Patent application number | Description | Published |
20110012764 | MULTIBIT RECYCLIC PIPELINED ADC ARCHITECTURE - An apparatus is provided. The apparatus comprises a sample switch, a sampling capacitor, an amplifier, feedback branches, a second hold switch, an N-bit converter pair, a third hold switch, and an M-bit converter pair. The sample receives an input signal and is actuated by a sample signal. The sampling capacitor is coupled to the sample switch. The amplifier has a first input terminal that is coupled to the sampling capacitor. The feedback branches are coupled between the output terminal of the amplifier and the first input terminal of the amplifier, with each feedback branch including a feedback capacitor, and a first hold switch that is coupled to the feedback capacitor. The second hold switch is coupled to the sampling switch. The N-bit converter pair is coupled to the sampling switch and to the second hold switch. The third hold switch is coupled to at least one of the feedback branches, and the M-bit converter pair is coupled to the output terminal of the amplifier and to the third hold switch. | 01-20-2011 |
20130039151 | CANCELLATION OF PRODUCTS GENERATED BY HARMONICS OF A SQUARE WAVE USED IN SQUARE-WAVE MIXING - A mixer circuit includes three square wave mixers and a combiner. A first square wave mixer in the circuit multiplies an input signal with a first square wave. A second square wave mixer and a third square wave mixer in the circuit each multiplies the input signal with a second square wave and a third square wave respectively. The second and third square waves have a same frequency as the first square wave, but phases that respectively lead and lag the phase of the first square wave by a first value. The combiner adds the outputs of the mixers. A low-pass filter external to the mixer circuit filters the sum generated by the combiner to generate a filtered output. In an embodiment, the first value equals forty five degrees, and the filtered output is rendered free of products generated by third and fifth harmonics of the first square wave square. | 02-14-2013 |
20130258812 | ULTRASONIC RECEIVER FRONT-END - In certain embodiments, systems for receiving one or more echoes are provided. The system comprises a first attenuator, a first amplifier, and a second attenuator. The first attenuator is configured to receive the one or more echo signals, and generate a corresponding set of first attenuated echo signals, respectively, based on a number of signal strengths of the one or more echo signals. The first amplifier is configured to receive and amplify the set of first attenuated echo signals to thereby generate a set of first amplified echo signals corresponding to the one or more first attenuated echo signals, respectively. The second attenuator is configured to receive the set of first amplified echo signals and generate a set of second attenuated echo signals corresponding to the set of first amplified echo signals, respectively, based on a number of signal strengths of the set of first amplified echo signals, respectively. | 10-03-2013 |
20130307623 | Amplifier Circuits with Reduced Power Consumption - Various embodiments of an amplifier circuit are provided. In one embodiment, the amplifier circuit includes an input differential circuitry configured to convert a pair of input differential voltage signals to a pair of differential current signals. The amplifier circuit includes a cascode circuitry operable to mirror the pair of differential current signals received from the first output terminal and the second output terminal to an output terminal of the first cascode transistor and an output terminal of the second cascode transistor. The amplifier circuit includes a current control circuit operable to divert an amount of bias current to reduce a current through the cascode circuitry, to thereby reduce a load of the amplifier circuit, the reduction in the load of the amplifier circuit allowing a reduction in current through the input differential circuitry for maintaining a predetermined bandwidth of the amplifier circuit. | 11-21-2013 |
20140084982 | Circuits for Improving Linearity of Metal Oxide Semiconductor (MOS) Transistors - Various embodiments of circuits configured to improve second order harmonic distortion of Metal Oxide Semiconductor (MOS) transistors operating in linear region are provided. In one embodiment, a circuit includes an averaging circuit configured to average signals at a drain and a source of a MOS transistor and provide the averaged signal to a gate of the MOS transistor, and one or more current sources coupled with the gate; the circuit is configured to vary voltage at the gate so as to vary a resistance of the MOS transistor. The averaging circuit comprises a first MOS circuit coupled between the drain and the gate, a first capacitor coupled in parallel to the first MOS circuit between the drain and the gate, a second MOS circuit coupled between the source and the gate, and a second capacitor coupled in parallel to the second MOS circuit between the source and the gate. | 03-27-2014 |
20140184330 | TIME GAIN COMPENSATION - In certain embodiments, circuits and methods for time gain compensation are provided. A circuit includes a first op-amp that is configured to compare a first and a second input voltage signal received from first and second input circuits, respectively, and output a first op-amp output signal. A control circuit coupled with a first semiconductor element of the second input circuit is configured to vary a first resistance value of the first semiconductor element to control the first op-amp output signal. The first op-amp output signal includes a relatively high voltage signal and a relative low voltage signal when an input control voltage signal corresponds to a first reference voltage and a second reference voltage signal, respectively associated with the first op-amp. The first op-amp output signal is input to a gate terminal of a load semiconductor element so-as to vary an impedance of the load semiconductor element. | 07-03-2014 |
20150077070 | FEEDFORWARD CANCELLATION OF POWER SUPPLY NOISE IN A VOLTAGE REGULATOR - A voltage regulator that provides feedforward cancellation of power supply noise is disclosed. The voltage regulator includes a process tracking circuit that receives a supply voltage and generates a proportional voltage. A tracking capacitor is coupled to the process tracking circuit and generates an injection voltage based on the proportional voltage. An Ahuja compensated regulator generates a regulated voltage. The injection voltage is provided on a feedback path of the Ahuja compensated regulator. | 03-19-2015 |