In accordance with an embodiment, a method of operating a switched capacitor circuit includes pre-charging a capacitor using a voltage buffer having an input coupled to an input node of the switched capacitor circuit and an output coupled to the capacitor, coupling the input node to the capacitor, wherein a first charge is collected on the capacitor, and integrating the first charge using an integrator.

A wide band continuous time delta-sigma modulator implements a time interleaved quantization processing operation. The modulator may provide for an inherent finite impulse response filtering in the feedback loop. Additionally, further finite impulse response filtering in each time interleaved feedback path may be provided.

A built-in self-test (BIST) circuit is provided for testing an analog-to-digital converter (ADC). A multi-order sigma-delta (ΣΔ) modulator has an input that receives an input signal, a first output generating analog test signal derived from the input signal and applied to an input of the ADC and a second output generating a binary data stream. A digital recombination and filtering circuit has a first input that receives the binary data stream and a second input that receives a digital test signal output from the ADC in response to the analog test signal. The digital recombination and filtering circuit combines and filters the binary data stream and digital test signal to generate a digital result signal including a signal component derived from an error introduced by operation of the ADC. A correlation circuit is used to isolate that error signal component.

The present application discloses a data converter (112). The data converter includes an input terminus (98), a digital-to-analog (D/A) converter (116) and a mapping unit (114). The input terminus is configured to receive an input signal. The D/A converter includes a plurality of D/A converter units configured to generate an output signal. The mapping unit is coupled between the input terminus and the D/A converter and is configured to cause the plurality of D/A conversion units to be equivalently arranged in a relative order in which the plurality of D/A conversion units are gated according to specific electrical characteristics of the plurality of D/A conversion units for digital-to-analog conversion. The present application further provides an A/D converter, a D/A converter and a related chip.

Instability of an internal state in a current-input-type delta-sigma modulator is reduced in a case where input changes sharply. A signal current is input to a first integration node. A difference current between a fixed current and the signal current is input to a second integration node. A voltage-to-current converter that converts a difference voltage between the voltage of the first integration node and a first reference voltage into a current and outputs it is connected between the first integration node and the second integration node. The voltage of the second integration node is compared with a second reference voltage, and a 1-bit digital signal is output. Current is draws from the first integration node or the second integration node according to the 1-bit digital signal. A short-circuit switch is provided between the first integration node and the second integration node for short-circuiting them.

LED drive control circuitry according to one embodiment outputs an LED drive control signal serving as driving a light emitting diode included in a photocoupler that performs insulation communication in synchronization with a reference clock signal. The LED drive control circuit includes a duty cycle changer that changes a duty cycle of the LED drive control signal in accordance with the reference clock signal and a signal synchronized with the reference clock signal.

In accordance with an embodiment, a circuit includes a current digital-to-analog converter (DAC) having a current switching network coupled to a current DAC output, a first cascode current source coupled between a first supply node and the current switching network, a second cascode current source between a second supply node and the current switching network, and a shorting switch coupled between a first cascode node of the first cascode current source, and a second cascode node of the second cascode current source.

First and second p-type transistors are connected in series between an output terminal and a positive power terminal. First and second n-type transistors are connected in series between a node and a negative power terminal. A third p-type transistor is connected between a node and the positive power terminal. Third and fourth n-type transistors are connected in series between the output terminal and a low potential terminal. Fourth and fifth p-type transistors are connected in series between a node and the negative power terminal. A fifth n-type transistor is connected between a node and the negative power terminal. A high potential is outputted without leak current when the first to fifth p-type transistors are turned on and the first to fifth n-type transistors are turned off.

An isolator of embodiments includes a ΔΣ analog-digital converter configured to convert an analog signal into a digital signal of one bit and transmit the digital signal of one bit as normal data, a time direction multiplexing circuit configured to perform time direction multiplexing of alternately performing conversion of the normal data into a digital differential signal and transmission of the digital differential signal, and transmission of a special signal different from the normal data, and an insulated transmission circuit configured to transmit the digital differential signal and the special signal transmitted from the time direction multiplexing circuit via an insulating layer.

An analog to digital converter is provided. The analog to digital converter includes: an arithmetic operator combining an analog input signal with a feedback signal; a loop filter filtering an output signal of the arithmetic operator; a quantizer quantizing an output signal of the loop filter to output a digital signal; and a feedback converting the digital signal to output a feedback signal, in which the quantizer includes: a plurality of VCOs each receiving a positive output signal and a negative output signal of the loop filter and outputting VCO signals; a plurality of samplers receiving the VCO signals output from the plurality of VCOs, respectively and outputting sampled signals; and a phase detector detecting a phase difference in the sampled signals output from the plurality of samplers, respectively, to detect a phase difference in two VCO signals output from the plurality of VCOs, respectively.