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High-efficient energy harvesting architecture for self-powered thermal-monitoring wireless sensor node based on a single thermoelectric generator

Albert Álvarez-Carulla, A. Saiz-Vela, M. Puig-Vidal, J. López-Sánchez, Jordi Colomer‐Farrarons, Pere Ll. Miribel‐Català

2023Scientific Reports22 citationsDOIOpen Access PDF

Abstract

In recent years, research on transducers and system architectures for self-powered devices has gained attention for their direct impact on the Internet of Things in terms of cost, power consumption, and environmental impact. The concept of a wireless sensor node that uses a single thermoelectric generator as a power source and as a temperature gradient sensor in an efficient and controlled manner is investigated. The purpose of the device is to collect temperature gradient data in data centres to enable the application of thermal-aware server load management algorithms. By using a maximum power point tracking algorithm, the operating point of the thermoelectric generator is kept under control while using its power-temperature transfer function to measure the temperature gradient. In this way, a more accurate measurement of the temperature gradient is achieved while harvesting energy with maximum efficiency. The results show the operation of the system through its different phases as well as demonstrate its ability to efficiently harvest energy from a temperature gradient while measuring it. With this system architecture, temperature gradients can be measured with a maximum error of 0.14 [Formula: see text]C and an efficiency of over 92% for values above 13 [Formula: see text]C and a single transducer.

Topics & Concepts

Energy harvestingThermoelectric generatorComputer scienceNode (physics)Temperature gradientWireless sensor networkSeebeck coefficientSensor nodeTransducerPower (physics)Thermoelectric effectGenerator (circuit theory)Temperature controlEfficient energy useMaximum power principleWirelessElectrical engineeringReal-time computingMechanical engineeringKey distribution in wireless sensor networksTelecommunicationsWireless networkPhotovoltaic systemAcousticsPhysicsComputer networkEngineeringQuantum mechanicsThermodynamicsAdvanced Thermoelectric Materials and DevicesEnergy Harvesting in Wireless NetworksInnovative Energy Harvesting Technologies
High-efficient energy harvesting architecture for self-powered thermal-monitoring wireless sensor node based on a single thermoelectric generator | Litcius