This paper proposes a modulator that improves the signal-to-noise and distortion ratio (SNDR) by 6 dB compared with the conventional modulator. A high pass dither shaper added to the raised modulator eliminates harmonic spurs without increasing the in...
This paper proposes a modulator that improves the signal-to-noise and distortion ratio (SNDR) by 6 dB compared with the conventional modulator. A high pass dither shaper added to the raised modulator eliminates harmonic spurs without increasing the in-band noise floor. Moreover, a behavior-level modeling method is proposed for a 200 KHz bandwidth switch-capacitor sigma-delta digital to analog converter (SC ${\Sigma}{\Delta}DAC$). Consequently, by considering the main non-idealities in the SC ${\Sigma}{\Delta}DAC$, in contrast with the conventional SC ${\Sigma}{\Delta}DAC$, MATLAB simulation results show that the SC ${\Sigma}{\Delta}DAC$ with the proposed modulator boosts the SNDR by approximately 6 dB and the spurious free dynamic range (SFDR) by approximately 8 dB. Finally, with the circuit implemented in a $0.18{\mu}m$ CMOS process, the measurement results are also used to further validate the proposed SC ${\Sigma}{\Delta}DAC$ model.