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Incremental Data Converters for Sensor Interfaces

Incremental Data Converters for Sensor Interfaces
Author: Chia-Hung Chen
Publisher: John Wiley & Sons
Total Pages: 164
Release: 2023-12-19
Genre: Technology & Engineering
ISBN: 1394178387
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Comprehensive resource discussing operating principles, available architectures, and design of micropower incremental analog-to-digital converters (IADCs) Incremental Data Converters for Sensor Interfaces describes the motivation for using incremental analog-to-digital converters (IADCs), including the theoretical foundations of their operation, the trade-offs in their use, and the practical issues in the circuit analysis and design of IADCs. The text covers core foundational knowledge such as the key algorithms used, circuits for single-stage and multi-stage IADCs, the design of the digital post filters for single- and multi-stage IADCs, IADC applications in measurement and instrumentation, medicine, imagers, and IoT, and comparison of delta-sigma (D-S) and incremental ADCs (IADCs) in terms of accuracy, latency, and multiplexed operation. To aid in reader comprehension and serve as an excellent classroom learning resource, Incremental Data Converters for Sensor Interfaces includes in-text problems and homework for graduate studies, along with helpful computer codes in MATLAB and Simulink. Additional topics covered in Incremental Data Converters for Sensor Interfaces include: Sensors and sensor interfaces, mixed-mode (analog–digital) communication and consumer signal chains, and ADC algorithms Quantization errors vs. quantization noise, and performance parameters and figures of merit, including resolution, linearity, accuracy, bandwidth, latency, and power dissipation Nyquist-rate and oversampling data converters, noise-shaping ADCs, and basic architectures for IADCs, including single- and multi-stage designs and discrete vs. continuous-time operation Loop filter design, D/A converter design, dynamic element matching and digital calibration, and quantizer design With comprehensive coverage of foundational knowledge surrounding the subject, various real-world examples, and helpful learning aids, Incremental Data Converters for Sensor Interfaces is an essential resource for graduate students in electronics programs, along with industrial circuit design professionals.

Incremental Data Converters for Sensor Interfaces

Incremental Data Converters for Sensor Interfaces
Author: Chia-Hung Chen
Publisher: John Wiley & Sons
Total Pages: 164
Release: 2023-11-03
Genre: Technology & Engineering
ISBN: 1394178409
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Comprehensive resource discussing operating principles, available architectures, and design of micropower incremental analog-to-digital converters (IADCs) Incremental Data Converters for Sensor Interfaces describes the motivation for using incremental analog-to-digital converters (IADCs), including the theoretical foundations of their operation, the trade-offs in their use, and the practical issues in the circuit analysis and design of IADCs. The text covers core foundational knowledge such as the key algorithms used, circuits for single-stage and multi-stage IADCs, the design of the digital post filters for single- and multi-stage IADCs, IADC applications in measurement and instrumentation, medicine, imagers, and IoT, and comparison of delta-sigma (D-S) and incremental ADCs (IADCs) in terms of accuracy, latency, and multiplexed operation. To aid in reader comprehension and serve as an excellent classroom learning resource, Incremental Data Converters for Sensor Interfaces includes in-text problems and homework for graduate studies, along with helpful computer codes in MATLAB and Simulink. Additional topics covered in Incremental Data Converters for Sensor Interfaces include: Sensors and sensor interfaces, mixed-mode (analog–digital) communication and consumer signal chains, and ADC algorithms Quantization errors vs. quantization noise, and performance parameters and figures of merit, including resolution, linearity, accuracy, bandwidth, latency, and power dissipation Nyquist-rate and oversampling data converters, noise-shaping ADCs, and basic architectures for IADCs, including single- and multi-stage designs and discrete vs. continuous-time operation Loop filter design, D/A converter design, dynamic element matching and digital calibration, and quantizer design With comprehensive coverage of foundational knowledge surrounding the subject, various real-world examples, and helpful learning aids, Incremental Data Converters for Sensor Interfaces is an essential resource for graduate students in electronics programs, along with industrial circuit design professionals.

Micropower Incremental Analog-to-digital Converters

Micropower Incremental Analog-to-digital Converters
Author: Chia-Hung Chen
Publisher:
Total Pages: 68
Release: 2013
Genre: Analog-to-digital converters
ISBN:
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Incremental ADCs (IADCs) have many advantages for low-frequency high-accuracy data conversion--they are easy to multiplex between channels, need simpler digital decimation filter, and allow extended counting with a Nyquist-rate ADC. A single-loop incremental ADC was designed and fabricated in 90 nm for a biosensor interface circuit. It incorporates one integrator, and uses noise-coupling technique to achieve second-order noise-shaping. The use of feed-forward coupling and multi-bit internal quantizer allows low swing at the integrator, and hence low-power operation. The measured SNR is 74 dB within a signal bandwidth 2 kHz, and a 14 [mu]W power consumption. A new two-step IADC was proposed for 250 Hz bandwidth sensor interface circuits. It extends the order of a conventional incremental ADC from N to (2N-1) by way of a two-step operation. However, it only needs the same circuitry as the Nth-order IADC. A second-order loop filter was designed and fabricated by 2.5V I/O devices in 65 nm to demonstrate this concept to achieve third-order noise-shaping performance. Operated at sampling frequency 96 kHz, the measured dynamic range is 99.8 dB relative to a maximum input 2.2 VPP. The measured maximum SNDR was 91 dB with a 2.2 V[subscript PP] input amplitude. The ADC core area is 0.2 mm2, and the IADC consumed only 11.7 [mu]W. A new incremental ADC with multi-step extended-counting was proposed for sensor interface conversion. A 1st-order feedforward modulator was used for the coarse conversion, and the residue voltage was quantized by re-using the modulator for the fine conversion. Then, the circuit was re-configured as a counting ADC to quantize the residue voltage. The three steps of the circuits perform 15-bit quantization by 5-bit/step. A first-order IADC could only achieve 6.6-bit performance within the same conversion time of 96 clock periods. Reusing the first-order circuits, extra 8.4-bit is thus achieved.

Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems

Efficient Sensor Interfaces, Advanced Amplifiers and Low Power RF Systems
Author: Kofi A.A. Makinwa
Publisher: Springer
Total Pages: 332
Release: 2015-08-28
Genre: Technology & Engineering
ISBN: 3319211854
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This book is based on the 18 tutorials presented during the 24th workshop on Advances in Analog Circuit Design. Expert designers present readers with information about a variety of topics at the frontier of analog circuit design, including low-power and energy-efficient analog electronics, with specific contributions focusing on the design of efficient sensor interfaces and low-power RF systems. This book serves as a valuable reference to the state-of-the-art, for anyone involved in analog circuit research and development.

Sigma-Delta Converters: Practical Design Guide

Sigma-Delta Converters: Practical Design Guide
Author: Jose M. de la Rosa
Publisher: John Wiley & Sons
Total Pages: 581
Release: 2018-11-05
Genre: Technology & Engineering
ISBN: 1119275784
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Thoroughly revised and expanded to help readers systematically increase their knowledge and insight about Sigma-Delta Modulators Sigma-Delta Modulators (SDMs) have become one of the best choices for the implementation of analog/digital interfaces of electronic systems integrated in CMOS technologies. Compared to other kinds of Analog-to-Digital Converters (ADCs), Σ∆Ms cover one of the widest conversion regions of the resolution-versus-bandwidth plane, being the most efficient solution to digitize signals in an increasingly number of applications, which span from high-resolution low-bandwidth digital audio, sensor interfaces, and instrumentation, to ultra-low power biomedical systems and medium-resolution broadband wireless communications. Following the spirit of its first edition, Sigma-Delta Converters: Practical Design Guide, 2nd Edition takes a comprehensive look at SDMs, their diverse types of architectures, circuit techniques, analysis synthesis methods, and CAD tools, as well as their practical design considerations. It compiles and updates the current research reported on the topic, and explains the multiple trade-offs involved in the whole design flow of Sigma-Delta Modulators—from specifications to chip implementation and characterization. The book follows a top-down approach in order to provide readers with the necessary understanding about recent advances, trends, and challenges in state-of-the-art Σ∆Ms. It makes more emphasis on two key points, which were not treated so deeply in the first edition: It includes a more detailed explanation of Σ∆Ms implemented using Continuous-Time (CT) circuits, going from system-level synthesis to practical circuit limitations. It provides more practical case studies and applications, as well as a deeper description of the synthesis methodologies and CAD tools employed in the design of Σ∆ converters. Sigma-Delta Converters: Practical Design Guide, 2nd Edition serves as an excellent textbook for undergraduate and graduate students in electrical engineering as well as design engineers working on SD data-converters, who are looking for a uniform and self-contained reference in this hot topic. With this goal in mind, and based on the feedback received from readers, the contents have been revised and structured to make this new edition a unique monograph written in a didactical, pedagogical, and intuitive style.

Understanding Delta-Sigma Data Converters

Understanding Delta-Sigma Data Converters
Author: Shanthi Pavan
Publisher: John Wiley & Sons
Total Pages: 596
Release: 2017-01-24
Genre: Technology & Engineering
ISBN: 1119258278
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This new edition introduces operation and design techniques for Sigma-Delta converters in physical and conceptual terms, and includes chapters which explore developments in the field over the last decade Includes information on MASH architectures, digital-to-analog converter (DAC) mismatch and mismatch shaping Investigates new topics including continuous-time ΔΣ analog-to-digital converters (ADCs) principles and designs, circuit design for both continuous-time and discrete-time ΔΣ ADCs, decimation and interpolation filters, and incremental ADCs Provides emphasis on practical design issues for industry professionals

Power Efficient Architectures for High Accuracy Analog-to-Digital Converters

Power Efficient Architectures for High Accuracy Analog-to-Digital Converters
Author: Yi Zhang
Publisher:
Total Pages: 87
Release: 2016
Genre: Analog-to-digital converters
ISBN:
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Incremental ADCs (IADCs) have found wide applications in sensor interface circuitry since, compared to [delta sigma] ADCs, they provide low-latency high-accuracy conversion and easy multiplexing among multiple channels. On the other hand, continuous-time [delta sigma] ADCs (CTDSM) have been receiving more and more attention as a power-efficient solution in targeting medium to high accuracy over wider range of signal bandwidth (tens of MHz). In this dissertation, novel configurations have been explored in both architectures for power-efficient and high-accuracy data conversion. First, a multi-step incremental ADC (IADC) using multi-slope extended counting technique is described. Only one active integrator is used in the three-step conversion cycle. The accuracy of the IADC is extended by having it configured as multi-slope ADCs in two additional steps. The proposed IADC uses the same circuitry as a first-order IADC (IADC1), but it exhibits as good efficiency as its second-order [delta sigma] ADC counterpart. For the same accuracy, the conversion cycle is shortened by a factor of more than 29 compared to the IADC1. Fabricated in 0.18-[micro]m CMOS process, the prototype ADC occupies 0.5 mm2. With a 642 kHz clock, it achieves SNDR of 52.2 dB in the first step. The SNDR is boosted to 79.8 dB in the second step, and to 96.8 dB in the third step, over a 1 kHz signal band. The power consumption is 35 [micro]W from a 1.5 V power supply. This gives an excellent Schreier FoM of 174.6 dB. Secondly, a multi-step incremental ADC with extended binary counting is proposed. It achieves high accuracy by splitting one conversion cycle into two serial steps. During the first step, the ADC works as a first-order incremental ADC (IADC1). The second step reuses the single integrator and extends the accuracy to 16 bits by a two-capacitor SAR-assisted binary counting technique. For the same accuracy, the conversion cycle is shortened by a factor of more than 28 as compared to the single-step IADC. Fabricated in 0.18-[micro]m CMOS process, the SAR-assisted IADC achieves a peak SNR/SNDR/DR of 97.1/96.6/100.2 dB over a 1.2 kHz bandwidth, while dissipating 33.2 [micro]W from a 1.5 V supply. This gives a Schreier FoM of 175.8 dB and Walden FoM of 0.25 pJ/conv.-step. Finally, the design of a continuous-time [delta sigma] modulator (CTDSM) to be used in an ultrasound beamformer for biomedical imaging is described. To achieve better resolution, the prototype modulator operates at 1.2 GHz. It incorporates a digital excess loop delay (ELD) compensation to replace the active adder in front of the internal quantizer. A digitally controlled reference-switching matrix, combined with the data-weighted averaging (DWA) technique, results in a delay-free feedback path. A multi-bit FIR feedback DAC, along with its compensation path, is used to achieve lower clock jitter sensitivity and better loop filter linearity. The modulator achieves 79.4 dB dynamic range, 77.3 dB SNR and 74.3 dB SNDR over a 15 MHz signal bandwidth. Fabricated in a 65 nm CMOS process, the core modulator occupies an area of only 0.16 mm2 and dissipates 6.96 mW from a 1 V supply. A 58.6 fJ/conversion-step figure of merit was achieved.

A Short History of Circuits and Systems

A Short History of Circuits and Systems
Author: Franco Maloberti
Publisher: CRC Press
Total Pages: 343
Release: 2022-09-01
Genre: Technology & Engineering
ISBN: 1000794350
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After an overview of major scientific discoveries of the 18th and 19th centuries, which created electrical science as we know and understand it and led to its useful applications in energy conversion, transmission, manufacturing industry and communications, this Circuits and Systems History book fills a gap in published literature by providing a record of the many outstanding scientists, mathematicians and engineers who laid the foundations of Circuit Theory and Filter Design from the mid-20th Century. Additionally, the book records the history of the IEEE Circuits and Systems Society from its origins as the small Circuit Theory Group of the Institute of Radio Engineers (IRE), which merged with the American Institute of Electrical Engineers (AIEE) to form IEEE in 1963, to the large and broad-coverage worldwide IEEE Society which it is today.Many authors from many countries contributed to the creation of this book, working to a very tight time-schedule. The result is a substantial contribution to their enthusiasm and expertise which it is hoped that readers will find both interesting and useful. It is sure that in such a book omissions will be found and in the space and time available, much valuable material had to be left out. It is hoped that this book will stimulate an interest in the marvellous heritage and contributions that have come from the many outstanding people who worked in the Circuits and Systems area.

Amplifier and Data Converter Techniques for Low Power Sensor Interfaces

Amplifier and Data Converter Techniques for Low Power Sensor Interfaces
Author: Frank M. Yaul
Publisher:
Total Pages: 157
Release: 2016
Genre:
ISBN:
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Sensor interfaces circuits are integral components of wireless sensor nodes, and improvements to their energy-efficiency help enable long-term medical and industrial monitoring applications. This thesis explores both analog and algorithmic energy-saving techniques in the sensor interface signal chain. First, a data-dependent successive-approximation algorithm is developed and is demonstrated in a low-power analog-to-digital converter (ADC) implementation. When averaged over many samples, the energy per conversion and number of bitcycles per conversion used by this algorithm both scale logarithmically with the activity of the input signal, with each N-bit conversion using between 2 and 2N+1 bitcycles, compared to N for conventional binary SA. This algorithm reduces ADC power consumption when sampling signals with low mean activity, and its effectiveness is demonstrated on an electrocardiogram signal. With a 0.6V supply, the 10-bit ADC test chip has a maximum sample rate of 16 kHz and an effective number of bits (ENOB) of 9.73b. The ADC's Walden Figure of Merit (FoM) ranges from 3.5 to 20 fJ/conversion-step depending on the input signal activity. Second, an ultra-low supply voltage amplifier stage is developed and used to create an energy-efficient low-noise instrumentation amplifier (LNIA). This chopper LNIA uses a 0.2V-supply inverter-based input stage followed by a 0.8V-supply folded-cascode common-source stage. The high input-stage current needed to reduce the input-referred noise is drawn from the 0.2V supply, significantly reducing power consumption. The 0.8V stage provides high gain and signal swing, improving linearity. Biasing and common-mode rejection techniques for the 0.2V-stage are also presented. The analog front-end (AFE) test chip incorporating the chopper LNIA achieves a power-efficiency figure (PEF) of 1.6 with an input noise of 0.94 [mu]VRMS, integrated from 0.5 to 670 Hz. Human biopotential signals are measured using the AFE.

Eshbach's Handbook of Engineering Fundamentals

Eshbach's Handbook of Engineering Fundamentals
Author: Ovid Wallace Eshbach
Publisher:
Total Pages: 1328
Release: 2009-01-27
Genre: Technology & Engineering
ISBN:
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With specialization now the norm in engineering, students preparing for the FE and PE exams and practitioners going outside their specialty need a general reference with material across a number of disciplines. Since 1936, Eshbach's Handbook of Engineering Fundamentals has been the bestselling reference covering the general principles of engineering; today, it's more relevant than ever. For this Fifth Edition, respected author Myer Kutz fully updates and reshapes the text, focusing on the basics, the important formulas, tables, and standards necessary for complete and accurate knowledge across engineering disciplines. With chapters on mathematical principles, physical units and standards as well as the fundamentals of mechanical, aerospace, electrical, chemical, and industrial engineering, this classic reference is more relevant than ever to both practicing engineers and students studying for the FE and PE exams.