Valters Skrastiņš, Vladislavs Medvedevs, Dmitrijs Orlovs, Juris Ormanis, Janis Judvaitis. Experimental Evaluation of NB-IoT Power Consumption and Energy Source Feasibility for Long-Term IoT Deployments. IoT (ISSN 2624-831X) , MDPI, 2025.
Bibtex citation:
Bibtex citation:
@article{19871_2025,
author = {Valters Skrastiņš and Vladislavs Medvedevs and Dmitrijs Orlovs and Juris Ormanis and Janis Judvaitis},
title = {Experimental Evaluation of NB-IoT Power Consumption and Energy Source Feasibility for Long-Term IoT Deployments},
journal = {IoT (ISSN 2624-831X) },
publisher = {MDPI},
year = {2025}
}
author = {Valters Skrastiņš and Vladislavs Medvedevs and Dmitrijs Orlovs and Juris Ormanis and Janis Judvaitis},
title = {Experimental Evaluation of NB-IoT Power Consumption and Energy Source Feasibility for Long-Term IoT Deployments},
journal = {IoT (ISSN 2624-831X) },
publisher = {MDPI},
year = {2025}
}
Abstract: Narrowband Internet of Things (NB-IoT) is widely used for connecting low-power devices that must operate for years without maintenance. To design reliable systems, it is essential to understand how much energy these devices consume under different conditions and which power sources can support long lifetimes. This study presents a detailed experimental evaluation of NB-IoT power consumption using a commercial System-on-Module (LMT-SoM). We measured various transmissions across different payload sizes, signal strengths, and temperatures. The results show that sending larger packets is far more efficient: a 1280-byte message requires about 7 times less energy per bit than an 80-byte message. However, standby currents varied widely between devices, from 6.7 µA to 23 µA, which has a major impact on battery life.
Alongside these experiments, we compared different power sources for a 5-year deployment. Alkaline and lithium-thionyl chloride batteries were the most cost-effective solutions for indoor use, while solar panels combined with supercapacitors provided a sustainable option for outdoor applications. These findings offer practical guidance for engineers and researchers to design NB-IoT devices that balance energy efficiency, cost, and sustainability.