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In this paper a new approach for employing the digital signal processing capabilities in the design of the multi-bit continuous time (CT) Delta Sigma modulators (DSM's) is presented. It proposes the discrete time (DT) pre-filtering before the DAC for solving the known problems of the CT DSM's.
Hossein SHAMSI Omid SHOAEI Roghayeh DOOST
In this paper the spectral density of the additive jitter noise in continuous time (CT) Delta-Sigma modulators (DSM) is derived analytically. Making use of the analytic results, extracted in this paper, a novel method for elimination of the damaging effects of the clock jitter in continuous time Delta-Sigma modulators is proposed. In this method instead of the conventional waveforms used in the feedback path of CT DSM's such as the non return to-zero, the return to-zero, and the half delay return to-zero, an impulse waveform is employed.
Roghayeh DOOST Abolghasem SAYADIAN Hossein SHAMSI
In this paper the SNR estimation is performed frame by frame, during the speech activity. For this purpose, the fourth-order moments of the real and imaginary parts of frequency components are extracted, for both the speech and noise, separately. For each noisy frame, the mentioned fourth-order moments are also estimated. Making use of the proposed formulas, the signal-to-noise ratio is estimated in each frequency index of the noisy frame. These formulas also predict the overall signal-to-noise ratio in each noisy frame. What makes our method outstanding compared to conventional approaches is that this method takes into consideration both the speech and noise identically. It estimates the negative SNR almost as well as the positive SNR.
In this paper a straight-forward approach to extract the equivalent loop-gain of a continuous time Delta-Sigma modulator with an arbitrary DAC waveform in z-domain is presented. In this approach the arbitrary DAC waveform is approximated by the infinite number of rectangular pulse shapes. Then simply using the transformations available in literatures for a rectangular DAC pulse shape and applying superposition on each rectangular pulse shape, the loop-gain of the system is derived in z-domain.
Hossein SHAMSI Omid SHOAEI Roghayeh DOOST
In this paper by using an exactly analytic approach the clock jitter in the feedback path of the continuous time Delta Sigma modulators (CT DSM) is modeled as an additive jitter noise, providing a time invariant model for a jittery CT DSM. Then for various DAC waveforms the power spectral density (psd) of the clock jitter at the output of DAC is derived and by using an approximation the in-band power of the clock jitter at the output of the modulator is extracted. The simplicity and generality of the proposed approach are the main advantages of this paper. The MATALB and HSPICE simulation results confirm the validity of the proposed formulas.
Kianoush SOURI Hossein SHAMSI Mehrshad KAZEMI Kamran SOURI
This paper presents a voltage reference that utilizes the virtually diode-connected MOS transistors, biased in the weak-inversion region. The proposed architecture increases the gain of the feedback loop that consequently reduces the system sensitivity, and hence improves the PSRR. The circuit is designed and simulated in a standard 0.18 µm CMOS technology. The simulation results in HSPICE indicate the successful operation of the circuit as follows: the PSRR at DC frequency is 86 dB and for the temperature range from -55C to 125C, the variation of the output reference voltage is less than 66 ppm/C.
This paper proposes a closed-form formula for the jitter-induced noise spectrum at the output of continuous-time ΔΣ modulators with NRZ feedback waveform. In this approach, the clock jitter effects are modeled as an additive noise in the feedback loop of the modulator. Making use of a conceptual model and following from the linear system theory, the output spectrum is explained versus the spectrum of the additive jitter noise.