Abstract: An integrated circuit may include a plurality of circuit sub-systems that include at least one converter circuit operating in respective critical phases and non-critical phases of operation, a clock distribution circuit that has an input for an externally-supplied clock signal that is active during the non-critical phases and inactive during the critical phases, and a clock generator to generate an internal clock signal to the converter circuit that is active when the external-supplied clock signal is inactive.

Abstract: Activation systems and methods initiate High-Definition Multimedia Interface (HDMI) communication between an HDMI source and an HDMI sink through an HDMI receptacle of the source. These systems and methods are especially suited for use with mobile sources that generally operate from a battery that cannot provide the +5V signal which the HDMI protocol requires sources to place on the +5V pin of their HDMI receptacles. These systems and methods automatically detect the insertion of an HDMI cable into the source's HDMI receptacle and subsequently generate and apply the required +5V signal to the +5V pin of the source's HDMI receptacle to initiate HDMI communication. Because they are directed to use in mobile sources, the embodiments are configured to minimize current drain.

Abstract: In an embodiment, a primary charge pump and replica charge pump may be coupled to matching control mechanisms and loads. In an embodiment, the replica charge pump may produce an error current originating from charge pump timing mismatches in a steady locked loop state. The error current produced by the replica charge pump may be measured by a difference amplifier to adjust at least one current source to compensate for the error current originating from the timing mismatches. To adjust the current sources, the amplifier may cause the current source to produce an equal but opposite current to cancel the effects of the error current, resulting in a constant output voltage.

Abstract: Bulk acoustic wave (BAW) gyroscopes purposefully operate using non-degenerate modes, i.e., resonant frequencies of drive and sense modes are controlled so they are not identical. The resonant frequencies differ by a small controlled amount (?f). The difference (?f) is selected such that the loss of sensitivity, as a result of using non-degenerate modes, is modest. Non-degenerate operation can yield better bandwidth and improves signal-to-noise ratio (SNR) over comparable degenerate mode operation. Increasing Q of a BAW resonator facilitates trading bandwidth for increased SNR, thereby providing a combination of bandwidth and SNR that is better than that achievable from degenerate mode devices. In addition, a split electrode configuration facilitates minimizing quadrature errors in BAW resonators.

Abstract: An integrated circuit package system having a body with a top surface, a bottom surface, and a plurality of side surfaces has a leadframe and encapsulating material that encapsulates at least a portion of the leadframe. The leadframe and encapsulating material are part of the body. The leadframe has a die paddle for supporting a die, and a plurality of leads spaced from the die paddle. The encapsulating material thus also separates the die paddle from the plurality of leads. At least a first portion of the die paddle is exposed to the top surface, while at least a second portion of the die paddle is exposed to the bottom surface.

Abstract: A junction field effect transistor having a drain and a source, each defined by regions of a first type of semiconductor interconnected by a channel, and in which a dopant profile at a side of the drain facing the channel is modified so as to provide a region of reduced doping compared to a body region of the drain. The region of reduced doping and the body region can be defined by the same mask and doping step, but the mask is shaped to provide a lesser amount and thus less depth of doping for the region of reduced doping.

Abstract: A method of driving a switch having a movable member and a contact first applies (to the switch) a first signal having a first level, and then applies a second signal having a second level to the switch (after applying the first signal). The first level is greater than the second level. One or both of the first and second signals cause the movable member to move to electrically connect with the contact.

Abstract: A current source driving an LED is monitored for a fault condition such as an open circuit or a short circuit. The current source may be disabled and/or a common power source may be disabled in response to the type of fault condition. A test current may be applied to the current source to determine the type of fault.

Abstract: Systems and methods for calibrating a bandwidth of a phase-locked loop are disclosed. Some such systems can detect an error signal generated by the phase-locked loop in response to a stimulus signal and adjust the bandwith of the phase-locked loop based at least partly on a difference between the integral of the error signal and a nominal value thereof. Alternatively or additionally, the bandwidth of the phase-locked loop can be adjusted based at least partly on a mismatch associated with two charge pumps.

Abstract: Some general aspects of the invention relate to a circuit and to a method for analog computation, for example, using switched capacitor integrated circuits. In some examples, a circuit includes a first group of capacitors and a second group of capacitors that may store charges during circuit operation. The first and/or the second group of capacitors may include multiple disjoint subsets of capacitors. An input circuit is provided for receiving a set of input signals and for inducing a charge on each of some or all capacitors in the first group of capacitors according to a corresponding input signal. Switches, for example, transistors controlled by a sequence of clock signals, are used to couple different sets of capacitors. Different configurations of the switches are used to form different sets of the capacitors among which charge can redistribute.

Abstract: A clock system includes a digital phase/frequency detector (DPFD), a buffer, a digitally-controlled oscillator (DCO) including a sigma-delta modulator (SDM), an adder, a first frequency divider. The DPFD may have a first input for a reference input clock, a second input for a feedback signal, the DPFD generating an output representing a difference between the reference input clock and the feedback signal. The buffer may be coupled to the DPFD for storing the difference signal over time. The SDM may have a control input coupled to the buffer. The adder may have inputs coupled to the SDM and a source of an integer control word. The first frequency divider may have an input for receiving an external clock signal and a control input coupled to the adder, the DCO generating an output clock signal having an average frequency representing a frequency of the external clock signal divided by (N+F/M).

Abstract: An output switch driving capability booster which may effectively reduce a propagation delay in an output switch with an independently controllable output transition change rate. A delay controller coupled to the output switch may be used to control the propagation delay. The delay controller may have a switch which may be switched on and off approximately simultaneously with the output switch, and a resistance device which may be adjusted to reduce the propagation delay.

Abstract: An RF measurement system includes an envelope detector to extract the modulation envelope of the RF input signal. The resulting baseband envelope signal is then applied to a statistics extraction circuit which provides a precise measure of the modulation envelope. The statistics extraction circuit can be implemented with any number of lower-frequency precision measurement technologies because the high-frequency carrier portion of the signal is removed, and thus, the demands on the post-envelope extraction circuit are greatly reduced. In one embodiment, the envelope detector and statistics extraction circuit may be implemented as a logarithmic amplifier followed by an RMS-responding post-processing circuit to provide accurate power measurement.

Abstract: Methods and apparatus are provided for a linker to resolve references from shared memory to private memory in a multi-core system.

Abstract: An input stage receives a differential input signal at first and second input nodes and provides a differential output current at first and second output nodes. The differential output current includes a component taken from the input nodes through first and second impedances, and an additional component generated in response to a sample of the voltage of the differential input signal. A transconductance cell having cross-coupled inputs may generate the additional component of the output current.

Abstract: A system and apparatus for compensating cable losses in a video signal transmission system includes feedback circuits to determine the spectral attenuation of a received signal and to control an equalizer circuit to amplify selected frequencies of the received signal, and to determine the various times of arrival of two or more video signals and selectively adjust one or more delay lines to reduce the differences in their arrival times.

Abstract: A method and apparatus for automatic audio standard detection in terrestrial broadcast signals is disclosed. In one embodiment, a method of detecting automatic audio standard for terrestrial broadcast includes scanning for each known audio frequency standard of interest in a current band energy spectrum in an incoming broadcast signal using a standard of non standard energy estimation algorithm, such as Goertzel DFT or FFT based algorithm for a predetermined time interval. At each known audio frequency standard of interest, energy is computed using the associated standard or non standard energy estimation algorithm within the predetermined time interval. The computed energy at each known audio frequency standard of interest is then compared to predetermined threshold energy. At each known audio frequency standard of interest, it is determined whether the audio frequency standard of interest is detected based on the outcome of the comparison.

Abstract: A storage device includes a storage array having a group of storage elements. Each storage element can written to a discrete set of physical states. A read circuit selects one or more storage elements and generates, for each selected storage element, an analog signal representative of the physical state of the selected storage element. A signal processing circuit processes the analog signal to generate a plurality of outputs, with each output representing a degree of an association of the selected storage element with a different subset of one or more of the discrete set of physical states.

Abstract: Methods and apparatus for amplifying signals over a wide frequency range to generate high voltage outputs feature a pair of switching modules which are connected in series. Switching modules, e.g., field-effect transistors (FETs), operate based on the voltage difference between an amplified signal and a fixed DC signal at two of their terminals, thereby generating an output waveform that has peak-to-peak voltage higher than, e.g. twice, the breakdown voltage of the transistors within the amplifier. The DC signals applied at the switching modules may be varied using an AC signal to improve the risetime of the output waveform and achieve a faster operational speed of the amplifier.

Abstract: Embodiments of the present invention may provide a signal processing circuit that may comprises an analog-to-digital converter (ADC), and an output restriction circuit. The output restriction circuit may reduce the accuracy of the digital output of the ADC when signal content exceeds a pre-determined spectrum mask in an undesirable band. In one embodiment, the input signal spectrum may be actively monitored and when the input spectrum is inconsistent with an intended application, the output resolution may be restricted, for example, by truncating least significant bits (LSBs) of the digital output or adding digital noise.