of the field-of-view. The flash LIDAR system can also effectively divide the light detector array into a plurality of subsets of light detectors. Like the respective illuminators in the illuminator array, each subset of light detectors in the light detector array can be made to correspond to a specific segment of the field-of-view.

Abstract: Semiconductor packages and methods of manufacturing semiconductor packages are described herein. In certain embodiments, the semiconductor package includes a housing including a first compartment and a second compartment, the first and second compartments being divided from one another. The semiconductor package can also include an integrated device die disposed in the first compartment, and a radio frequency (RF) absorber disposed in the second compartment.