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Papers by eduardo Balvis

Research paper thumbnail of An example of company-university cooperation: Mathematical modeling and numerical simulation of heat dissipation in led bulbs

Prácticas formativas en la UPV: objetivo estratégico Elaboración de audioslides para apoyo a la e... more Prácticas formativas en la UPV: objetivo estratégico Elaboración de audioslides para apoyo a la enseñanza en inglés en los grados bilingües Effect of Industry 4.0 on education systems: an outlook Uso de simuladores y herramientas de programación para facilitar la comprensión de la operación de los sistemas eléctricos Aplicación de ejercicios resueltos de ingeniería del terreno con recursos de acceso libre para teléfonos móviles y tabletas electrónicas

Research paper thumbnail of Analysis of a passive heat sink for temperature stabilization of high-power LED bulbs

Journal of Physics: Conference Series, 2015

In this paper we present a numerical analysis and experimental measurements of the temperature st... more In this paper we present a numerical analysis and experimental measurements of the temperature stabilization of high-power LED chips that we have obtained by employing an aluminum passive heat sink, designed to be used in a compact light bulb configuration. We demonstrate that our system keeps the temperature of the LED chip well-below 70 • C yielding long-term operation of the device. Our simulations have been performed for a low-cost device ready to install in public streetlights. The experimental measurements performed in different configurations show a nice agreement with the numerical calculations.

Research paper thumbnail of Temperature stabilization of high-power led chips using low-cost passive heat sinks

Technical Digest of the Eighteenth Microoptics Conference, 2013

We present a numerical analysis and experimental measurements of the temperature stabilization of... more We present a numerical analysis and experimental measurements of the temperature stabilization of high-power LED chips that we have obtained by employing an aluminium passive heat sink, designed to be used in a compact light bulb configuration. We demonstrate that our system keeps the temperature of the LED chip well-below 60°C yielding long-term operation of the device. Our simulations have been performed for a device of low fabrication costs and which enables an easy installation in public streetlights. The experimental measurements performed in different configurations show a nice agreement with the numerical calculations.

Research paper thumbnail of Temperature stabilization of high-power led chips using low-cost passive heat sinks

Technical Digest of the Eighteenth Microoptics Conference, 2013

Research paper thumbnail of Temperature stabilization of high-power led chips using low-cost passive heat sinks

Technical Digest of the Eighteenth Microoptics Conference, 2013

Research paper thumbnail of An example of company-university cooperation: Mathematical modeling and numerical simulation of heat dissipation in led bulbs

Prácticas formativas en la UPV: objetivo estratégico Elaboración de audioslides para apoyo a la e... more Prácticas formativas en la UPV: objetivo estratégico Elaboración de audioslides para apoyo a la enseñanza en inglés en los grados bilingües Effect of Industry 4.0 on education systems: an outlook Uso de simuladores y herramientas de programación para facilitar la comprensión de la operación de los sistemas eléctricos Aplicación de ejercicios resueltos de ingeniería del terreno con recursos de acceso libre para teléfonos móviles y tabletas electrónicas

Research paper thumbnail of Analysis of a passive heat sink for temperature stabilization of high-power LED bulbs

Journal of Physics: Conference Series, 2015

In this paper we present a numerical analysis and experimental measurements of the temperature st... more In this paper we present a numerical analysis and experimental measurements of the temperature stabilization of high-power LED chips that we have obtained by employing an aluminum passive heat sink, designed to be used in a compact light bulb configuration. We demonstrate that our system keeps the temperature of the LED chip well-below 70 • C yielding long-term operation of the device. Our simulations have been performed for a low-cost device ready to install in public streetlights. The experimental measurements performed in different configurations show a nice agreement with the numerical calculations.

Research paper thumbnail of Temperature stabilization of high-power led chips using low-cost passive heat sinks

Technical Digest of the Eighteenth Microoptics Conference, 2013

We present a numerical analysis and experimental measurements of the temperature stabilization of... more We present a numerical analysis and experimental measurements of the temperature stabilization of high-power LED chips that we have obtained by employing an aluminium passive heat sink, designed to be used in a compact light bulb configuration. We demonstrate that our system keeps the temperature of the LED chip well-below 60°C yielding long-term operation of the device. Our simulations have been performed for a device of low fabrication costs and which enables an easy installation in public streetlights. The experimental measurements performed in different configurations show a nice agreement with the numerical calculations.

Research paper thumbnail of Temperature stabilization of high-power led chips using low-cost passive heat sinks

Technical Digest of the Eighteenth Microoptics Conference, 2013

Research paper thumbnail of Temperature stabilization of high-power led chips using low-cost passive heat sinks

Technical Digest of the Eighteenth Microoptics Conference, 2013

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