Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters

Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters

Bibliographic Details
Main Author: Yoder, Samantha
Language:English
Published: The Ohio State University / OhioLINK 2010
Subjects:
Electrical Engineering
VCO
Voltage controlled oscillator
FDC
frequency to digital converter
TDC
Time to digital converter
VCO based Quantizer
VCO based ADC
Online Access:http://rave.ohiolink.edu/etdc/view?acc_num=osu1283951960
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spelling ndltd-OhioLink-oai-etd.ohiolink.edu-osu12839519602021-08-03T06:00:46Z Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters Yoder, Samantha Electrical Engineering VCO Voltage controlled oscillator FDC frequency to digital converter TDC Time to digital converter VCO based Quantizer VCO based ADC <p>Traditional ADCs (analog-to-digital converters) are built using analog circuitry that quantize the input signal in the voltage domain. As technology scales, voltage dynamic range decreases and design difficulties for analog circuits arise. Alternatively, time resolution is improving as technology scales. VCO (voltage controlled oscillator)-based quantizers are highly digital circuits which quantize in the time domain rather than in the voltage domain, and thus are becoming more attractive in deeply scaled technologies. The VCO converts an analog voltage into timing information that can then be quantized using digital circuitry.</p><p>Early work has used a simple digital counter to quantize the VCO signal. However issues with the counter “missing” VCO transitions near the sampling clock edge have led to the use of an FDC (frequency-to-digital converter) as the quantization circuit. The FDC has been widely adopted due to its inherent first order noise shaping characteristic. Another digital time quantization using TDCs (time-to-digital converters) have been traditionally used in PLLs to quantize the VCO phase error but have not been applied to VCO-based ADCs. </p><p>In this document, we propose for the first time the use of a TDC for time quantization in the VCO-based ADC. Both methods of using the TDC and the FDC are compared. While The SNR of the VCO-based quantizer using either the FDC or TDC is dependent on some common parameters such as VCO tuning range, Kv, x(t), and OSR (oversampling ratio), the TDC has two additional influences on the SNR; namely the VCO center frequency, fc, and buffer delay of the delay chain. Both TDC and FDC based quantizers were examined in the presence of VCO nonlinearity, VCO phase noise, and sampling clock jitter. The comparison involves using the same baseline VCO and sampling clock. Modeling and analysis of the VCO-based quantizer and theoretical SNR calculations of the ideal VCO-based quantizers with and without non-idealities are presented. The model results show that both FDC and TDC are impacted similarly when VCO nonlinearity and phase noise are introduced. However, when sampling clock jitter is introduced the FDCs SNR degrades significantly compared to the TDC. This can be attributed to the FDC losing its first order noise shaping response. </p><p>In summary this work presents an alternative method to using an FDC in a VCO-based quantizer which can achieve the same SNR performance with less sensitivity to sampling clock jitter.</p> 2010-11-01 English text The Ohio State University / OhioLINK http://rave.ohiolink.edu/etdc/view?acc_num=osu1283951960 http://rave.ohiolink.edu/etdc/view?acc_num=osu1283951960 unrestricted This thesis or dissertation is protected by copyright: all rights reserved. It may not be copied or redistributed beyond the terms of applicable copyright laws.
collection NDLTD
language English
sources NDLTD
topic Electrical Engineering
VCO
Voltage controlled oscillator
FDC
frequency to digital converter
TDC
Time to digital converter
VCO based Quantizer
VCO based ADC
spellingShingle Electrical Engineering
VCO
Voltage controlled oscillator
FDC
frequency to digital converter
TDC
Time to digital converter
VCO based Quantizer
VCO based ADC
Yoder, Samantha
Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters
author Yoder, Samantha
author_facet Yoder, Samantha
author_sort Yoder, Samantha
title Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters
title_short Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters
title_full Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters
title_fullStr Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters
title_full_unstemmed Analysis and Modeling of Non-idealities in VCO-Based Quantizers Using Frequency-to-Digital and Time-to-Digital Converters
title_sort analysis and modeling of non-idealities in vco-based quantizers using frequency-to-digital and time-to-digital converters
publisher The Ohio State University / OhioLINK
publishDate 2010
url http://rave.ohiolink.edu/etdc/view?acc_num=osu1283951960
work_keys_str_mv AT yodersamantha analysisandmodelingofnonidealitiesinvcobasedquantizersusingfrequencytodigitalandtimetodigitalconverters
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