In one embodiment, a method for converting an input digital signal into an analog signal is provided. The method comprises modulating the input digital signal into a modulated digital signal, and converting the modulated digital signal into the analog signal using a digital-to-analog converter (DAC). The modulation shapes quantization noise of the DAC to place a notch at a frequency within an out-of-bound frequency band to reduce the quantization noise within the out-of-bound frequency band.

A method of Vernier digital-to-analog conversion, the method including: performing conversion of a reference signal Y using a control code X=M+α.sup.−αN with a length ψ=α+β, wherein M is a control code with a length α, including high-order bits of the control code X, and α.sup.−αN is a control code with a length β, including lower-order bits of the control code X, wherein α≈β; performing digital multiplication of the lower-order a.sup.−αN bits of the control code X by a.sup.α times algebraic summing α of the high-order bits of the control code X and β of the lower-order bits of a.sup.−αN of the control code X being a result of multiplication by a.sup.α times, according to formula Q=M±N, wherein N is a resulting digital code of the digital multiplication, and Q is a resulting digital code of M±N; converting the resulting digital code Q from a reference signal Y.sub.1 to an analog signal Z.sub.1, and converting the resulting digital code N from a reference signal Y.sub.2 to an analog signal Z.sub.2, wherein reference signals Y.sub.1 and Y.sub.2 are related by a ratio: Y.sub.2=Y.sub.1 (1±a.sup.−α), wherein a is a base of number system, α is a number of bits of shifting the control code a.sup.−αN; and summing analog signals Z.sub.1 and Z.sub.2 to generate an analog output signal Z.sub.0.

An input circuitry for receiving an analog input signal comprises: an input transistor configured to receive the analog input signal on a gate terminal of the input transistor wherein the input transistor is connected to a digital component providing a digital signal, and wherein the input transistor is configured to receive the digital signal on a bulk terminal of the input transistor; wherein the input transistor is configured to provide an output current based on the analog input signal and the digital signal, such that the input transistor provides digital-to-analog conversion of the digital signal received on the bulk terminal.

A successive approximation register (SAR) analog-to-digital converter (ADC) comprises a comparator for generating a comparison value according to an analog signal; a SAR, coupled to the comparator, comprises N memory units, each memory unit storing a control value and the N control values being related to the comparison value, N being an integer greater than two; and a thermometer-coded DAC, which generates the analog signal and is coupled to the comparator and the SAR. The thermometer-coded DAC comprises N capacitors. The N capacitors are respectively coupled to the N memory units. The N terminal voltages of the N capacitors are respectively controlled by the N control values.

A digital-to-analog converter (DAC). A DAC includes a plurality of DAC cells and a controller. The controller generates a control signal for driving the plurality of DAC cells for each clock cycle. The controller may generate the control signal to select a set of one or more DAC cells for an input code or for a standby mode of the DAC such that the selected set of one or more DAC cells to be active for the same input code or for the standby mode of the DAC change over time without affecting an output of the DAC more than a predetermined limit.

A current steering converter fabricated using a predetermined integrated circuit technology includes a unary portion having one or more current sources and a binary portion including a plurality of switches controlled by a decoder, the switches coupled to a converter output; and a plurality of devices commonly connected at a first end and coupled to each respective switch at a second end, wherein each device size comprises (W/L)*M, where W/L is a width and length of the device and M is an integer representing multiple number.

A DWA circuit includes: a thermometer conversion unit configured to convert an input digital signal into a thermometer code; a shift amount storage unit configured to store a shift amount; a shift unit configured to cyclically shift the thermometer code; an arrangement conversion unit configured to supply, to an analog output circuit, an output control code obtained by converting a bit arrangement of a shifted code; and an update unit configured to update the shift amount, in which the shifted code includes a plurality of unconverted bit fields, the output control code includes a plurality of converted bit fields, and the arrangement conversion unit is configured to perform arrangement conversions on a plurality of bits having a same position in a bit field in the plurality of unconverted bit fields, to arrange the plurality of bits in a same converted bit field among the plurality of converted bit fields.

A combined I/Q DAC is provided with a plurality of sources corresponding to a plurality of selectors in which the corresponding source drives the corresponding selector with a source signal to produce a corresponding pair of in-phase and quadrature-phase analog input signals to a summation network. Each selector routes its source signal responsive to a digital value of a corresponding in-phase and quadrature-phase bit pair.

An electronic device may include a digital to analog converter receiving digital signals and outputting analog signals based on the received digital signals. The electronic device may also include a power source to supply current to the digital to analog converter. The digital to analog converter may include a first resistor ladder section to electrically couple an output node of the digital to analog converter to the power source via a first number of resistors in series. The digital to analog converter may also include a second resistor ladder section to electrically couple the output node to a reference voltage via a second number of resistors in series. The sum of the first number of resistors in series and the second number of resistors in series may be the same for each of the different analog signals.

A digital-to-analog converter (DAC) system preferably includes one or more optical modulators and can optionally include one or more electronic DAC arrays. A method for digital-to analog conversion preferably includes receiving digital inputs and providing analog optical outputs. The method for digital-to analog conversion is preferably performed using the DAC system.