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Optimal Duty-Cycle Modulation Scheme for Analog-To-Digital Conversion Systems

Year: 2017 Volume: 11 Issue: 3 354 - 360 Pages

• Authors:
• G. Sonfack
• J. Mbihi
• B. Lonla Moffo

Abstract: This paper presents an optimal duty-cycle modulation (ODCM) scheme for analog-to-digital conversion (ADC) systems. The overall ODCM-Based ADC problem is decoupled into optimal DCM and digital filtering sub-problems, while taking into account constraints of mutual design parameters between the two. Using a set of three lemmas and four morphological theorems, the ODCM sub-problem is modelled as a nonlinear cost function with nonlinear constraints. Then, a weighted least pth norm of the error between ideal and predicted frequency responses is used as a cost function for the digital filtering sub-problem. In addition, MATLAB fmincon and MATLAB iirlnorm tools are used as optimal DCM and least pth norm solvers respectively. Furthermore, the virtual simulation scheme of an overall prototyping ODCM-based ADC system is implemented and well tested with the help of Simulink tool according to relevant set of design data, i.e., 3 KHz of modulating bandwidth, 172 KHz of maximum modulation frequency and 25 MHZ of sampling frequency. Finally, the results obtained and presented show that the ODCM-based ADC achieves under 3 KHz of modulating bandwidth: 57 dBc of SINAD (signal-to-noise and distorsion), 58 dB of SFDR (Surpious free dynamic range) -80 dBc of THD (total harmonic distorsion), and 10 bits of minimum resolution. These performance levels appear to be a great challenge within the class of oversampling ADC topologies, with 2nd order IIR (infinite impulse response) decimation filter.

• Keywords:
• Digital IIR filter
• morphological lemmas and theorems
• optimal DCM-based DAC
• virtual simulation
• weighted least pth norm.

A Novel Digital Calibration Technique for Gain and Offset Mismatch in TIΣΔ ADCs

Year: 2011 Volume: 5 Issue: 9 1238 - 1248 Pages

• Authors:
• Ali Beydoun
• Van-Tam Nguyen
• Patrick Loumeau

Abstract: Time interleaved sigma-delta (TIΣΔ) architecture is a potential candidate for high bandwidth analog to digital converters (ADC) which remains a bottleneck for software and cognitive radio receivers. However, the performance of the TIΣΔ architecture is limited by the unavoidable gain and offset mismatches resulting from the manufacturing process. This paper presents a novel digital calibration method to compensate the gain and offset mismatch effect. The proposed method takes advantage of the reconstruction digital signal processing on each channel and requires only few logic components for implementation. The run time calibration is estimated to 10 and 15 clock cycles for offset cancellation and gain mismatch calibration respectively.

• Keywords:
• sigma-delta
• calibration
• gain and offset mismatches
• analog-to-digital conversion
• time-interleaving.

Data-driven ASIC for Multichannel Sensors

Year: 2011 Volume: 5 Issue: 11 1488 - 1491 Pages

• Authors:
• Eduard Atkin
• Alexander Klyuev
• Vitaly Shumikhin

Abstract: An approach and its implementation in 0.18 m CMOS process of the multichannel ASIC for capacitive (up to 30 pF) sensors are described in the paper. The main design aim was to study an analog data-driven architecture. The design was done for an analog derandomizing function of the 128 to 16 structure. That means that the ASIC structure should provide a parallel front-end readout of 128 input analog sensor signals and after the corresponding fast commutation with appropriate arbitration logic their processing by means of 16 output chains, including analog-to-digital conversion. The principal feature of the ASIC is a low power consumption within 2 mW/channel (including a 9-bit 20Ms/s ADC) at a maximum average channel hit rate not less than 150 kHz.

• Keywords:
• Data-driven architecture
• derandomizer
• multichannel sensor readout