Abstract: A high-gain, low-power transconductance amplifier suitable for use in switched-capacitor circuits provides improved accuracy and high-speed operation. The transconductance amplifier includes an input circuit that receives an input voltage. A current mirror circuit is coupled to the input circuit. At least one active cascode circuit, coupled to the current mirror circuit, receives current from the current mirror circuit and provides an output current. The active cascode circuit provides gain enhancement to the transconductance amplifier by increasing the output impedance of the transconductance amplifier.

Abstract: The dc-offset voltage of an amplifier is calibrated by: (1) configuring the amplifier as a comparator, (2) using the output of the comparator to drive the up/down select input of an up/down counter, and (3) using the output count of the up/down counter to control: (a) a dc-offset correction voltage being: (i) applied across the inputs of the amplifier, or (ii) being used to adjust a voltage which controls an operating parameter of a device in the amplifier, or (b) switches which selectively adjust the effective size or operating conditions of a transistor or other device such that the dc-offset voltage of the amplifier is adjusted corresponding to the value of the output count.

Abstract: A multi-phase, multi-access pipeline memory system includes a number, n, of processors; a pipeline memory including a latch; and a bus for interconnecting the processors and pipeline memory; a clock circuit responsive to a system clock signal divides the system clock signal into n phases for providing multiple clock signals corresponding to the n phases of the system clock signal for application to each processor to allow data and address to be transferred only during its assigned phase thereby enabling the memory and each processor to operate at the system clock rate while allowing n accesses to the memory during each system clock signal period, one access for each processor.

Abstract: A switched capacitance phase locked loop (PLL) system includes a filter circuit having a scaling channel for scaling the phase error; an integrating channel for integrating the phase error; and a summing device for combining the scaled phase error and the integrated phase error; a voltage controlled oscillator (VCO) responsive to the summing device produces an output; the VCO's gain is proportional to its output clock frequency; the integrating channel includes a switched capacitance integrating circuit for controlling the gain of the integrating channel proportional to the output clock frequency of the VCO and maintaining constant the ratio of, and scaling the product of, the unity gain frequency and the zero frequency of the phase locked loop to keep constant the damping factor and to scale the natural frequency of the phase locked loop with the output clock frequency of the VCO, respectively.

Abstract: A digital oversampling noise-shaping system includes a digital noise-shaped clock signal generating circuit, including a DCO operating at a fixed master clock rate, that receives a digital input sample clock signal having an input sample rate and produces a noise-shaped clock signal having a variable rate with an average rate equal to a multiple of the input sample rate. In one embodiment, an interpolator is coupled to the clock signal generating circuit and receives the digital input samples at an input sample rate and, responsive to the noise-shaped clock signal, upsamples the digital input samples at the variable rate. A hold circuit repeats the interpolated samples at the master clock rate. A digital noise-shaping circuit, coupled to the hold circuit, performs digital noise-shaping on the repeated samples received from the hold circuit. In another embodiment, a decimator is coupled to the clock signal generating circuit.

Abstract: A novel finite impulse response filter apparatus and method. A multiplexed data stream composed of two or more data streams is provided as an input to a tapped delay line. Weight and sum operators are connected to the even or odd delay line taps and generate a filtered output. The filter operates on one data stream per cycle and generates a multiplexed output. In another form, odd weight and sum operates are connected to and odd taps generating two filtered outputs. The filter operates on both data streams in each cycle and generates two multiplexed outputs. A crossbar switch is disclosed for parsing the multiplexed outputs into the constituent filtered data streams. The filter stages may be cascaded.

Abstract: A video decoder is provided wherein digitized samples of an input video signal are produced at a fixed sampling rate and, from such digitized samples, a fixed number of re-sampled digitized samples are produced for each detected sync pulse included in the video signal. The re-sampled digitized samples are stored in a buffer memory and are retrieved from such buffer memory at a rate synchronized to the sync pulse. With such an arrangement, the analog to digital converter operates at a fixed sampling rate, and overflow situations are avoided.

Abstract: A digital filtering system is fed by input signal and produces an output signal from either a relatively low bandwidth filter or a relatively wide bandwidth filter selectively in accordance with the time rate of change in the input signal. The output signal is produced by the relatively low bandwidth filter when the input signal is slowly varying and the output signal is produced by the relatively wide bandwidth filter when the input signal changes rapidly, after which the output is produced from the relatively low bandwidth filter when the input signal reverts to its more slowly varying characteristics.

Abstract: A circuit for use with a magnetic sensing device having at least first and second sensors has a summing amplifier for providing a difference signal and a peak detector for detecting peaks in the difference signal. The peaks determine a spatial offset of a transition in a sensed body.

Abstract: Operational transconductance amplifiers (OTAs) are combined at their outputs, yielding a single frequency compensation connection point. In a preferred embodiment, the output of each OTA is asymmetric, i.e., they can only source current and the OTA outputs are tied together to a constant current sink. Consequently, the OTA that sources more current controls the voltage of the merged output. This merged output point provides a voltage output that may be used as a frequency compensation point.

Abstract: A CMOS layout enables the matching of an intentionally created parasitic capacitance to an existing parasitic capacitance, for example, a gate-to-drain capacitance of a MOSFET, with a high degree of precision. This precise matching allows a differential pair of MOSFETs acting as the input of an amplfier to have intentionally created capacitances (that match the parasitic gate-to-drain capacitances) cross-coupled between the inputs and the outputs of the differential pair. This cross-coupling of matching capacitances effectively cancels the bandwidth reducing effect of the gate-to-drain capacitances of the differential pair. The layout provides for the interdigitation of the gates of the differential pair, with each input transistor comprising at least two transistors connected together to form a single input transistor.

Abstract: A read system for implementing PR4 and higher order PRML signals includes: a continuous time programmable filter, for receiving a read signal representative of a binary signal from a storage medium and for shaping the read signal into a PR4 shaped read signal; an analog finite impulse response (AFIR) filter, responsive to the continuous time programmable filter, for sampling and forming the PR4 shaped read signal into a PR4 shaped multilevel read signal; an analog to digital converter, responsive to the AFIR filter, for converting the PR4 shaped multilevel read signal from analog to digital; a data sequence filter, responsive to the analog to digital converter, for transforming the PR4 shaped multilevel digital read signal to a predetermined order PRML signal; and a Viterbi detector, responsive to the data sequence filter, for detecting the binary signal from the predetermined order PRML signal.

Abstract: An insubstantial amount of noise results at the output of a circuit when an output of a primary amplifier is disconnected from and reconnected to the circuit in which is operating. The primary amplifier is placed temporarily in a muting configuration. A secondary amplifier permanently in a muting configuration is connected in parallel with the primary amplifier. The output of the primary amplifier then is disconnected from a circuit node to which it is attached. The primary amplifier may then be taken out of its muting configuration. After, for example, configuring the primary amplifier as a comparator and calibrating its dc-offset voltage, the primary amplifier is placed back into a muting configuration. The secondary amplifier then is disconnected from the primary amplifier. The primary amplifier may subsequently be taken out of muting configuration to resume its normal function in the circuit.

Abstract: A switch architecture for a digital-to-analog converter provides improved linearity. A first switch for one leg of the R/2R resistance ladder includes a unit resistor coupled between the MOSFET devices of the switch and the respective leg of the R/2R ladder. The on resistances of the MOSFET devices of the first switch are controlled in response to a reference value, such as the resistance of a reference resistor, which may have a resistance and other characteristics similar to the unit resistor. Other switches for other legs of the R/2R ladder also have a unit resistor, or other MOSFET devices having an on resistance controlled in relation to the reference value. Additional switches for other legs of the R/2R ladder may also have MOSFET devices of varying width to channel (W/L) ratios. Each of these approaches may be combined to achieve a binary weighting or an alternate weighting between legs of the R/2R ladder, in order to provide low linearity error.

Abstract: A residue amplifier includes input and output differential amplifiers. The output differential amplifier includes temperature-dependent current sources which compensate for temperature dependent gain variations within the input differential amplifier. Amplifier components are chosen to produce an overall gain equal to a ratio of fixed resistors, at a nominal temperature. The compensating current sources maintain this fixed gain value as the amplifier's operating temperature varies.

Abstract: A method and apparatus for removing low frequency noise and any offsets common to a plurality of samples of a signal, for calibrating an offset level to be added to the signal to reference the signal to a desired reference level at an output of the apparatus, and for clamping an input voltage level to the apparatus to a desired voltage within an operating range of the apparatus. The apparatus includes a correlated double-sampling circuit which takes a first sample and a second sample of the analog signal, takes a difference between the first sample and the second sample to remove low frequency noise and any offsets common to both sample and which outputs a difference signal. In addition, the apparatus includes a black level correction circuit which adds an offset level to the difference signal to calibrate the offset level to be added to the difference signal so that the difference signal is at a desired reference level at an output of the apparatus.

Abstract: A data transmission system including a telephone service subscriber loop utilized for transmission of data including telephone service signals; a splitter operable for splitting the subscriber loop into a first transmission path including a low pass filter which accommodates a continuation of telephone service signal transmissions along the subscriber loop and a second transmission path, said second transmission path including a capacitive element for attenuating the telephone service signals; and a digital subscriber loop transceiver coupled to the second transmission path for implementing high rate digital data transmission over the subscriber loop, the transceiver including a frontend processing circuit having a transmit path and a receive path, at least said receive path comprising a high pass filter for further attenuating said telephone service signals.

Abstract: A digitally controlled programmable attenuator maintains tight phase matching between attenuated signals over wide ranges of frequencies and power levels regardless of the selected attenuation level. This is achieved with a multi-tap ladder network that sets a desired tap-to-tap dB step-size, a plurality of unity gain digitally switched voltage-to-voltage buffers that are connected between the respective taps and a common output, and a fixed gain stage that sets the attenuator's overall gain/attenuation. The buffers maintain a high and substantially constant impedance whether turned on or turned off. Phase matching within 0.2.degree. at frequencies up to 300 MHz for 30 dB of gain variation has been realized.

Abstract: A variable gain amplifier includes an input transconductor having a transconductance that is variable in response to a first control signal, an output circuit having a transresistance that is variable in response to a second control signal and a gain controller responsive to a gain control signal x for providing the first and second control signals to the input transconductor and the output circuit. The amplifier has a voltage gain equal to the product of the transconductance and the transresistance. When the first control signal is a function (1+x) of the gain control signal and the second control signal is a function (1-x) of the gain control signal, the voltage gain of the amplifier is approximately an exponential function of the gain control signal.

Abstract: An electrical overstress (EOS) protection circuit for protecting an active circuit of an integrated circuit including first and second clamping circuits series connected between a first input and a first input/output of the EOS protection circuit and third and fourth clamping circuits connected between a first output of the protection circuit and a second input/output. In embodiments of the present invention an EOS protection circuit provides protection for an active circuit while enabling a voltage at an input pad to the active circuit to exceed a power supply reference by more than several volts and to be less than a ground reference by more than several volts.