Álvaro Gómez-Pau scite author profile

Visual corona tests have been broadly applied for identifying the critical corona points of diverse high-voltage devices, although other approaches based on partial discharge or radio interference voltage measurements are also widely applied to detect corona activity. Nevertheless, these two techniques must be applied in screened laboratories, which are scarce and expensive, require sophisticated instrumentation, and typically do not allow location of the discharge points. This paper describes the detection of the visual corona and location of the critical corona points of a sphere-plane gap configurations under different pressure conditions ranging from 100 to 20 kPa, covering the pressures typically found in aeronautic environments. The corona detection is made with a low-cost CMOS imaging sensor from both the visible and ultraviolet (UV) spectrum, which allows detection of the discharge points and their locations, thus significantly reducing the complexity and costs of the instrumentation required while preserving the sensitivity and accuracy of the measurements. The approach proposed in this paper can be applied in aerospace applications to prevent the arc tracking phenomenon, which can lead to catastrophic consequences since there is not a clear protection solution, due to the low levels of leakage current involved in the pre-arc phenomenon.

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Arc Tracking Control in Insulation Systems for Aeronautic Applications: Challenges, Opportunities, and Research Needs

Riba

Gómez-Pau

Moreno-Eguilaz

et al. 2020

Sensors

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Next generation aircrafts will use more electrical power to reduce weight, fuel consumption, system complexity and greenhouse gas emissions. However, new failure modes and challenges arise related to the required voltage increase and consequent rise of electrical stress on wiring insulation materials, thus increasing the risk of electrical arc appearance. This work performs a critical and comprehensive review concerning arc tracking effects in wiring insulation systems, underlying mechanisms, role of materials and possible mitigation strategies, with a special focus on aircraft applications. To this end an evaluation of the scientific and technological state of the art is carried out from the analysis of theses, research articles, technical reports, international standards and white papers. This review paper also reports the limitations of existing insulation materials, standard test methods and mitigation approaches, while identifying the research needs to comply with the future demands of the aircraft industry.

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Collaborative Robotics Projects for Adolescents with Autism Spectrum Disorders

Yuen

Mason

Gómez-Pau

2014

J Spec Educ Technol

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This study examines the levels of social interaction of students with high-functioning autism spectrum disorders during collaborative robotics projects. An alternating treatments design was used to observe the duration of social interaction of two middle school children with autism spectrum disorders across robotics and nonrobotics instruction as well as structured versus nonstructured activities. Results show that both participants with autism spectrum disorders engaged in higher levels of social interaction during robotics instruction when compared with nonrobotics instruction sessions. However, one participant displayed significantly higher levels of social interaction during nonstructured activities, indicating that the instructional setting may serve as a conditioned punisher for the student's social interactions.

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Sensor Comparison for Corona Discharge Detection Under Low Pressure Conditions

2020

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Low pressure environments, situate insulation systems in a challenging position since partial discharges (PDs), corona and arc tracking are more likely to develop. Therefore, specific solutions are required to detect such harmful phenomena before major failure occurrence. This paper deals with three low-cost and small-size sensing methods, i.e., a single loop antenna, a visible-UV imaging sensor and the measurement of the leakage current to detect corona in the early stage, thus anticipating the appearance of severer effects such as arc tracking or disruptive breakdown. The three studied methods can be applied for an on-line monitoring of corona activity under low pressure environments, thus being compatible with predictive maintenance approaches. This on-line monitoring can be used to develop improved electrical protection devices able to detect such effects in an initial stage, thus improving current solutions which are unable to do so. All three studied sensors give consistent linear responses within the studied pressure range, i.e., 10-100 kPa, with almost no drift. The sensitivity of the visible-UV imaging sensor is slightly lower than that of the others, but it has the advantage of directly locating the discharge points. Results presented in this paper can be very useful for the more electrical aircraft (MEA), which is forcing electrical distribution systems to operate at higher voltage levels. Due to the little experience and scarcity of published data, the experimental results presented in this paper can be valuable for a better understanding of the combined action of high voltage and low pressure environments.

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M-S test based on specification validation using octrees in the measure space

Gómez-Pau

Balado

Figueras

2013

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Testing M-S circuits is a difficult task demanding high amount of resources. To overcome these drawbacks, indirect\ud testing methods have been adopted as an efficient solution to perform specification based tests using easy to measure metrics.\ud In this work, a testing technique using octrees in the measure space is presented. Octrees have been used in computer graphics\ud with successful results for rendering, image processing and space clustering applications. In this paper are used to encode the test acceptance region with arbitrary precision after an statistical\ud training phase. Such representation allows an efficient way to test a candidate circuit in terms of test application time. The method\ud is applied to test a Biquad filter with encouraging results. Test escapes and test yield loss caused by parametric variations have been estimated.Postprint (published version

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