There is provided an adversarial self-supervised learning method for a sigma delta modulation device. The device comprises a loop filter including an operational amplifier, and a circuit including a plurality of capacitors, a plurality of resistors, and a plurality of switches, which are connected to the operational amplifier; a quantization part quantizing and outputting a signal that is output from the loop filter; a feed-back converter converting a digital signal output from the quantization part into an analog signal; a memory configured to store one or more instructions; and a processor configured to control turn on or off of the plurality of switches, and adjust resistor values in an equivalent circuit of the loop filter in order to compensate a notch frequency reduced in the loop filter for satisfying a second-order transfer function.

A circuit includes: multi-bit analog-to-digital conversion circuitry; an interpolation circuit; a filter; and a digital delta-sigma modulator. The multi-bit analog-to-digital conversion circuitry has a first terminal and a second terminal. The interpolation circuit has a first terminal and a second terminal. The first terminal of the interpolation circuit is coupled to the second terminal of the multi-bit analog-to-digital conversion circuitry. The filter has a first terminal and a second terminal. The first terminal of the filter is coupled to the second terminal of the interpolation circuit. The digital delta-sigma modulator has a first terminal and a second terminal. The first terminal of the digital delta-sigma modulator is coupled to the second terminal of the filter.

In a described example, a circuit includes a digital-to-analog converter (DAC) unit element switch circuit including first and second sign switch inputs, first and second select switch inputs, and first, second and third DAC outputs. Synchronizer logic includes a selection input and first and second synchronization outputs, in which the first synchronization output is coupled to the first select switch input and the second synchronization output is coupled to the second select switch input. Selection logic includes a data input, a sign control output and a selection control output, in which the sign control output is coupled to the first and second sign switch inputs, and the selection control output is coupled to the selection input.

An analog-to-digital converter circuit usable for measuring a voltage having a large common-mode voltage includes two input voltage nodes, a voltage sensing circuit (that includes a sigma-delta modulator) that senses a voltage between the nodes, a digital filter that outputs a multi-bit digital value, and an input current cancellation circuit. The input current cancellation circuit supplies/draws cancellation currents to/from the nodes to compensate for currents drawn from/supplied to the nodes by the voltage sensing circuit. The input current cancellation circuit includes a digitally-programmable digital processing circuit and a current canceling circuit. In one example, the digital processing circuit includes a sigma-delta modulator that transforms a single-bit digital signal output by the voltage sensing circuit into a single-bit digital signal that drives the current canceling circuit. The transfer function of the current compensation loop is programmable and adjustable by loading digital trim values into the circuit.

A circuit includes: multi-bit analog-to-digital conversion circuitry; an interpolation circuit; a filter; and a digital delta-sigma modulator. The multi-bit analog-to-digital conversion circuitry has a first terminal and a second terminal. The interpolation circuit has a first terminal and a second terminal. The first terminal of the interpolation circuit is coupled to the second terminal of the multi-bit analog-to-digital conversion circuitry. The filter has a first terminal and a second terminal. The first terminal of the filter is coupled to the second terminal of the interpolation circuit. The digital delta-sigma modulator has a first terminal and a second terminal. The first terminal of the digital delta-sigma modulator is coupled to the second terminal of the filter.