The development of IoT instrumentation will always be strongly influenced by the properties of the power supply system. A large number of IoT nodes creates a danger of extra expenditures when changing the battery. For this reason, the development of supply nodes tends to prefer systems capable of battery-less operation, obtaining energy from other sources. This article deals with an alternative method of electrical energy acquisition form the excessive heat appearing in LED lighting fixtures utilizing large-area LED chips. A Peltier cell was used for the conversion of heat energy to electrical energy, connected as thermo-electric generator into the thermal chain
Traditional light bulbs (e.g. Incandescent, Fluorescent) use too much electricity, convert very litt...
International audienceLight Emitting Diodes emits no IR and no UV and their spectrum is fully in the...
The article describes the possibilities of using Peltier cells as an energy source to power the tele...
Vývoj IoT zařízení bude vždy silně ovlivněn možnostmi napájení systému. Značný počet uzlů IoT (node)...
Internet of Things (IoT) is becoming the new driver for semiconductor industry and the largest elect...
This paper demonstrates the concept of node consumption reduction for IoT applications. The main emp...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Aim of this paper is to illustrate and describe the trend of last technological innovations and new ...
The article compares the effect of high ambient temperatures on LED retrofits. The nine measured sam...
The conversion of heat into electricity through the thermoelectric effect and light into electricit...
LEDs are widely used light sources. Their main advantages are low power consumption, mechanical stre...
Thermoelectric generators (TEGs) convert a temperature difference into useful direct current (DC) po...
PT. Pertamina Geothermal Energy Area Lumut Balai has a very extreme work location with various conto...
In accordance with the invention, an LED packaged for high temperature operation comprises a metal b...
AbstractThis article is devoted to the use of low – voltage supply in the “Smart house” lighting sys...
Traditional light bulbs (e.g. Incandescent, Fluorescent) use too much electricity, convert very litt...
International audienceLight Emitting Diodes emits no IR and no UV and their spectrum is fully in the...
The article describes the possibilities of using Peltier cells as an energy source to power the tele...
Vývoj IoT zařízení bude vždy silně ovlivněn možnostmi napájení systému. Značný počet uzlů IoT (node)...
Internet of Things (IoT) is becoming the new driver for semiconductor industry and the largest elect...
This paper demonstrates the concept of node consumption reduction for IoT applications. The main emp...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Aim of this paper is to illustrate and describe the trend of last technological innovations and new ...
The article compares the effect of high ambient temperatures on LED retrofits. The nine measured sam...
The conversion of heat into electricity through the thermoelectric effect and light into electricit...
LEDs are widely used light sources. Their main advantages are low power consumption, mechanical stre...
Thermoelectric generators (TEGs) convert a temperature difference into useful direct current (DC) po...
PT. Pertamina Geothermal Energy Area Lumut Balai has a very extreme work location with various conto...
In accordance with the invention, an LED packaged for high temperature operation comprises a metal b...
AbstractThis article is devoted to the use of low – voltage supply in the “Smart house” lighting sys...
Traditional light bulbs (e.g. Incandescent, Fluorescent) use too much electricity, convert very litt...
International audienceLight Emitting Diodes emits no IR and no UV and their spectrum is fully in the...
The article describes the possibilities of using Peltier cells as an energy source to power the tele...