Abstract: A redundancy switch includes at least three data ports and a control input. Each data port includes a data input and a data output. The redundancy switch operates in one of at least three states. In a first state, a first data port is communicatively coupled with a second data port. In a second state, the first data port is communicatively coupled with a third data port. In a third state, the second data port is communicatively coupled with the third data port. The state of the redundancy switch can be controlled based on a signal received at the control input. The redundancy switch can further include transconductance switching elements that convert a voltage input to a current output.

Abstract: A delay locked loop (DLL) includes a delay line that delays a clock signal to generate a delayed clock signal, a phase frequency detector (PFD) for detecting a phase and/or frequency difference between the clock signal and the delayed clock signal, and a charge pump having an adjustable bias current for converting the phase and/or frequency difference taking into account a bias current adjustment into a control voltage, in which the control voltage controls an amount of delay in the delayed clock signal.

Abstract: A system and method provide for calibrating the frequency response of an electronic filter. The system and method include a radio transmitter with both in-phase and quadrature baseband paths. Each baseband path includes a numerically controlled oscillator (“NCO”), a digital signal path, a digital-to-analog converter (“DAC”), and an analog filter. A low frequency tone is applied from the NCO from one of the baseband path, while a high frequency tone is applied from the NCO in the other baseband path. An analog peak detector at output determines which analog filter has the largest amplitude at the output. The peak detector offset between the two analog filters is offset by stimulating the in-phase and quadrature baseband paths with the respective NCOs to find an amplitude difference between the output signals from the NCOs that makes the output of the analog filters the same.

Abstract: A substrate for an inertial sensor system includes a plurality of electrode arrangements, each electrode arrangement including an acceleration sensor electrode and a pair of quadrature adjusting electrodes on opposite sides of the acceleration sensor electrode, where each electrode arrangement is capable of being overlaid by a corresponding plate of a shuttle such that the plate completely overlays the acceleration sensor electrode and partially overlays the pair of quadrature adjusting electrodes on opposite sides of the acceleration sensor electrode such that capacitive coupling between the plate and each of the quadrature adjusting electrodes is dependent upon the rotational position of the at least one shuttle while capacitive coupling between the plate and the acceleration sensor electrodes is substantially independent of the rotational position of the at least one shuttle.

Abstract: A microphone system has a package forming an interior chamber, and a MEMS microphone secured within the interior chamber. The package forms an aperture for permitting acoustic access to the interior of the chamber and thus, the MEMS microphone. The system also has two dies; namely, the system has a primary circuit die within the interior chamber, and an integrated passive device die electrically connected with the primary circuit die. The primary circuit die is electrically connected with the MEMS microphone and has at least one active circuit element.

Abstract: An amplifier includes a bootstrap circuit for improving a linearity of the amplifier and a feed-forward circuit for modifying a voltage of the bootstrap circuit in response to a change in an input signal. Modifying the voltage using the feed-forward circuit prevents a phase-inversion condition of the amplifier.

Abstract: In general, in one embodiment, low-light noise is removed from an image by separately filtering luma and chroma components of the image, by adaptively filtering the image based at least in part on a Gaussian distribution of the image, and/or by dividing the image into separate regions and filtering each region separately.

Abstract: A circuit for providing a DC output equal to the RMS value of a time-varying input signal, the circuit including: (i) an RMS-to-DC converter for producing the DC output and (ii) a high-order low-pass filter comprising at least first and second low-pass filters connected in series to cooperatively reduce at least one of ripple in the DC output, ripple in an denominator feedback loop, or DC error in the DC output.

Abstract: As provided herein, in some embodiments, monolithic oscillators with low phase noise, large swing voltages, wide tuning, and high frequency characteristics are obtained by a monolithic integrated circuit having an oscillator core configured to generate a first output signal, and one or more tuning units operatively coupled to the oscillator core. In some embodiments, the oscillator core is a push-push oscillator core having a bipolar junction transistor, and each of the tuning units uses a FET transistor to present a selectable capacitance. In some embodiments, the tuning units have high-voltage and high-frequency capabilities. In some embodiments, the tuning units use MEMS switches to selectively connect capacitances to the oscillator core. In some embodiments, the oscillator core generates a second signal that has twice the frequency of the first frequency.

Abstract: Methods of forming a thin film are disclosed. One such method can include sputtering a target material to form a first thin film resistor and adjusting a parameter of deposition to modulate a property of a subsequently formed second thin film resistor. For instance, a substrate bias and/or a substrate temperature can be adjusted to modulate a property of the second thin film resistor. A temperature coefficient of resistance (TCR) and/or another property of the second thin film resistor can be modulated by adjusting the parameter of deposition. The target material sputtered onto the substrate can include, for example, a Cr alloy, a Ni alloy, SiCr, NiCr, or the like. A relationship can be established between the substrate bias and/or substrate temperature and the thin film resistor property, and the relationship can be used in selecting deposition conditions for a desired property value.

Abstract: In an example embodiment, a two-wire communication protocol engine manages control and data transmissions in a bi-directional, multi-node bus system where each node is connected over a twisted wire pair bus to another node. Some embodiments include a state machine that allows for synchronized updates of configuration data across the system, a distributed interrupt system, a synchronization pattern based on data coding used in the system, and data scrambling applied to a portion of the data transmitted over the twisted wire pair bus. The multi-node bus system comprises a master node and a plurality of slave nodes. The slave nodes can be powered over the twisted wire pair bus.

Abstract: In an example embodiment, a power switching circuit of an automobile audio bus (A2B) chip is provided in a bi-directional, multi-node two-wire conductor system that includes a plurality of A2B chips interconnected on a twisted wire pair bus (A2B bus), with at least one A2B chip functioning as a master and the remaining A2B chips functioning as slaves. The power switching circuit of the A2B chip powers up a next downstream A2B chip in the A2B bus sequentially according to a power switching procedure, and the power switching circuit is configured to detect faults in the A2B bus before, during, and after the power switching procedure. Each A2B chip enables power to the next downstream A2B chip without risk of damage to any components in the system due to line faults on the downstream A2B bus, or collapse of the power supply at the local A2B chip.

Abstract: Apparatus and methods are disclosed related to trimming an input offset current of an amplifier. One such apparatus can include auxiliary bipolar transistors connected in parallel with bases of respective bipolar transistors of an input stage of an amplifier. The auxiliary bipolar transistors can be biased such that the base currents of the auxiliary bipolar transistors compensate for a mismatch in base currents of the bipolar transistors of the input stage of an amplifier. The offset current at an input of an amplifier can be reduced independent of an offset voltage at the input of the amplifier.

Abstract: Universal serial bus (USB) plug-in event detection systems and methods are disclosed herein. An exemplary USB system includes a USB interface and a USB capacitive-sensing detection module coupled with a data line of the USB interface. The USB capacitance-sensing detection module monitors a change in capacitance on the data line to detect USB plug-in events. USB capacitance-sensing detection module can detect a USB plug-in event when the USB interface is in a powered-down state. The USB system can be configured to power up the USB interface upon detecting the USB plug-in event. The USB system can further include a USB host. The USB host can be in a standby or hibernation mode (minimum power state) when the USB capacitive-sensing detection module detects the USB plug-in event, and the USB system can be configured to wake-up the USB host from the standby or hibernation mode upon detecting the USB plug-in event.

Abstract: Data-transfer transactions in the read and write directions may be balanced by taking snapshots of the transactions stored in a buffer, and executing transactions in the same direction back-to-back for each snapshot.

Abstract: A transconductance circuit that improves linearity and output current over a wider range of input voltages than prior designs. The transconductance circuit may include first and second sets of paired differential transistors. In each set, emitters of the paired transistors may be commonly coupled to corresponding nodes of a common impedance, and collectors may be coupled to output terminals of the transconductance circuit. The circuit may further include first and second sets of doublet differential transistor pairs, each doublet pair having transistors of different sizes. Each doublet pair may have current sources coupled between commonly coupled emitters and a source potential. Respective collectors for each doublet pair may be coupled to the output terminals of the transconductance circuit. A pair of voltage followers may be provided to replicate corresponding input voltages across corresponding bases of the differential transistor pairs and the doublet transistor pairs.

Abstract: A MEMS package includes a substrate having an L-shaped cross-section. The substrate includes a vertical portion having a front surface and a back surface, and a horizontal portion protruding from a lower part of the front surface of the vertical portion, wherein the front surface of the vertical portion includes a mounting region. A MEMS die is mounted on the mounting region such that the MEMS die is oriented substantially parallel to the front surface; a lid attached to the front surface of the substrate while covering the MEMS die; and a plurality of leads formed on a bottom surface of the substrate. The leads can extend substantially parallel to one another, and substantially perpendicular to the front surface. The MEMS die can be oriented substantially perpendicular to a PCB substrate on which the package is mounted.

Abstract: A LED driving system and method suitable for driving one or more LEDs or strings of LEDs connected to a common output terminal which is driven with a boost converter. A LED ON signal indicates when the LEDs are to be turned on, with the boost converter nominally operated only when the LEDs are to be on. To enable a lower minimum LED duty cycle without risking boost voltage collapse, the LED ON signal may be delayed such that the LEDs are turned on after the boost converter. A second technique, which may be used in conjunction with the first, adaptively extends the operation time of the boost converter beyond the time at which LED ON turns off the LEDs.

Abstract: A system, method, and computer program product for generating a regulated boosted load voltage. A comparator may use reduced versions of a reference voltage, a supply voltage, and a fed-back output load voltage to determine whether the output load voltage requires adjustment. If so, a controller may responsively vary the number of voltage boosting charge pumps connected in parallel to the load to best match a target voltage. The target voltage may be the reference voltage plus the supply voltage. A counter may track the number of active charge pumps, and may increment or decrement the number more slowly than the charge pumps operate. Loop gain may be limited by an integrating filter to prevent oscillation. The embodiments are of particular utility for signal conversion circuitry as they eliminate difficulties arising from gate-source voltage inadequacies and differences in switch transistors. A wider range of reference voltages may be accommodated.

Abstract: A delay locked loop (DLL) includes a delay line that delays a clock signal to generate a delayed clock signal, a phase frequency detector (PFD) for detecting a phase and/or frequency difference between the clock signal and the delayed clock signal, and a charge pump having an adjustable bias current for converting the phase and/or frequency difference taking into account a bias current adjustment into a control voltage, in which the control voltage controls an amount of delay in the delayed clock signal.