Abstract: An area efficient amplifier that amplifies a continuous-time continuous-amplitude signal and converts it to a discrete-time discrete-amplitude signal. The amplifier includes a first oscillator having an input and a plurality of N outputs and a second oscillator having an input and N outputs. The amplifier includes N phase detectors, each phase detector has a first input, a second input, a first output, and a second output, where each first input of each phase detector is coupled to respective one of the N outputs of the first oscillator, where each second input of each phase detector is coupled to respective one of the N outputs of the second oscillator. The amplifier includes N quantizers, each quantizer has a data input, a clock input, and an output, where each data input of each quantizer is coupled to respective one first output or one second output of the N phase detectors.

Abstract: An area efficient amplifier that amplifies a continuous-time continuous-amplitude signal and converts it to a discrete-time discrete-amplitude signal. The amplifier includes a first oscillator having an input and a plurality of N outputs and a second oscillator having an input and N outputs. The amplifier includes N phase detectors, each phase detector has a first input, a second input, a first output, and a second output, where each first input of each phase detector is coupled to respective one of the N outputs of the first oscillator, where each second input of each phase detector is coupled to respective one of the N outputs of the second oscillator. The amplifier includes N quantizers, each quantizer has a data input, a clock input, and an output, where each data input of each quantizer is coupled to respective one first output or one second output of the N phase detectors.

Abstract: Circuits and methods for switched mode operational amplifiers are provided. In some embodiments, circuits are provided, the circuits comprising: an amplifier having an output; a first pulse width modulator (PWM) having an input coupled to the output of the amplifier and using a first periodic reference signal waveform; and a second PWM having an input coupled to the output of the amplifier and using a second periodic reference signal waveform, wherein the second periodic reference signal waveform is 180 degrees out of phase from the first periodic reference signal waveform. In some embodiments, circuits are provided, the circuits comprising: an amplifier having an output; and a plurality of pulse width modulators (PWMs) each having an input coupled to the output of the amplifier and using a corresponding unique one of a plurality of periodic reference signal waveforms, wherein the plurality of periodic reference signal waveforms are shifted in phase.

Abstract: An area efficient amplifier that amplifies a continuous-time continuous-amplitude signal and converts it to a discrete-time discrete-amplitude signal. The amplifier includes a first oscillator having an input and a plurality of N outputs and a second oscillator having an input and N outputs. The amplifier includes N phase detectors, each phase detector has a first input, a second input, a first output, and a second output, where each first input of each phase detector is coupled to respective one of the N outputs of the first oscillator, where each second input of each phase detector is coupled to respective one of the N outputs of the second oscillator. The amplifier includes N quantizers, each quantizer has a data input, a clock input, and an output, where each data input of each quantizer is coupled to respective one first output or one second output of the N phase detectors.

Abstract: An area efficient amplifier that amplifies a continuous-time continuous-amplitude signal and converts it to a discrete-time discrete-amplitude signal. The amplifier includes a first oscillator having an input and a plurality of N outputs and a second oscillator having an input and N outputs. The amplifier includes N phase detectors, each phase detector has a first input, a second input, a first output, and a second output, where each first input of each phase detector is coupled to respective one of the N outputs of the first oscillator, where each second input of each phase detector is coupled to respective one of the N outputs of the second oscillator. The amplifier includes N quantizers, each quantizer has a data input, a clock input, and an output, where each data input of each quantizer is coupled to respective one first output or one second output of the N phase detectors.

Abstract: Systems comprising: a first MDAC stage comprising: a sub-ADC that outputs a value based on an input signal; at least two reference capacitors that are charged to a Vref; at least two sampling capacitors that are charged to a Vin; and a plurality of switches that couple the at least two reference capacitors so that they are charged during a sampling phase, that couple the at least two sampling capacitors so that they are charged during the sampling phase, that couple at least one of the reference capacitors so that it is parallel to one of the at least two sampling capacitors during a hold phase, and that couple the other of the at least two sampling capacitors so that it couples the at least one of the reference capacitors and the one of the at least two sampling capacitors to a reference capacitor of a second MDAC stage.

Abstract: Circuits, methods, and media for providing calibrated delta-sigma modulators are provided. In some embodiments, circuits for a delta-sigma modulator are provided, the circuits comprising: an analog-to-digital converter that produces an output having multiple bits; a digital-to-analog converter having an input having multiple bits; a switch coupled between the output the input that can be used to configure connections between the bits of the output and the bits of the input; a hardware processor that: for multiple iterations, sets a configuration of the switch, samples the bits of the output to produce sample values for each bit of the bits of the output, and calculates an average of the sample values for each of the bits of the output values; computes weights for each of the bits of the output values; and calculates weighted output values for every value of the outputs.

Abstract: Circuits and methods for switched mode operational amplifiers are provided. In some embodiments, circuits are provided, the circuits comprising: an amplifier having an output; a first pulse width modulator (PWM) having an input coupled to the output of the amplifier and using a first periodic reference signal waveform; and a second PWM having an input coupled to the output of the amplifier and using a second periodic reference signal waveform, wherein the second periodic reference signal waveform is 180 degrees out of phase from the first periodic reference signal waveform. In some embodiments, circuits are provided, the circuits comprising: an amplifier having an output; and a plurality of pulse width modulators (PWMs) each having an input coupled to the output of the amplifier and using a corresponding unique one of a plurality of periodic reference signal waveforms, wherein the plurality of periodic reference signal waveforms are shifted in phase.

Abstract: Systems comprising: a first MDAC stage comprising: a sub-ADC that outputs a value based on an input signal; at least two reference capacitors that are charged to a Vref; at least two sampling capacitors that are charged to a Vin; and a plurality of switches that couple the at least two reference capacitors so that they are charged during a sampling phase, that couple the at least two sampling capacitors so that they are charged during the sampling phase, that couple at least one of the reference capacitors so that it is parallel to one of the at least two sampling capacitors during a hold phase, and that couple the other of the at least two sampling capacitors so that it couples the at least one of the reference capacitors and the one of the at least two sampling capacitors to a reference capacitor of a second MDAC stage.

Abstract: Systems comprising: a first MDAC stage comprising: a sub-ADC that outputs a value based on an input signal; at least two reference capacitors that are charged to a Vref; at least two sampling capacitors that are charged to a Vin; and a plurality of switches that couple the at least two reference capacitors so that they are charged during a sampling phase, that couple the at least two sampling capacitors so that they are charged during the sampling phase, that couple at least one of the reference capacitors so that it is parallel to one of the at least two sampling capacitors during a hold phase, and that couple the other of the at least two sampling capacitors so that it couples the at least one of the reference capacitors and the one of the at least two sampling capacitors to a reference capacitor of a second MDAC stage.

Abstract: Systems comprising: a first MDAC stage comprising: a sub-ADC that outputs a value based on an input signal; at least two reference capacitors that are charged to a Vref; at least two sampling capacitors that are charged to a Vin; and a plurality of switches that couple the at least two reference capacitors so that they are charged during a sampling phase, that couple the at least two sampling capacitors so that they are charged during the sampling phase, that couple at least one of the reference capacitors so that it is parallel to one of the at least two sampling capacitors during a hold phase, and that couple the other of the at least two sampling capacitors so that it couples the at least one of the reference capacitors and the one of the at least two sampling capacitors to a reference capacitor of a second MDAC stage.