34 resultados para ARRAY ELECTRODES
Resumo:
Este trabajo fin de grado versa sobre el diseño y simulación del elemento radiante de una antena impresa con polarización circular, operativa en la banda Ka de frecuencias (18 – 31 GHz) para un sistema de comunicaciones entre aviones y satélites. Su principal característica es que la antena está formada por placas de circuito impreso apiladas. En las placas superiores se sitúan los elementos radiantes, mientras que en las capas internas se diseñan las líneas de transmisión, que forman la alimentación del array. Como elementos radiantes se ha recurrido a la tecnología de parches apilados, para conseguir un ancho de banda relativamente alto en una estructura multicapa de dieléctricos plásticos. Para excitarlos se han desarrollado dos tipos de red de alimentación, para comprobar con cuál se obtiene una mejor respuesta. Los tipos que se usan son: mediante sonda coaxial y por línea de transmisión, concretamente stripline. Respecto a la polarización circular del elemento (en tecnología stripline), se desarrolla una red de polarización haciendo uso de una doble alimentación y un híbrido 90º. Entre los elementos de este tipo de estructuras se produce un fuerte acoplo. Para reducir el efecto de este acoplo, se realiza un análisis optimizando el diseño
Resumo:
A novel tunable liquid crystal microaxicon array is proposed and experimentally demonstrated. The proposed structure is capable of generating tunable axicons (thousands of elements) of micrometric size, with simple control (four control voltages) and low voltage, and is totally reconfigurable. Depending on the applied voltages, control over the diameter, as well as the effective wedge angle, can be achieved. Controls over the diameter ranging from 107 to 77 μm have been demonstrated. In addition, a control over the phase profile tunability, from 12π to 24π radians, has been demonstrated. This result modifies the effective cone angle. The diameter tunability, as well the effective cone angle, results in a control over the nondiffractive Bessel beam distance. The RMS wavefront deviation from the ideal axicon is only λ∕3. The proposed device has several advantages over the existing microaxicon arrays, including being simple having a low cost. The device could contribute to developing new applications and to reducing the fabrication costs of current devices.
Resumo:
This paper presents the impact of non-homogeneous deposits of dust on the performance of a PV array. The observations have been made in a 2-MW PV park in the southeast region of Spain. The results are that inhomogeneous dust leads to more significant consequences than the mere short-circuit current reduction resulting from transmittance losses. In particular, when the affected PV modules are part of a string together with other cleaned (or less dusty) ones, operation voltage losses arise. These voltage losses can be several times larger than the short-circuit ones, leading to power losses that can be much larger than what measurements suggest when the PV modules are considered separately. Significant hot-spot phenomena can also arise leading to cells exhibiting temperature differences of more than 20 degrees and thus representing a threat to the PV modules' lifetime.
Resumo:
Platinum is the most used catalyst in electrodes for fuel cells due to its high catalytic activity. Polymer electrolyte and direct methanol fuel cells usually include Pt as catalyst in their electrodes. In order to diminish the cost of such electrodes, different Pt deposition methods that permit lowering the metal load whilst maintaining their electroactivity, are being investigated. In this work, the behaviour of electron beam Pt (e-beam Pt) deposited electrodes for fuel cells is studied. Three different Pt loadings have been investigated. The electrochemical behaviour by cyclic voltammetry in H2SO4, HClO4 and in HClO4+MeOH before and after the Pt deposition on carbon cloth has been analysed. The Pt improves the electrochemical properties of the carbon support used. The electrochemical performance of e-beam Pt deposited electrodes was finally studied in a single direct methanol fuel cell (DMFC) and the obtained results indicate that this is a promising and adequate method to prepare fuel cell electrodes.