A correction system is configured to correct for duty cycle distortion and/or cross-point distortion in a pair of sample signals. A slope adjustment circuit is configured to generate a plurality of pairs of intermediate signals according to a plurality of drive strengths. A measurement circuit is configured to measure for duty cycle distortion and/or cross-point distortion, and the slope adjustment circuit is configured to set the plurality of drive strengths based on the measurement. The setting of the drive strengths may reduce certain rising and falling slopes of certain transitions of the plurality of intermediate signals, which in turn may reduce duty cycle distortion and/or cross-point distortion in the sample signals.

A correction system is configured to correct for duty cycle distortion and/or cross-point distortion in a pair of sample signals. A slope adjustment circuit is configured to generate a plurality of pairs of intermediate signals according to a plurality of drive strengths. A measurement circuit is configured to measure for duty cycle distortion and/or cross-point distortion, and the slope adjustment circuit is configured to set the plurality of drive strengths based on the measurement. The setting of the drive strengths may reduce certain rising and falling slopes of certain transitions of the plurality of intermediate signals, which in turn may reduce duty cycle distortion and/or cross-point distortion in the sample signals.

A converter circuit includes a current interface with a control input, with a current signal output and a current output. The converter circuit includes a micro-processor with a measuring signal input for the digital measuring signal, with a current signal input connected to the current signal output of the current interface, and with a control output connected to the control input of the current interface. The current interface lets the signal current flow through the current output and simultaneously adjust both the amperage to a stationary amperage level corresponding to a control value currently applied to the control input, and to output a sequence of current values at the current signal output. The micro-processor is designed to generate a measuring value sequence on the basis of the digital measuring signal and use it as the basis from which to generate a control value sequence and issue it at the control output as well as to monitor and/or check the current interface using the control value sequence and the current value sequence.

A converter circuit includes a current interface with a control input, with a current signal output and a current output. The converter circuit includes a micro-processor with a measuring signal input for the digital measuring signal, with a current signal input connected to the current signal output of the current interface, and with a control output connected to the control input of the current interface. The current interface lets the signal current flow through the current output and simultaneously adjust both the amperage to a stationary amperage level corresponding to a control value currently applied to the control input, and to output a sequence of current values at the current signal output. The micro-processor is designed to generate a measuring value sequence on the basis of the digital measuring signal and use it as the basis from which to generate a control value sequence and issue it at the control output as well as to monitor and/or check the current interface using the control value sequence and the current value sequence.

A D/A converter includes a decoder, a voltage selection circuit, and a voltage selection circuit. The voltage selection circuit includes a plurality of stages of selector blocks in which output of a selector of the selector block at the previous stage is input to a selector of the selector block at the subsequent stage. A plurality of voltages are input to the selector block at the first stage, and the selector block at the final stage outputs a D/A-converted voltage. Each of the plurality of stages of selector blocks includes a plurality of transistors and, of the plurality of transistors forming the selector block, a second transistor on a far side from a power source node is set to a lower threshold voltage than that of a first transistor on a near side from the power source node.

A D/A converter includes a decoder, a voltage selection circuit, and a voltage selection circuit. The voltage selection circuit includes a plurality of stages of selector blocks in which output of a selector of the selector block at the previous stage is input to a selector of the selector block at the subsequent stage. A plurality of voltages are input to the selector block at the first stage, and the selector block at the final stage outputs a D/A-converted voltage. Each of the plurality of stages of selector blocks includes a plurality of transistors and, of the plurality of transistors forming the selector block, a second transistor on a far side from a power source node is set to a lower threshold voltage than that of a first transistor on a near side from the power source node.

A method and system for data conversion includes an analog noise generator to generate a random, non-deterministic, analog noise signal. An adder adds the analog noise signal to an analog RF signal to produce a dithered analog signal. A first quantizer converts the analog noise signal to digital to produce a digital noise signal. A second quantizer converts the dithered analog signal to a digital equivalent signal. A digital dither adjustment module removes amplitude measurements of the digital noise signal from the digital equivalent signal to obtain a linearized digital representation of the analog RF signal.

A method and system for data conversion includes an analog noise generator to generate a random, non-deterministic, analog noise signal. An adder adds the analog noise signal to an analog RF signal to produce a dithered analog signal. A first quantizer converts the analog noise signal to digital to produce a digital noise signal. A second quantizer converts the dithered analog signal to a digital equivalent signal. A digital dither adjustment module removes amplitude measurements of the digital noise signal from the digital equivalent signal to obtain a linearized digital representation of the analog RF signal.

A digital-to-analog converter (DAC) may have an encoder that generates a multi-bit output based on a multi-bit input, a plurality of first converter elements, with each first converter element generating an output according to a single bit of the multi-bit output of the encoder; and a combiner that generates a combined output based on combining outputs from the plurality of first converter elements. The number of bits in the multi-bit input being two or more and the number of bits in the multi-bit output being greater than the number of bits in the multi-bit input. The DAC may also have one or more second converter elements, with second converter element generating an output according to a single bit, and the combiner may generates the combined output based on combining outputs from the plurality of first converter elements with outputs from the one or more second converter elements.

A digital-to-analog converter (DAC) may have an encoder that generates a multi-bit output based on a multi-bit input, a plurality of first converter elements, with each first converter element generating an output according to a single bit of the multi-bit output of the encoder; and a combiner that generates a combined output based on combining outputs from the plurality of first converter elements. The number of bits in the multi-bit input being two or more and the number of bits in the multi-bit output being greater than the number of bits in the multi-bit input. The DAC may also have one or more second converter elements, with second converter element generating an output according to a single bit, and the combiner may generates the combined output based on combining outputs from the plurality of first converter elements with outputs from the one or more second converter elements.