Evaluación de las competencias adquiridas para la mejora de la inserción laboral de los egresados en Comercio y Turismo

La Memoria de seguimiento se basa en analizar desde un punto de vista cualitativo el desarrollo efectivo de la implantación y de los niveles de calidad alcanzados en el título oficial objeto de seguimiento. La detección de las posibles deficiencias en el desarrollo efectivo de las enseñanzas y el planteamiento de las acciones necesarias para su subsanación es uno de los objetivos de seguimiento de la Memoria de Calidad y es la clave de nuestro proyecto, es decir, nos hemos de centrar en la evaluación de las competencias de los títulos desde un doble punto de vista. 1. En función del perfil del profesional que en los grados en Comercio y Turismo se quieren formar, se establecen una serie de objetivos y competencias. Para cumplir con estas competencias, se definen las estrategias del sistema de enseñanza-aprendizaje en cada una de las materias y asignaturas. El alumno que supera con éxito las diferentes asignaturas, en principio, debería haber adquirido las competencias correspondientes. 2. El graduado en Comercio y Turismo, que ya ha adquirido dichas competencias, debe estar capacitado para ser profesionales en las diferentes áreas tanto en Comercio y Turismo. Lo que se pretende con este proyecto es analizar si los alumnos que superan las materias y asignaturas, han adquirido las competencias y analizar el impacto que ello supone con el grado de empleabilidad y la satisfacción de los graduados en la inserción laboral. Se hace fundamental indagar sobre el concepto de la competencia como el conjunto de conocimientos, habilidades y actitudes que se tienen que integrar para hacer una tarea específica y de esta forma, mejorar la empleabilidad en el futuro de los estudiantes

System level serial powering studies of RD53A chip

Serial powering is the baseline choice for low mass power distribution for the CMS and ATLAS HL-LHC pixel detectors. The RD53A prototype chip (65 nm CMOS) integrates 2 shunt-LDO (SLDO) regulators that allow providing constant voltage to each power domain (analog and digital) within a serial power chain with constant current. This paper presents a detailed analysis based on simulations and measurements of the RD53A chip behavior at system level. SLDO performance and system transient behavior (start-up, load changes, parasitic components implications)

Characterization and verification of the Shunt-LDO regulator and its protection circuits for serial powering of the ATLAS and CMS pixel detectors

The Shunt-LDO regulator has been integrated in the ATLAS and the CMS pixel detector RD53 front-end chip to implement the serial powering scheme which both experiments have chosen as the baseline option for the HL-LHC upgrade. The performance of the integrated regulators has been characterized and specific design challenges have been identified which are related to layout parasitics and shallow trench isolation (STI) stress effects. In addition the functionality of circuits which address crucial system level aspects like the protection against overvoltage/overload has been verified

RD53A chip susceptibility to electromagnetic conducted noise

The RD53A read-out chip (65 nm CMOS) is a large-scale demonstrator for ATLAS and CMS phase 2 pixel upgrades. It is one of the key elements of the serial powering scheme for the next generation of pixel detectors. The susceptibility of the RD53A chip with respect to external EM noise has an impact on the integration strategies (grounding and shielding schemes) and operating conditions of future Pixel detectors. This paper presents a detailed analysis of the RD53A chip susceptibility to RF conducted disturbances in order to understand and address noise issues of RD53A Chip before the pixel upgrade installation

Serial powering optimization for CMS and ATLAS pixel detectors within RD53 collaboration for HL-LHC: system level simulations and testing

Serial powering is the baseline choice for low mass power distribution for the CMS and ATLAS HL-LHC pixel detectors. Two 2.0 A Shunt-LDO regulators are integrated in a prototype pixel chip implemented in 65-nm CMOS technology and used to provide constant supply voltages to its power domains from a constant input current. Performance results from testing prototype Shunt-LDO regulators are shown, including their behaviour after x-ray irradiation. The system level simulation studies, which had been performed with a detailed regulator design in a serially powered topology, have been validated

Stabilization and Protection of the Shunt-LDO regulator for the HL-LHC pixel detector upgrades

Serial powering is the baseline option for the pixel detectors in both the ATLAS and the CMS experiments targeting the phase II HL-LHC upgrade. The Shunt-LDO regulator is integrated in the front-end chips to generate the required supply voltages. A new compensation scheme has been developed to assure stable operation with large on-chip low-ESR (equivalent series resistance) load capacitances. A two-stage bandgap voltage reference circuit has been implemented to improve regulation performance. Security features have been added to protect against overvoltage and overload. Additional features have been added to allow regulator operation with small supply currents during the installation phase

3D Electrophoresis-assisted lithography (3DEAL): 3D molecular printing to create functional patterns and anisotropic hydrogels

The ability to easily generate anisotropic hydrogel environments made from functional molecules with microscale resolution is an exciting possibility for the biomaterials community. This study reports a novel 3D electrophoresis‐assisted lithography (3DEAL) platform that combines elements from proteomics, biotechnology, and microfabrication to print well‐defined 3D molecular patterns within hydrogels. The potential of the 3DEAL platform is assessed by patterning immunoglobulin G, fibronectin, and elastin within nine widely used hydrogels and characterizing pattern depth, resolution, and aspect ratio. Furthermore, the technique's versatility is demonstrated by fabricating complex patterns including parallel and perpendicular columns, curved lines, gradients of molecular composition, and patterns of multiple proteins ranging from tens of micrometers to centimeters in size and depth. The functionality of the printed molecules is assessed by culturing NIH‐3T3 cells on a fibronectin‐patterned polyacrylamide‐collagen hydrogel and selectively supporting cell growth. 3DEAL is a simple, accessible, and versatile hydrogel‐patterning platform based on controlled molecular printing that may enable the development of tunable, chemically anisotropic, and hierarchical 3D environments