Low Power Sensor Readout Circuit Design For Iot Applications

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Low Power Sensor Readout Circuit Design for IoT Applications

Author : Wenda Zhao
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (134 download)

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Book Synopsis Low Power Sensor Readout Circuit Design for IoT Applications by : Wenda Zhao

Download or read book Low Power Sensor Readout Circuit Design for IoT Applications written by Wenda Zhao and published by . This book was released on 2020 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Energy and area-efficient sensor readouts have drawn increasing attention in the integrated circuit design field as the entering of the Internet-of-Things (IoT) era. Small form factor and extended battery life have become critical design targets as important as conventional analog and mixed-signal sensor readout specifications such as noise and dynamic range (DR). Technology advancement has brought extensive benefits to digital circuits, but analog circuits have been facing great design challenges due to the voltage supply and transistor intrinsic gain reduction in advanced processes. This presents a strong need for new design frameworks for sensor readouts that can leverage the properties of CMOS scaling instead of being limited by them. On the other hand, for sensor applications where multiple ADCs are required for multi-channel or parallel signal acquisition, the existence of a large number of ADCs usually causes area and power to grow linearly with the number of ADCs. For those applications, analog compression presents a great potential to become a valuable solution to further improve energy efficiency for sensor readouts on top of the advanced circuit design techniques. To address the challenges brought by the era of IoT, this dissertation explores solutions for IoT sensor readouts from two directions: area-/energy-efficient phase-domain VCO-based sensor readout circuit for single-channel general-purpose sensor interface and compressive sensing (CS) based analog compression scheme and readout circuits for multi-channel sensing scenarios. The first work presents a capacitively-coupled voltage-controlled oscillator (VCO)-based sensor readout featuring a hybrid phase-locked loop (PLL) - [Delta-Sigma] modulator structure. This work aims to propose a solution to the issues of analog sensor readout in advanced processes. It leverages phase-locking and phase-frequency detector (PFD) array to concurrently perform quantization and dynamic element matching (DEM), much reducing hardware/power compared to existing VCO-based readouts' counting scheme. A low-cost in-cell data weighted averaging (DWA) scheme is presented to enable highly linear tri-level digital-to-analog converter (DAC). Fabricated in 40 nm CMOS, the prototype readout achieves 78 dB SNDR in 10 kHz bandwidth, consuming 4.68 μW and 0.025 mm2 active area. With 172 dB Schreier FoM, its efficiency advances state-of-the-art VCO-based readouts by 50 times. The second work presents a 4x compressive CMOS image sensor for always-on operation that achieves an energy efficiency of 51 pJ/pixel, while maintaining high image quality of PSNR > 32dB and SSIM > 0.84. This is enabled by an energy-efficient CS encoder, which replaces a densely populated CS encoding method with a highly sparse pseudo-diagonal one. Since the proposed CS encoder can be implemented with an energy-efficient switched-capacitor matrix multiplier at pixel outputs, data compression is achieved before to pixel digitization, thereby greatly reducing ADC power, data size, and I/O power. The energy efficiency of the image sensor is further improved by incorporating it into dynamic single-slope ADCs. A prototype VGA image sensor consumes only 0.7 mW at 45 fps. The corresponding energy per pixel (51 pJ/pixel) amounts to a 20x improvement over the previous low-energy benchmark on CS image sensors

Low Power Architectures for IoT Applications

Author : Devendra Kumar Sharma
Publisher : Springer Nature
ISBN 13 : 9819906393
Total Pages : 271 pages
Book Rating : 4.8/5 (199 download)

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Book Synopsis Low Power Architectures for IoT Applications by : Devendra Kumar Sharma

Download or read book Low Power Architectures for IoT Applications written by Devendra Kumar Sharma and published by Springer Nature. This book was released on 2023-04-04 with total page 271 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides comprehensive coverage of different aspects of low-power circuit synthesis for IoT applications at various levels of the design hierarchy, starting from the layout level to the system level. For a seamless understanding of the subject, the basics of MOS circuits have been introduced at the transistor, gate and circuit level, followed by various low-power design methodologies, such as supply voltage scaling, switched capacitance minimization techniques, and leakage power minimization approaches. The contents of this book are useful to students, researchers, as well as practicing engineers. Low-power architectures refer to the latest development in computer microchips which are created by integrating hundreds of thousands of transistors on one chip for different IoT applications. Emerging research in this area has the potential to uncover further applications for IoT in addition to system advancements.

Electronic Devices and Circuit Design

Author : Suman Lata Tripathi
Publisher : CRC Press
ISBN 13 : 1000344908
Total Pages : 318 pages
Book Rating : 4.0/5 (3 download)

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Book Synopsis Electronic Devices and Circuit Design by : Suman Lata Tripathi

Download or read book Electronic Devices and Circuit Design written by Suman Lata Tripathi and published by CRC Press. This book was released on 2022-02-03 with total page 318 pages. Available in PDF, EPUB and Kindle. Book excerpt: This new volume offers a broad view of the challenges of electronic devices and circuits for IoT applications. The book presents the basic concepts and fundamentals behind new low power, high-speed efficient devices, circuits, and systems in addition to CMOS. It provides an understanding of new materials to improve device performance with smaller dimensions and lower costs. It also looks at the new methodologies to enhance system performance and provides key parameters for exploring the devices and circuit performance based on smart applications. The chapters delve into myriad aspects of circuit design, including MOSFET structures depending on their low power applications for IoT-enabled systems, advanced sensor design and fabrication using MEMS, indirect bootstrap techniques, efficient CMOS comparators, various encryption-decryption algorithms, IoT video forensics applications, microstrip patch antennas in embedded IoT applications, real-time object detection using sound, IOT and nanotechnologies based wireless sensors, and much more.

IoT and Low-Power Wireless

Author : Christopher Siu
Publisher : CRC Press
ISBN 13 : 1351251643
Total Pages : 443 pages
Book Rating : 4.3/5 (512 download)

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Book Synopsis IoT and Low-Power Wireless by : Christopher Siu

Download or read book IoT and Low-Power Wireless written by Christopher Siu and published by CRC Press. This book was released on 2018-06-14 with total page 443 pages. Available in PDF, EPUB and Kindle. Book excerpt: The book offers unique insight into the modern world of wireless communication that included 5G generation, implementation in Internet of Things (IoT), and emerging biomedical applications. To meet different design requirements, gaining perspective on systems is important. Written by international experts in industry and academia, the intended audience is practicing engineers with some electronics background. It presents the latest research and practices in wireless communication, as industry prepares for the next evolution towards a trillion interconnected devices. The text further explains how modern RF wireless systems may handle such a large number of wireless devices. Covers modern wireless technologies (5G, IoT), and emerging biomedical applications Discusses novel RF systems, CMOS low power circuit implementation, antennae arrays, circuits for medical imaging, and many other emerging technologies in wireless co-space. Written by a mixture of top industrial experts and key academic professors.

Energy-efficient Circuits for IoT Systems

Author : Xiaoyang Wang
Publisher :
ISBN 13 :
Total Pages : 106 pages
Book Rating : 4.:/5 (129 download)

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Book Synopsis Energy-efficient Circuits for IoT Systems by : Xiaoyang Wang

Download or read book Energy-efficient Circuits for IoT Systems written by Xiaoyang Wang and published by . This book was released on 2021 with total page 106 pages. Available in PDF, EPUB and Kindle. Book excerpt: Internet of Things (IoT) has greatly improved our understanding and control of the world. By deploying sensors to the environment, different types of environmental parameters can be sensed and with proper processing of the data, such as artificial intelligence, we can observe and control at both the top-level and detail. However, various IoT applications also pose lots of challenges for the integrated circuit design, especially for the power efficiency, speed and size. Solving these problems are the keys to turn the ideas into real and practical design and improve the user experience. In this dissertation, the circuits and systems design of the IoT sensor is presented and discussed. The power management unit (PMU) is an important block in an IoT sensing system, which determines the maximum performance of the circuit. For lots of applications where it is hard to replace the battery and has limited energy source, the efficiency of the PMU also significantly affects the system lifetime. A fast-response-time, high-power-efficiency and dynamic-range change-pump-based LDO is proposed to solve the trade-off between speed, power consumption and stability. The event-driven mechanism and AC-coupled high-Z feedback loop enable fast detection and response speed with low power. The charge-pump with single power transistor architecture helps the LDO achieve a high dynamic range and low ripple over the entire load range. In addition to the power management unit, the clock generation circuit also significantly affects the system performance and power efficiency. Several techniques are propsed to achieve an energy-efficient fast start-up. With the multi-path feedforward negative resistance boosting and dynamic pulse-width injection technique, the start-up time of different freqency XOs can be greatly reduced without a precise injection oscillator. Last, a battery-powered ion-sensing platform is presented and discussed.

Ultra-Low Power Wireless Sensor Circuits for IOT Applications

Author : Zhongxia Shang
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (136 download)

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Book Synopsis Ultra-Low Power Wireless Sensor Circuits for IOT Applications by : Zhongxia Shang

Download or read book Ultra-Low Power Wireless Sensor Circuits for IOT Applications written by Zhongxia Shang and published by . This book was released on 2020 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Wireless sensors, which are responsible for local data acquisition, processing and communication, play an important role in Internet of Things (IoT) applications. This research focuses on two basic components in wireless sensors, i.e., the low-power frequency tunable wireless receiver and the power management unit (PMU) for autonomous operation. In IoT applications, different sensors may need to operate in different frequency bands in order to meet environment constraints and industrial/medical standards. Thus, it is highly desirable to design a frequency configurable wireless receiver that provides flexibility in operation frequency. A 4-path filter based frequency shift keying (FSK) receiver is proposed to meet such a need, where the carrier frequency can be adjusted without changing the circuit. In addition, the proposed receiver requires no low-noise amplifier (LNA), which boosts the power efficiency. Frequency synthesizer is critical in FSK transceiver as it provides an accurate reference frequency. Based on 4-path mixer, a novel two-step calibration frequency synthesizer structure is proposed for low power consumption and wide locking range. Measurement results show that the proposed receiver achieves an energy per bit as 74pJ/bit with 2.5Mbps data rate and 184W power consumption. Post-layout simulation results show that the proposed frequency synthesizer has a figure of merit (FOM) value as 1.4W/MHz with 220MHz tuning bandwidth and 305W power consumption. Autonomous operation is another requirement for the sensors in many IoT applications, such as wearable sensors. Energy harvester is commonly used for autonomous sensors, where a PMU with low start-up voltage is necessary. To meet such a requirement, a novel controller for PMU is proposed to boost the power efficiency under very low load current. The proposed PMU can be started up with input voltage as low as several tens of millivolts. The novel controller costs little power and the overall efficiency is increased. Also, a hardware efficient maximum power point tracking (MPPT) algorithm which is suitable for energy source with fixed internal resistance is proposed. Measurement results show that the proposed system has a low controller power as 3.6W and the overall conversion efficiency is 83.9%.

Hybrid ADCs, Smart Sensors for the IoT, and Sub-1V & Advanced Node Analog Circuit Design

Author : Pieter Harpe
Publisher : Springer
ISBN 13 : 3319612859
Total Pages : 358 pages
Book Rating : 4.3/5 (196 download)

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Book Synopsis Hybrid ADCs, Smart Sensors for the IoT, and Sub-1V & Advanced Node Analog Circuit Design by : Pieter Harpe

Download or read book Hybrid ADCs, Smart Sensors for the IoT, and Sub-1V & Advanced Node Analog Circuit Design written by Pieter Harpe and published by Springer. This book was released on 2017-09-18 with total page 358 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is based on the 18 tutorials presented during the 26th 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, with specific contributions focusing on hybrid ADCs, smart sensors for the IoT, sub-1V and advanced-node analog circuit design. This book serves as a valuable reference to the state-of-the-art, for anyone involved in analog circuit research and development.

Low-Power Analog Techniques, Sensors for Mobile Devices, and Energy Efficient Amplifiers

Author : Kofi A. A. Makinwa
Publisher : Springer
ISBN 13 : 3319978705
Total Pages : 399 pages
Book Rating : 4.3/5 (199 download)

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Book Synopsis Low-Power Analog Techniques, Sensors for Mobile Devices, and Energy Efficient Amplifiers by : Kofi A. A. Makinwa

Download or read book Low-Power Analog Techniques, Sensors for Mobile Devices, and Energy Efficient Amplifiers written by Kofi A. A. Makinwa and published by Springer. This book was released on 2019-01-28 with total page 399 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is based on the 18 invited tutorials presented during the 27th workshop on Advances in Analog Circuit Design. Expert designers from both industry and academia present readers with information about a variety of topics at the frontiers of analog circuit design, including the design of analog circuits in power-constrained applications, CMOS-compatible sensors for mobile devices and energy-efficient amplifiers and drivers. For anyone involved in the design of analog circuits, this book will serve as a valuable guide to the current state-of-the-art. Provides a state-of-the-art reference in analog circuit design, written by experts from industry and academia; Presents material in a tutorial-based format; Covers the design of analog circuits in power-constrained applications, CMOS-compatible sensors for mobile devices and energy-efficient amplifiers and drivers.

Design and Validation of a Low-Power Integrated Adaptive Readout Circuit for a Flexible OLED-OPD PPG Sensor Patch Towards Accurate Measurement of Bio-Signs

Download Design and Validation of a Low-Power Integrated Adaptive Readout Circuit for a Flexible OLED-OPD PPG Sensor Patch Towards Accurate Measurement of Bio-Signs PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (141 download)

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Book Synopsis Design and Validation of a Low-Power Integrated Adaptive Readout Circuit for a Flexible OLED-OPD PPG Sensor Patch Towards Accurate Measurement of Bio-Signs by :

Download or read book Design and Validation of a Low-Power Integrated Adaptive Readout Circuit for a Flexible OLED-OPD PPG Sensor Patch Towards Accurate Measurement of Bio-Signs written by and published by . This book was released on 2021 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:

The Low Power Interface Circuits for Energy Constrained Sensing Applications

Author : Aili Wang
Publisher :
ISBN 13 :
Total Pages : 123 pages
Book Rating : 4.:/5 (111 download)

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Book Synopsis The Low Power Interface Circuits for Energy Constrained Sensing Applications by : Aili Wang

Download or read book The Low Power Interface Circuits for Energy Constrained Sensing Applications written by Aili Wang and published by . This book was released on 2019 with total page 123 pages. Available in PDF, EPUB and Kindle. Book excerpt: In the emerging applications of the Internet of Things (IoT) -- the vision of ubiquitous and pervasive sensing, collecting, and managing data through various sensors, communication technologies, and data analytic techniques, billions of sensors are attached to different objects. The power consumption of the analog front-end circuits in a sensor system is one of the most stringent requirements. The low-power consumption not only can be environment-friendly but also can benefit the customers economically. This thesis presents a suite of design on the low power interface circuits for the energy-constrained sensing applications. First, an always-on input-biased sub-nanowatt millivolt hysteretic threshold detector for near-zero energy sensing applications is introduced. The threshold detector compares two pA currents generated by current mirrors biased by the mV-range input signal. With the input signal near zero at the standby mode, the threshold detector consumes near-zero energy. Positive feedback is introduced to accelerate the output signal transition and generate the hysteresis to tolerate the noise in the input signal. Designed and fabricated in a standard 65 nm CMOS process, the proposed threshold detector achieved programmable thresholds from 27 to 46.5 mV with energy per switching from 1.9 to 2.4 nJ using four control bits with a 10 Hz input. While the static power consumption is 270 pW measured at the input signal of 0.1 mV with a frequency of 10 Hz. Second, a resistor-based highly-digital temperature sensor with a SAR-quantization embedded differential low-pass filter is presented for integrated SoC thermal detection. It has three unique features: (1) the use of a differential low-pass RC filter (DLPF) for thermal sensing, which reduces the area; (2) SAR-quantization embedded in the DLPF, which reuses the DLPF capacitor for capacitive digital to analog conversion (CDAC), eliminates the CDAC references, and utilizes the full sensing range for quantization; and (3) a highly-digital circuit architecture, which can be easily implemented using a standard digital design flow and migrated to different processes. The temperature sensor was fabricated in a 65nm CMOS technology occupying 8400 [micro]m2 silicon area. It achieves 0.38 °C resolution at room temperature. After a 2-point calibration, the sensor achieves a 3[sigma] inaccuracy of ±1.2 °C from -30 to 100 °C. It consumes 35.3 [micro]W power from a 1.1 V supply. With a 2.5 [micro]W conversion time, the sensor achieves an 88 pJ/Conversion energy efficiency, which yields a 12.7 pJ·K2 resolution figure-of-merit (FoM). Finally, we move on to another interface circuit, analog-to-digital converter (ADC). An energy-efficient, area-compact successive-approximation-register (SAR) ADC based on passive charge sharing is introduced. For each bit decision, a bit reference capacitor with capacitance [Beta] times larger than that of the bit weight capacitor and precharged to the reference level is introduced to replace the precise reference source. Closed-form analytic expressions of ADC transfer functions are derived based on charge conservation and validated by behavioral and schematic simulations. Based on the derived results, and using the bitwise passive charge sharing technique, an 11-bit segmented SAR ADC that comprises a 5-bit coarse ADC and a 12-bit fine ADC has been designed and fabricated in a 65~nm CMOS technology, occupying 0.076 mm2. The fabricated ADC has been measured to achieve a peak SNDR of 60.6 dB and SFDR of 72 dB, and to dissipate 240 [micro]W under 1.2 V supply at 25 MS/s, including 70 [micro]W used by on-chip reference charge reservoir drivers, leading to a Figure of Merit (FoM) of 11.8 fJ/conversion-step at the input frequency of 2.43 MHz.

Enabling the Internet of Things

Author : Massimo Alioto
Publisher : Springer
ISBN 13 : 3319514822
Total Pages : 527 pages
Book Rating : 4.3/5 (195 download)

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Book Synopsis Enabling the Internet of Things by : Massimo Alioto

Download or read book Enabling the Internet of Things written by Massimo Alioto and published by Springer. This book was released on 2017-01-23 with total page 527 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book offers the first comprehensive view on integrated circuit and system design for the Internet of Things (IoT), and in particular for the tiny nodes at its edge. The authors provide a fresh perspective on how the IoT will evolve based on recent and foreseeable trends in the semiconductor industry, highlighting the key challenges, as well as the opportunities for circuit and system innovation to address them. This book describes what the IoT really means from the design point of view, and how the constraints imposed by applications translate into integrated circuit requirements and design guidelines. Chapter contributions equally come from industry and academia. After providing a system perspective on IoT nodes, this book focuses on state-of-the-art design techniques for IoT applications, encompassing the fundamental sub-systems encountered in Systems on Chip for IoT: ultra-low power digital architectures and circuits low- and zero-leakage memories (including emerging technologies) circuits for hardware security and authentication System on Chip design methodologies on-chip power management and energy harvesting ultra-low power analog interfaces and analog-digital conversion short-range radios miniaturized battery technologies packaging and assembly of IoT integrated systems (on silicon and non-silicon substrates). As a common thread, all chapters conclude with a prospective view on the foreseeable evolution of the related technologies for IoT. The concepts developed throughout the book are exemplified by two IoT node system demonstrations from industry. The unique balance between breadth and depth of this book: enables expert readers quickly to develop an understanding of the specific challenges and state-of-the-art solutions for IoT, as well as their evolution in the foreseeable future provides non-experts with a comprehensive introduction to integrated circuit design for IoT, and serves as an excellent starting point for further learning, thanks to the broad coverage of topics and selected references makes it very well suited for practicing engineers and scientists working in the hardware and chip design for IoT, and as textbook for senior undergraduate, graduate and postgraduate students ( familiar with analog and digital circuits).

Low Power Wireless Receivers for IoT Applications with Multi-band Calibration Algorithms

Author : Michael W. Rawlins
Publisher : Springer
ISBN 13 : 9783030707316
Total Pages : 0 pages
Book Rating : 4.7/5 (73 download)

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Book Synopsis Low Power Wireless Receivers for IoT Applications with Multi-band Calibration Algorithms by : Michael W. Rawlins

Download or read book Low Power Wireless Receivers for IoT Applications with Multi-band Calibration Algorithms written by Michael W. Rawlins and published by Springer. This book was released on 2022-04-03 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book guides the reader through the design of circuits and wireless IoT devices deployed in applications demanding low power, small size, and high levels of integration. The design of a sub-1V wireless-LAN receiver is detailed along with associated calibration algorithms. Some of the key circuits detailed include a successive approximation analog-to-digital converter, a rail-to-rail comparator, a digitally programmable CMOS low-noise amplifier, an RF voltage to current converter, and a fifth-order Chebyshev analog programmable filter. Helpful appendices are included teaching operational amplifier design, CMOS and SiGe low-noise amplifier design, impedance matching, noise and distortion analysis. While theory and design equations are presented throughout the book for the various circuit designs, practical implementation and design tradeoffs are emphasized so the reader can immediately apply knowledge gained. Receiver and calibration circuits are designed in a standard CMOS technology using a 900mV power supply. Provides readers with analytical tools and practical help, conveyed in a clear and concise manner, which will assist not only in understanding the material, but also in practical and functional implementation of the concepts demonstrated; Focuses on long range and broad-band IoT applications with a wireless-LAN focus, emphasizing detailed design techniques, helping readers transition from theoretical understanding to practical application; Bridges the gap between system level understanding and practical design implementation, providing readers with tools and techniques which can be applied immediately to their designs; Serves as a handy technical resource for practical design techniques, as well as a quick reference guide for design equations and examples pertinent to realistic applications.

On-Chip Current Sensors for Reliable, Secure, and Low-Power Integrated Circuits

Author : Rodrigo Possamai Bastos
Publisher : Springer
ISBN 13 : 9783030293550
Total Pages : 162 pages
Book Rating : 4.2/5 (935 download)

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Book Synopsis On-Chip Current Sensors for Reliable, Secure, and Low-Power Integrated Circuits by : Rodrigo Possamai Bastos

Download or read book On-Chip Current Sensors for Reliable, Secure, and Low-Power Integrated Circuits written by Rodrigo Possamai Bastos and published by Springer. This book was released on 2020-10-12 with total page 162 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides readers with insight into an alternative approach for enhancing the reliability, security, and low power features of integrated circuit designs, related to transient faults, hardware Trojans, and power consumption. The authors explain how the addition of integrated sensors enables the detection of ionizing particles and how this information can be processed at a high layer. The discussion also includes a variety of applications, such as the detection of hardware Trojans and fault attacks, and how sensors can operate to provide different body bias levels and reduce power costs. Readers can benefit from these sensors-based approaches through designs with fast response time, non-intrusive integration on gate-level and reasonable design costs.

Circuits and Techniques for Power-Efficiency Enhancement of IoT Sensor Nodes

Author : Somok Mondal
Publisher :
ISBN 13 :
Total Pages : 118 pages
Book Rating : 4.:/5 (116 download)

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Book Synopsis Circuits and Techniques for Power-Efficiency Enhancement of IoT Sensor Nodes by : Somok Mondal

Download or read book Circuits and Techniques for Power-Efficiency Enhancement of IoT Sensor Nodes written by Somok Mondal and published by . This book was released on 2020 with total page 118 pages. Available in PDF, EPUB and Kindle. Book excerpt: Advances in semiconductor technology over the last few decades has caused an influx of electronic devices into our daily lives, leading to the emergence of the Internet-of-Things (IoT) era. The IoT is a cluster of many miniaturized devices (also called sensor nodes) that unobtrusively capture data from our lives and surrounding environment to improve our quality of life. The IoT is expected to have a transformative impact on a wide variety of applications ranging from biological sensing such as wearable electrocardiogram-recording (ECG) to track our well-being, to physical sensors for industrial and environmental monitoring, to entertainment and infrastructure related devices, such as audio devices, for smart-homes and smart-cities.-From a circuit design perspective, enabling the IoT requires overcoming an important technological hurdle: maximizing energy efficiency. With many of these nodes requiring uninterrupted seamless operation, a small form-factor, an unobtrusive or remote location, and high longevity, there are severe constraints on the power source (e.g., battery, energy harvester, etc.). Henceforth, enhancing the power efficiency is, by-far, the key challenge to be addressed for the practical deployment of such IoT sensor nodes. Generically speaking, a typical IoT sensor node comprises two basic building blocks: 1) an analog front-end (AFE) with amplifiers and data-converters and, 2) a transmitter for wireless communication. Most AFEs for IoT applications need to amplify/acquire low bandwidth signals while introducing minimal circuit noise. Power efficiency is fundamentally limited by noise for these AFEs. Since many IoT transmitters only need to communicate to a nearby base-station, such as smartphone or smartwatch, the output power Pout delivered to the antenna is often low. Power efficiency is limited by frequency synthesis considerations for these transmitters. In this dissertation, multiple circuits and techniques to enhance the power efficiency of the aforementioned IoT blocks are proposed. These are demonstrated by three prototype chips, namely: 1) an amplifier for implantable ECG recording, 2) a data-convertor for precision audio, and 3) a transmitter for short-range, narrowband communication. The ECG amplifier is intended for implantable recording. There is significant interest in implantable devices, in general, due to their unobtrusive nature, improved environmental artifact tolerance, and that some biological signals can be only be obtained in vivo. However, these are also associated with very stringent power budgets of only a few nanowatts (nWs). An ultra-low power, 13.9 nA ECG amplifier is first described. This work achieves state--of-the-art noise-efficiency and power-efficiency factors of less than unity, which correspond to ~3x improvements over prior sub-100-nW amplifiers. The key enabling idea, also the main contribution of this work, is an operational transconductance amplifier (OTA)-stacking technique that fundamentally improves the noise efficiency of noise limited amplifiers. Next, the OTA-stacking technique was expanded for use in oversampling analog-to-digital converters (ADCs). This ADC is intended for audio devices for entertainment, smart-homes, automobiles, etc. where continuous-time delta-sigma modulators (CT[delta][sigma]Ms) are often the power bottleneck for such devices. These ADCs need high dynamic range (DR), which is challenging with the power constrains associated with portable sensor nodes. Several techniques such as finite impulse response (FIR) feedback, 4-stage feedforward op-amp, tail-less operation, and OTA-stacking were integrated into a 3rd-order CT[delta][sigma]M to achieve near state-of-the-art performance. The ADC achieved >100 dB DR while consuming only 121 [mu]W with a 2.1 dB improvement in the Scherier's Figure of Merit (FoM) due solely to the OTA-stacking. Lastly, a narrowband transmitter is reported for short-range wireless communication (

Analog Circuits for Machine Learning, Current/Voltage/Temperature Sensors, and High-speed Communication

Author : Pieter Harpe
Publisher : Springer Nature
ISBN 13 : 303091741X
Total Pages : 351 pages
Book Rating : 4.0/5 (39 download)

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Book Synopsis Analog Circuits for Machine Learning, Current/Voltage/Temperature Sensors, and High-speed Communication by : Pieter Harpe

Download or read book Analog Circuits for Machine Learning, Current/Voltage/Temperature Sensors, and High-speed Communication written by Pieter Harpe and published by Springer Nature. This book was released on 2022-03-24 with total page 351 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is based on the 18 tutorials presented during the 29th 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, with specific contributions focusing on analog circuits for machine learning, current/voltage/temperature sensors, and high-speed communication via wireless, wireline, or optical links. This book serves as a valuable reference to the state-of-the-art, for anyone involved in analog circuit research and development.

Design of an Integrated Low-power Capaciotive Snesor Readout Circuit

Author : Matthias Blümle
Publisher :
ISBN 13 :
Total Pages : 202 pages
Book Rating : 4.:/5 (315 download)

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Book Synopsis Design of an Integrated Low-power Capaciotive Snesor Readout Circuit by : Matthias Blümle

Download or read book Design of an Integrated Low-power Capaciotive Snesor Readout Circuit written by Matthias Blümle and published by . This book was released on 2006 with total page 202 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Low-power Wearable Healthcare Sensors

Author : R. Simon Sherratt
Publisher : MDPI
ISBN 13 : 3039364790
Total Pages : 146 pages
Book Rating : 4.0/5 (393 download)

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Book Synopsis Low-power Wearable Healthcare Sensors by : R. Simon Sherratt

Download or read book Low-power Wearable Healthcare Sensors written by R. Simon Sherratt and published by MDPI. This book was released on 2020-12-29 with total page 146 pages. Available in PDF, EPUB and Kindle. Book excerpt: Advances in technology have produced a range of on-body sensors and smartwatches that can be used to monitor a wearer’s health with the objective to keep the user healthy. However, the real potential of such devices not only lies in monitoring but also in interactive communication with expert-system-based cloud services to offer personalized and real-time healthcare advice that will enable the user to manage their health and, over time, to reduce expensive hospital admissions. To meet this goal, the research challenges for the next generation of wearable healthcare devices include the need to offer a wide range of sensing, computing, communication, and human–computer interaction methods, all within a tiny device with limited resources and electrical power. This Special Issue presents a collection of six papers on a wide range of research developments that highlight the specific challenges in creating the next generation of low-power wearable healthcare sensors.