Abstract: Techniques are disclosed relating to a system that implements direct memory access (DMA). In one embodiment, an apparatus is disclosed that includes a dedicated data transfer management (DTM) circuit. The DTM circuit is configured to provide commands to a direct memory access (DMA) controller coupled to a bus to facilitate the DMA controller retrieving portions of a data object to be transmitted to a peripheral circuit via the bus. In some embodiments, the DTM is configured to assemble a data packet having a payload supplied by a processor, where the DTM circuit is configured to assemble the data packet by generating direct memory access (DMA) requests for the DMA controller. In such an embodiment, the DMA requests cause a plurality of peripheral circuits coupled to the bus to transfer portions of the data packet over the bus.

Abstract: A device includes a substrate is substantially transparent and includes a contact surface and an interface surface. The interface surface includes a plurality of electrical contacts. The device further includes a semiconductor die, which includes a plurality of connections, a first photo detector and a second photo detector. Each of the plurality of connections includes a connection bump formed thereon to couple to the plurality of electrical contacts of the interface surface of the substrate. The plurality of connections positioned relative to the first and second photo detectors to alter a directional response of at least one photo detector of the plurality of photo detectors.

Abstract: A single pin is used to control an operating mode of an integrated circuit and to supply serial data to a host controller. The internal operating mode can be changed by changing a static level on an input/output terminal and maintaining that static level longer than a first time threshold. A read transaction from the integrated circuit can be performed in response to a predetermined sequence on the input/output terminal that includes a pulse that lasts a first predetermined time, the first predetermined time being less than the first time threshold.

Abstract: An apparatus includes analog or mixed-signal circuitry that operates in response to a first signal, and digital circuitry that operates in response to a second signal. The apparatus further includes a signal retiming circuit. The signal retiming circuit retimes an output signal of a digital signal source to reduce interference between the digital circuitry and the analog or mixed-signal circuitry by retiming edges of the output signal of the digital signal source to fall on cycle boundaries of the first signal.

Abstract: A signal processor for a radio frequency (RF) receiver includes a plurality of distributed signal processing elements, in which a first one receives an input signal and a last one provides an output signal, and a plurality of gain elements interspersed between pairs of said plurality of distributed signal processing elements. The signal processor also includes a like plurality of peak detectors coupled to outputs of corresponding ones of said plurality of gain elements, and an automatic gain controller having inputs coupled to outputs of each of the peak detectors, and outputs coupled to each of the plurality of gain elements. The automatic gain controller independently controls each of the plurality of gain elements to form a like plurality of independent automatic gain control (AGC) loops.

Abstract: Apparatus and associated methods are disclosed for digital-to-analog conversion with improved performance. In one exemplary embodiment, an apparatus includes a DAC to convert a digital input signal to an analog output signal. The DAC includes a decoder to decode the digital input signal and to provide first and second sets of control signals. The DAC also includes a resistor DAC (RDAC) to provide first and second voltages in response to the first set of control signals. The DAC further includes an interpolator coupled to receive the first and second voltages and to provide a first analog signal in response to the second set of control signals.

Abstract: Techniques for reducing error in time-of-flight measurement due to transceiver latency are disclosed. A method includes determining a first indicator of a first latency of a first transceiver of a first system using a first loopback configuration of the first transceiver. The method includes receiving a second indicator of a second latency of a second transceiver determined by a second system using a second loopback configuration of the second transceiver. The method includes determining a third indicator of a roundtrip latency of a communication from the first transceiver to the second transceiver and back to the first transceiver. The method includes determining a time-of-flight between the first system and the second system based on the first indicator, the second indicator, and the third indicator.

Abstract: A technique for reducing noise in an output clock signal of a feedback control system (e.g., a PLL or FLL) samples rising edge errors and falling edge errors between a reference clock signal and a feedback clock signal. The technique applies edge alignment correction to reduce or eliminate edge alignment errors between the reference clock signal and the feedback clock signal. A PLL generates an output clock signal based on a control signal generated using an error signal generated based on a rising edge difference between a rising edge of an input clock signal and a corresponding edge of an edge alignment corrected feedback clock signal and based on a falling edge difference between a falling edge of the input clock signal and a corresponding edge of the edge alignment corrected feedback clock signal. The edge alignment corrected feedback clock signal is partially based on the output clock signal.

Abstract: Ambient light sensing and proximity sensing is accomplished using pairs of stacked photodiodes. Each pair includes a shallow diode with a shallow junction depth that is more sensitive to light having a shorter wavelength and a deeper diode with a deeper junction depth more sensitive to light with longer wavelengths. Photodiodes receiving light passed through cyan, yellow, and magenta filters and light passed without a color filter are used to generate red, green, and blue information through a subtractive approach. The shallow diodes are used to generate lux values for ambient light and the deeper diodes are used for proximity sensing. One or more of the deep diodes may be used in correction to lux determinations of ambient light.

Abstract: A method includes using a pass device of a linear regulator to provide an output signal to an output of the linear regulator in response to a signal that is received at a control terminal of the pass device. The method includes using the linear regulator to regulate the signal received at the control terminal based at least in part on the output signal; and controlling a closed loop frequency response of the linear regulator to cause a direct current (DC) gain of the linear regulator to extend to a frequency near or at frequency of a zero that is associated with a decoupling capacitor that is coupled to the output of the linear regulator.

Abstract: A micro electro mechanical system (MEMS) oscillator supplies an oscillator output signal having a first frequency that differs from a predetermined frequency of the output signal. An error determination circuit determines frequency error from the predetermined frequency based on initial frequency offset and/or temperature and provides the error information indicating a difference between the first frequency and the predetermined frequency. The error information is used by a receiving system in frequency translation logic that utilizes the oscillator output signal as a frequency reference.

Abstract: In an embodiment, an apparatus may include an amplifier circuit including a first input to receive a signal, a second input to receive a feedback signal, and an output. The apparatus may further include a buffer circuit including an input coupled to the output of the amplifier and including an output coupled to an output node. The apparatus may also include a feedback circuit coupled between the output node and the second input of the amplifier circuit. The feedback circuit may include at least one non-linear resistor configured to define a feedback ratio that changes in response to a voltage at the output node.

Abstract: In some embodiments, a circuit may include a plurality of peripherals and a peripheral watchdog timer circuit coupled to at least one of the plurality of peripherals. The peripheral watchdog timer circuit may be configured to count clock cycles and concurrently to detect activity associated with at least one of the plurality of peripherals. The peripheral watchdog timer circuit may be configured to reset a count in response to detecting the activity. In some embodiments, the peripheral watchdog timer circuit may be configured to generate an alert signal when the count exceeds a threshold count before detecting the activity. In some embodiments, the peripheral watchdog timer circuit is configured to initiate a reset operation when the alert is not serviced within a period of time.

Abstract: A method, an apparatus and a computer program product are used for device filtering. A packet is received from a device, after which it is determined whether the device is allowed to be responded to, wherein the determination comprises at least one of the following: determining a received signal strength indication from the packet; or determining a time from previous connection of the device; or determining the data in a payload of the packet.

Abstract: In one embodiment, an integrated circuit includes: a first input pad to receive a radio frequency (RF) signal; a radio receiver to process the RF signal and output a digitally processed signal; an analog filter to receive a digital signal via an input signal path and output a drive signal via an output signal path; and a first output pad coupled to the output signal path to output a filtered digital signal based on the drive signal.

Abstract: A technique includes using a comparator to indicate whether a magnitude of a monitored signal is within predetermined boundaries and controlling a threshold of the comparator based on a history of the indication.

Abstract: An oscillator amplifier biasing technique configures an oscillator amplifier to operate at a bias point causing loading on a tank circuit to have reduced or negligible dependence on amplifier bias conditions or device characteristics. The bias signal level may vary with variation in temperature. The oscillator amplifier biasing technique includes determining a bias signal level that has a minimum sensitivity of the frequency of oscillation as a function of temperature. The technique may store associated data in non-volatile memory to describe the bias signal level dependence on temperature. A digital-to-analog converter may drive the bias signal of the oscillator to the minimum sensitivity point as a function of temperature. The technique may substantially reduce effects of up-conversion of flicker noise in the oscillator output signal as well as improve frequency accuracy in the presence of effects such as mechanical strain and/or aging.

Abstract: A microelectromechanical system (MEMS) device includes a temperature compensating structure including a first beam suspended from a substrate and a second beam suspended from the substrate. The first beam is formed from a first material having a first Young's modulus temperature coefficient. The second beam is formed from a second material having a second Young's modulus temperature coefficient. The body may include a routing spring suspended from the substrate. The routing spring may be coupled to the first beam and the second beam. The routing spring may be formed from the second material. The first beam and the second beam may have lower spring compliance than the routing spring. The MEMS device may be a resonator and the temperature compensating structure may have dimensions and a location such that the temperature compensation structure modifies a temperature coefficient of frequency of the resonator independent of a mode shape of the resonator.

Abstract: In some embodiments, an integrated circuit may include a radio frequency synthesizer configured to provide a local oscillator (LO) signal at a selected frequency related to a frequency of interest. The integrated circuit may also include a re-clocking circuit having a first input to receive a clock signal having a first frequency, a second input to receive a local timing signal related to the LO signal, and an output. The re-clocking circuit may be configured to provide a local timing output signal that is a frequency adjusted version of the clock signal based upon the local re-clocking signal. The integrated circuit further may include a digital circuit including an input to receive the local timing output signal as a digital clock signal in a receive mode.

Abstract: An integrated circuit (IC) includes a plurality of pads adapted to send or receive signals, and a plurality of mixed signal interface blocks, each of which is coupled to a corresponding pad in the plurality of pads. Furthermore, each mixed signal interface block in the plurality of mixed signal interface blocks is adapted to be configurable to provide selected functionality independently of the other mixed signal interface blocks.