2023-08-242023-08-242017Kul, B. ve Şen, M. (2017). ''Energy saving IoT-based advanced load limiter''. 2017 26th International Scientific Conference Electronics, ET, 26th International Scientific Conference on Electronics (ET), 2017, 1-5.978-1-5386-1753-310.1109/ET.2017.8124362http://hdl.handle.net/11452/33592Bu çalışma, 13-15 Eylül 2017 tarihlerinde Sozopol[Bulgaristan]’ da düzenlenen 26. International Scientific Conference on Electronics (ET) Kongresi‘nde bildiri olarak sunulmuştur.A load limiter is particularly needed in places like microgrid business centers because the load limit that the microgrid structure can handle must not be exceeded. This study aimed at keeping load variation under control by planning daytime load distribution using IoT-based energy measurement and central management software. By using IP-based smart meters and control methods to perform energy measurements, all loads on the microgrid can be loaded in a balanced manner from the centralized software. Moreover, load balance across the grid can be protected by shutting off the relevant overcurrent devices. By setting the load limits for certain zones at specific times of the day, both the electrical devices and the microgrid are safeguarded. In heating and cooling applications, when all components on the grid are overloading the microgrid, other electrical appliances are prevented from exceeding the permitted current limits. Thus, installation of the system results in energy saving and reduced costs. Details are shown in this study.eninfo:eu-repo/semantics/closedAccessComputer scienceEngineeringIP-based smart sensorsSmart energyLoad limiterMicrogridSmart gridPowerElectric power measurementElectric power transmission networksEnergy conservationInternet of thingsLoad limitsElectrical appliancesHeating and coolingLoad limitersManagement softwareMicro gridMicrogrid structuresSmart energiesSmart gridSmart power gridsEnergy saving IoT-based advanced load limiterProceedings Paper0004258658000302-s2.0-85043459928152017Computer science, theory & methodsEngineering, electrical & electronicSmart Home; Monitoring; Internet of Things