Abstract: An improved quadrature bandpass ?? converter includes a loop filter, an ADC responsive to the loop filter, and a first feedback DAC responsive to the ADC; a first summing circuit is responsive to the first DAC and an analog input for providing an input to the loop filter; a second feedback DAC is responsive to the ADC for providing an input to the loop filter; the loop filter includes a plurality of signal resonators, at least one image resonator, a second summing circuit, and a feed forward circuit connecting at least two of the resonators to the second summing circuit for reducing the quantization noise from the ADC; the image resonator is responsive to the second DAC for reducing the image quantization noise.

Abstract: Phase-locked loop structures are provided that facilitate enhanced stability of loop-generated signals. They include an oscillator network, a feedback loop and a controller. The oscillator network generates a loop output signal with a frequency that varies in response to a control voltage and to a frequency-determining parameter, the feedback loop generates the control voltage in response to the loop output signal and a reference signal and the controller increments the frequency-determining parameter to maintain the control voltage within a predetermined control-voltage range. These structures enhance signal stability by facilitating the use of low-gain oscillator structures and they simplify and shorten loop operations because the structures operate in a closed-loop condition at all times.

Abstract: A state machine circuit may be used to control a multiplexing circuit that selects and provides respective ones of multiple input clock signals to a clock-synthesizing circuit that generates a synthesized clock signal in response to such input clock signals. The state machine circuit may, for example, be configured so that the synthesized clock signal is a spread-spectrum clock signal and/or a clock signal having a nominal frequency that is greater than a nominal frequency of each of the input clock signals.

Abstract: Described is a closed-loop power detector/controller for wireless systems employing a non-constant amplitude envelope modulation scheme. Any AM component in the feedback signal resulting from non-constant amplitude envelope signals is eliminated via feed-forward cancellation of the envelope signal. Generally, a signal representative of the AM variation in the non-constant amplitude envelope signals prior to amplification is obtained. This AM variation signal is then used to cancel any AM component in the feedback signal resulting from the non-constant envelope to create a power amplifier control signal without any AM variation, only the desired ramp profile.

Abstract: A digital to analog converter system is disclosed for receiving an input signal and a sign bit signal that is indicative of the sign of the input signal. The digital to analog converter system includes first and second pairs of resistor strings, and first and second switching networks. A first one of the first pair of resistor strings is adapted for coupling between a first voltage potential and an intermediate node. The first switching network is adapted to couple a voltage produced across a selected one of resistors in the first string across the second one of the resistor strings. The resistors in the second resistor string producing voltages in response to current passing from the first resistor string to the second resistor string through the first switching network. A third one of the second pair of resistor strings is adapted for coupling between a second voltage potential and the intermediate node.

Abstract: A transconductance circuit, comprising: first and second field effect transistors, each having a drain, a source and a gate; wherein the first transistor is in a first current flow path between first and second nodes of the circuit, and is biased so as to operate in a saturation region of its transfer characteristic; the second field effect transistor is in a second current flow path between the first and second nodes of the circuit and is biased so as to operate in a linear region of its transfer characteristic; the gate of the first and second transistors are connected to receive an input signal; and wherein the second transistor is further in series with a voltage modulator adapted to reduce the drain-source voltage occurring across the second transistor in response to increased current flow in the second transistor.

Abstract: A method and apparatus utilizing a prediction guided decimated search motion estimation algorithm are provided. The prediction guided decimated search motion estimation algorithm generates a motion vector used to encode a macroblock in a frame from a video sequence. The algorithm includes generating full-pixel seed vectors, performing a full-pixel search around the generated seed vectors, which is followed by a fractional pixel search. The full-pixel seed vectors generated are a predicted motion vector and a hierarchical motion vector. A fractional pixel search may be conducted around a final motion vector generated by the full-pixel search and may include a half-pixel search and a quarter-pixel search. The prediction guided decimated search motion estimation algorithm can be implemented in both software and hardware. The algorithm is characterized by improved efficiency, scalability, and decreased complexity.

Abstract: In an inertial sensor, a mass is supported by a number of mass support structures positioned within an inner periphery of the mass. The mass support structures are affixed to a substrate by at least one anchor positioned proximate to the mass' center of mass. A number of sensing fingers are affixed to the mass support structures.

Abstract: Differential amplifier embodiments are provided for amplifying input signals with enhanced gain and dynamic range. They include first and second amplifier stages and at least one common-mode feedback circuit that is arranged to mirror and adjust a tail current to control the common-mode level of a respective one of the stages. The stages are configured with cascode elements to obtain high impedances that enhance their signal gain and the common-mode feedback circuit is configured to controllably lower the output voltage of a current source that provides the tail current to thereby enhance the amplifier's dynamic range. The amplifier embodiments are particularly suited for use in applications where they must operate with reduced supply voltages and operate in alternating operational modes.

Abstract: A curvature corrected bandgap reference circuit comprises a first bipolar transistor having a base-emitter voltage Vbe1 and operated such that it has a constant operating current, and a second bipolar transistor having a base-emitter voltage Vbe2 and operated such that it has an operating current consisting of an approximately temperature proportional component and a non-linear component. The circuit is arranged such that the ratio of the current densities in the two transistors varies with temperature, such that the difference voltage (?Vbe=Vbe1?Vbe2) includes a residual component which approximately compensates bandgap curvature error.

Abstract: Bias networks are provided for accurate generation of biases of cascode transistor arrangements. Network embodiments generate a voltage that accurately biases the transistor of a cascode arrangement at a selected point in its saturation region and this voltage is accurately transferred to the drain of a transistor via the gate-to-source voltage drops of a pair of gate-coupled transistors.

Abstract: An integrated circuit package (1) comprising first and second dies on a laminate (5) in a resin encapsulating housing (6) comprises a digital signal processing integrated circuit (8) fabricated on the first die (2), and a digital-to-analogue converting circuit (9) fabricated on the second die (3). First external terminals (16) are selectively coupled to corresponding first input terminals (10) of the digital signal processing circuit (8) through corresponding primary input switches (19), and first output terminals (11) of the digital signal processing circuit (8) are selectively coupled through primary output switches (23) and secondary input switches (25) to second input terminals (12) of the digital-to-analogue converting circuit (9). Second output terminals (13) of the digital-to-analogue converting circuit (9) are selectively coupled to second external terminals (17) through secondary output switches (30).

Abstract: Methods and circuits are provided for controlling a signal applied to a control terminal of a variable voltage attenuator. In one embodiment, a method comprises detecting an output signal of the variable voltage attenuator, generating a logarithm of the detected output signal of the variable voltage attenuator, and generating the signal applied to the control terminal of the variable voltage attenuator at least partially based on the logarithm of the detected output signal of the variable voltage attenuator.

Abstract: A system for time delay estimation in a discrete time processing system includes a cross correlator that performs cross correlation on a first signal and a second signal, and provides a cross correlated output signals indicative thereof. A lag smoother receives the cross correlated output signals, and provides lag smoothed output signals indicative thereof. A select logic module selects a pre-defined number of signal values from a respective set indicative of the lag smoothed output signals to compute the time delay estimation associated with the first and second signals.

Abstract: An input tracking current mirror for a differential amplifier system includes a current mirror having an input leg and an output leg, a differential amplifier including a first set of at least two transconductance components, each having at least one input terminal for receiving input signals, the first set of at least two transconductance components having a first common node connected to the output leg which has a first voltage that is a function of the input signals, and a tracking circuit including a second set of at least two transconductance components each having at least one input terminal for receiving the input signals, the second set of at least two transconductance components, having a second common node connected to the input leg which has a second voltage that is a function of the input signals, the tracking circuit driving the second voltage on the input leg to track the first voltage on the output leg with variations in the input signals.

Abstract: An analog to digital converter comprising at least two analog to digital conversion engines and a controller for controlling the operation of the analog to digital conversion engines such that during a first phase of an analog to digital conversion process the engines collaborate such that a plurality of bits can be determined during a single trial step; and during a second phase of the analog to digital conversion the conversion engines work independently; and the controller receives the outputs of at least one of the conversion engines and processes them to provide an output word.

Abstract: A multi-channel analog-to-digital converter system includes an array of sub-analog-to-digital converters wherein within the array of sub-analog-to-digital converters, there is at least one designated reference analog-to-digital converter. The analog-to-digital converter system also includes a non-sequential channel select circuit to control a selection of the analog-to-digital converters and the reference analog-to-digital converter to non-sequentially interleave the outputs of said analog-to-digital converters and said reference analog-to-digital converter. Each channel of the plurality of sub-analog-to-digital converters includes a timing skew estimation circuit. Each timing skew estimation circuit receives an output signal from the reference analog-to-digital converter and receives the output signal from the associated analog-to-digital converter.

Abstract: The invention provides a temperature reference circuit that is adapted to provide a ?Vbe of sufficiently large value that no amplification is required, and therefore any offset contribution is not gained. Using a stacked arrangement of three pairs of transistors, the invention reduces the requirement for multiple resistors within a circuit and can therefore minimize errors due to resistor matching and value. By driving at least some of the transistors with a proportional to absolute temperature (PTAT) current it is possible to ensure that the ?Vbe as a temperature sensitive variable.

Abstract: An apparatus for detecting movement has a signal module for processing a movement signal produced by an inertial sensor, and a configuration module operatively coupled with the signal module. The configuration module configures the signal module to process the movement signal in accord with at least one specified parameter.

Abstract: A passive matching network is connected to an input/output line for an automatic test equipment drive channel to compensate for capacitances associated with a receiver circuit connected to the line, and also an optional current-mode driver circuit. The matching circuit preferably comprises a T-coil circuit that can include a bridging capacitor; separate T-coil circuits can be provided to separately compensate for receiver circuit and current-mode driver circuit capacitances. The driver and receiver circuits can be implemented on a common layer of an integrated circuit, with the T-coil windings implemented in a separate layer of the same integrated circuit that is spaced from the common layer by at least one dielectric layer.