A Top-Down Approach to Building Battery-Less Self-Powered Systems for the Internet-of-Things

Yahya, Farah B.; Lukas, Christopher J.; Calhoun, Benton H.

doi:10.3390/jlpea8020021

Cited by 14 publications

(7 citation statements)

References 19 publications

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Section: Literature Reviewmentioning

confidence: 99%

“…The full digitalization of production processes is a very important part of the Industry 4.0 concept to improve the efficiency of manufacturing in small-and medium-sized enterprises (SMEs). Appropriate technologies must be used for rapid digitization, data transfer [23], data storage, and, ultimately, for data mining [24]. Industry 4.0 will evolve the industrial manufacturing process and product quality optimization from the previous judgment based on experience and observation to a complete intelligent system based on facts (data and events), which analyzes data to explore potential values [25].…”

Section: Smart Manufacturingmentioning

confidence: 99%

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Internet of Things: Development Intelligent Programmable IoT Controller for Emerging Industry Applications

Chen

Tang

et al. 2022

Sensors

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The Internet of Things (IoT) has become critical to the implementation of Industry 4.0. The successful operation of smart manufacturing depends on the ability to connect everything together. In this research, we applied the TOC (Theory of Constraints) to develop a wireless Wi-Fi intelligent programmable IoT controller that can be connected to and easily control PLCs. By applying the TOC-focused thinking steps to break through their original limitations, the development process guides the user to use the powerful and simple flow language process control syntax to efficiently connect to PLCs and realize the full range of IoT applications. Finally, this research uses oil–water mixer equipment as the target of continuous improvement and verification. The verification results meet the requirements of the default function. The IoT controller developed in this research uses a marine boiler to illustrate the application. The successful development of flow control language by TOC in this research will enable academic research on PLC-derivative applications. The results of this research will help more SMEs to move into smart manufacturing and the new realm of Industry 4.0.

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Section: Literature Reviewmentioning

confidence: 99%

Section: Smart Manufacturingmentioning

confidence: 99%

Internet of Things: Development Intelligent Programmable IoT Controller for Emerging Industry Applications

Chen

Tang

et al. 2022

Sensors

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“…Analogous to off-grid residential power, self-powering may be achieved in cases where the energy source has a temporal profile that matches use. Top-down system design can provide the most efficient energy/power use through considering primary aspects of the sensing interface, the sensing rate, and the sampling scheme (Yahya et al, 2018), including an overall energy-neutral scheme for the network (Hassan et al, 2019).…”

Section: Power Handling Storage and Application Specificationsmentioning

confidence: 99%

Energy Harvesting in Nanosystems: Powering the Next Generation of the Internet of Things

Phillips

2021

Front. Nanotechnol.

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Untethered, wirelessly interconnected devices are becoming pervasive in today’s society forming the Internet of Things. These autonomous devices and systems continue to scale to reduced dimensions at the millimeter scale and below, presenting major challenges to how we provide power to these devices. This article surveys existing approaches to harvest energy from the ambient or externally supplied sources including radio-frequency, optical, mechanical, thermal, nuclear, chemical, and biological modalities to provide electrical power for micro- and nano-systems. The outlook for scaling these energy conversion approaches to small dimensions is discussed in the context of both existing technologies and possible future nanoscience developments.

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“…With recent advances in System-on-Chip (SoC) architecture in the context of Internet-of-Things (IoT) devices, a need for autonomous devices that can be powered by harvesting the energy from outside sources has arisen [1]. One possibility is to use the query signal as the power source, such as in Ultra-High-Frequency Radio Frequency Identification (UHF-RFID).…”

Section: Introductionmentioning

confidence: 99%

A Nano-Power 0.5 V Event-Driven Digital-LDO with Fast Start-Up Burst Oscillator for SoC-IoT

Konstantopoulos

Ussmueller

2020

JLPEA

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Towards the integration of Digital-LDO regulators in the ultra-low-power System-On-Chip Internet-of-Things architecture, the D-LDO architecture should constitute the main regulator for powering digital and mixed-signal loads including the SoC system clock. Such an implementation requires an in-regulator clock generation unit that provides an autonomous D-LDO design. In contrast to contemporary D-LDO designs that employ ring-oscillator architecture which start-up time is dependent on the oscillating frequency, this work presents a design with nano-power consumption, fabricated with an active area of 0.035 mm2 at a 55-nm Global Foundries CMOS process that introduces a fast start-up burst oscillator based on a high-gain stage with wake-up time independent of D-LDO frequency. In combination with linear search coarse regulation and asynchronous fine regulation, it succeeds 558 nA minimum quiescent current with CL 75 pF, maximum current efficiency of 99.2% and 1.16x power efficiency improvement compared to analog counterpart oriented to SoC-IoT loads.

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A Top-Down Approach to Building Battery-Less Self-Powered Systems for the Internet-of-Things

Cited by 14 publications

References 19 publications

Internet of Things: Development Intelligent Programmable IoT Controller for Emerging Industry Applications

Internet of Things: Development Intelligent Programmable IoT Controller for Emerging Industry Applications

Energy Harvesting in Nanosystems: Powering the Next Generation of the Internet of Things

A Nano-Power 0.5 V Event-Driven Digital-LDO with Fast Start-Up Burst Oscillator for SoC-IoT

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