Energy Harvesting for IoT, Wireless Sensors, Stand-Alone Systems and Electronics

A special issue of Electronics (ISSN 2079-9292). This special issue belongs to the section "Power Electronics".

Deadline for manuscript submissions: 31 December 2024 | Viewed by 5298

Special Issue Editors


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Guest Editor
Department of Industrial Electronics, School of Engineering, University of Minho, 4800-058 Guimaraes, Portugal
Interests: power electronics; power quality; active power filters; renewable energy; energy efficiency; electric vehicles; energy storage systems; battery charging systems; smart grids; smart cities; smart homes; technologies for innovative railway systems
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Guest Editor
Algoritmi Research Centre, Department of Industrial Electronics, University of Minho, 4800-058 Guimarães, Portugal
Interests: power electronics converters; electric mobility; renewable energy sources; digital control techniques; smart grids
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Guest Editor
1. CMEMS—UMinho, University of Minho, 4800-058 Guimarães, Portugal
2. LABBELS—Associate Laboratory, University of Minho, 4710-057 Braga, Portugal
3. Department of Industrial Electronics, University of Minho, Campus of Azurém, 4800-058 Guimarães, Portugal
Interests: internet of things; wireless sensor networks; body sensor network; mobile phone sensing; quality of service; medium access control
Special Issues, Collections and Topics in MDPI journals

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Guest Editor
Department of Electrical Engineering (SEL), São Carlos School of Engineering (EESC), University of São Paulo (USP), São Carlos 13566-590, Brazil
Interests: analog and digital integrated circuits; micromachining and micro/nanofabrication technologies for mixed-mode/RF systems; solid-state integrated sensors; microactuators and microsystems; micro/nanodevices for industrial and biomedical applications; wireless systems for sensors and actuators; optical sensors and actuators; material technology for microsystems; microprocessor/microcomputer-based instrumentation and data-acquisition systems
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

The next generation of battery-operated wireless sensors, wearables and other electronic devices represent suitable candidates for the application of energy harvesting systems. This is because batteries alone may not be sufficient to supply the desired device’s lifetime due to their limited capacity. For example, the capacity of commercial class AA batteries, e.g., the most suitable and readily available for deployment, is limited to only 3000 mAh. Thus, the association of such devices with the use of some kind of energy harvesting system can reveal an interesting approach. Energy harvesters are currently emerging for a number of applications, from biomedical to automotive. Some of the most important known energy sources of interest are thermoelectric (from thermal gradients), photovoltaic (from solar light) and piezoelectric (from mechanical vibrations). Considering that many stand-alone devices are powered on a peak basis, e.g., the active mode for transmission or reception of data requires much more current than standby (sleep) mode, and that the environmental conditions for energy harvesting may not always be present, the collected energy needs to be stored in a small rechargeable battery integrated in the system. Ultra-low-power electronics perform DC–DC conversion with a variable conversion factor and recharge the battery under optimal conditions. All of these issues and applications related to energy harvesting are objects of focus in this Special Issue. Topics of interest include, among others, the following:

  • Materials for energy harvesting;
  • Mechanical energy harvesting;
  • Thermoelectric energy harvesting;
  • Electromagnetic energy harvesting;
  • Energy harvesting for wearables;
  • Energy harvesting for stand-alone systems;
  • Microsystems for energy harvesting;
  • Energy harvesting for microsystems;
  • Energy harvesting for IoT devices;
  • Energy harvesting for wireless networks;
  • Power management for energy harvesting systems;
  • Electronics for energy harvesting systems;
  • Self-powered sensors;
  • Applications of energy harvesting;
  • Communication protocols for energy harvesting systems;
  • Power converters for energy harvesting systems.

Dr. Joao L. Afonso
Dr. Vítor Monteiro
Dr. José A. Afonso
Dr. João Paulo Pereira do Carmo
Guest Editors

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Keywords

  • power converters for energy harvesting systems
  • electromagnetic energy harvesting
  • energy harvesting for microsystems
  • mechanical energy harvesting
  • power management for energy harvesting systems
  • electronics for energy harvesting systems

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Published Papers (2 papers)

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Research

29 pages, 26306 KiB  
Article
Efficiency Measurements of Energy Harvesting from Electromagnetic Environment for Selected General Purpose Telecommunication Systems
by Kazimierz Kamuda, Dariusz Klepacki, Wiesław Sabat, Kazimierz Kuryło, Mariusz Skoczylas and Piotr Jankowski-Mihułowicz
Electronics 2024, 13(16), 3111; https://doi.org/10.3390/electronics13163111 - 6 Aug 2024
Viewed by 952
Abstract
The results of measurements of the efficiency of energy harvesting from commonly available general-purpose telecommunications systems, divided into typical bands available under European conditions, have been presented in this paper. Specially designed harvesters were used, dedicated to powering autonomous semi-passive Radio Frequency Identification [...] Read more.
The results of measurements of the efficiency of energy harvesting from commonly available general-purpose telecommunications systems, divided into typical bands available under European conditions, have been presented in this paper. Specially designed harvesters were used, dedicated to powering autonomous semi-passive Radio Frequency Identification (RFID) tags. For the assumed resistive loads, the achievable output voltage values of the harvesters were measured across a wide spectrum of electromagnetic field strengths, simulating real conditions. The performance and dynamics of the energy storage process with fixed parameters were studied at an intermediate stage, before the energy conditioning process. The harvesters were treated as typical energy sources with unknown but variable parameters, so their dynamic parameters and instantaneous energy supply were also analyzed. These activities will enable the final development of a power supply system with parameters acceptable for the planned applications and whose efficiency will be maximized under the given conditions. For this purpose, the energy harvesting systems were designed, a suitable laboratory stand was built, and the elaborated circuits were measured to determine the expected parameters of energy harvesting. Full article
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16 pages, 3870 KiB  
Article
Self-Powered System Development with Organic Photovoltaic (OPV) for Energy Harvesting from Indoor Lighting
by Eder Andrade da Silva, Werner Moreira Chaves Filho, Marco Roberto Cavallari and Oswaldo Hideo Ando Junior
Electronics 2024, 13(13), 2518; https://doi.org/10.3390/electronics13132518 - 27 Jun 2024
Cited by 1 | Viewed by 866
Abstract
The increase in demand for electricity due to industrial development and the growing use of electronic equipment has led to the need for new alternative energy sources, such as photovoltaic solar energy conversion. In this context, organic photovoltaic (OPV) stands out as an [...] Read more.
The increase in demand for electricity due to industrial development and the growing use of electronic equipment has led to the need for new alternative energy sources, such as photovoltaic solar energy conversion. In this context, organic photovoltaic (OPV) stands out as an efficient way of generating energy indoors. An electrical power supply system (EPS) was developed to power a commercial electronic lock, using OPV as the energy source. The system was designed with a charging control to match the panel voltage to a supercapacitor charge accumulator and a boost converter. Tests on the bench and in a real scenario demonstrated the viability and effectiveness of the system, showing that it is capable of operating self-sufficiently with a minimum daily illuminance of 250 lux for 12 h. The results indicate that the system can be applied to various loads with low energy consumption, promoting energy efficiency in different contexts. Full article
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