Search results for "dance"

showing 10 items of 2075 documents

Hold design supports learning and transfer of climbing fluency

2014

Being a discipline with a broad range of genres, rock climbing is an activity where participants seek to generalize the skills they learn in different performance contexts. A training strategy for achieving skill transfer was explored in a group of experienced climbers. Specifically, we tested the effect of practising on three routes, each of the same difficulty, but where handholds supported opportunities for using either a single technical action or multiple actions. Transfer of climbing fluidity in terms of the geometric index of entropy (GIE) of the hip trajectory was then assessed. We expected that learning would be induced on the route where multiple actions were usable. Results revea…

EngineeringPhysical Therapy Sports Therapy and RehabilitationHuman Factors and Ergonomicsclimbing affordancesUSable050105 experimental psychologyLearning effectSkill transfermetastability03 medical and health sciencesFluency0302 clinical medicineskill transfer0501 psychology and cognitive sciencesOrthopedics and Sports Medicineta315Engineering (miscellaneous)business.industry05 social sciences030229 sport sciencesClimbingArtificial intelligencebusinessMotor learningentropymotor learningCognitive psychologySports Technology
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Reconfigurable dualband antenna module with integrated high voltage charge pump and digital analog converter

2014

Integration of a reconfigurable antenna module for handheld applications employing a set of novel technologies is demonstrated. A low profile dualband hybrid dielectric resonator antenna (DRA) based on glass-ceramics and a tunable matching network (TMN) based on ferroelectric varactors with a maximum biasing of 90V form a reconfigurable antenna module. The control of the antenna module is performed by a 120V CMOS high voltage (HV) charge pump with an 8-bit digital analog (D/A) converter generated from a 3.7V battery. Adaptive impedance matching at the lower band of 1.9 GHz is carried out by the TMN when the dualband antenna is exposed to different operation scenarios. Meanwhile, the upper b…

EngineeringReconfigurable antennaDielectric resonator antennaDirectional antennabusiness.industryElectrical engineeringImpedance matchingSlot antennalaw.inventionCMOSlawCharge pumpAntenna (radio)businessThe 8th European Conference on Antennas and Propagation (EuCAP 2014)
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Synergistic Use of Electrochemical Impedance Spectroscopy and Photoelectrochemical Measurements for Studying Solid State Properties of Anodic HfO2

2017

Within the past years, intense research has been carried out on HfO2 as high k material, promising candidate to replace SiO2 as gate dielectric in CMOS based devices (1), and as metal oxide for resistive random access memory (ReRAM) (2). For both technological applications compact, uniform and flat oxides are necessary, and a detailed understanding of their physical properties as a function of the fabrication conditions is strongly. Hafnia performance can be significantly influenced by carrier trapping taking place at pre-existing precursors states (induced by oxygen vacancies, interstitial ions, impurities acting as dopants), or by self-trapping in a perfect lattice, where the potential we…

EngineeringSettore ING-IND/23 - Chimica Fisica Applicataanodizing HfO2 CMOS ReRAM Electrochemical Impedance Spectroscopy Photoelectrochemical Measurements Solid State Propertiesbusiness.industrySolid-stateAnodizing Hafnium oxide Nb doped HfO2 Electrochemical Impedance Spectroscopy Photocurrent Spectroscopy Solid State Properties CMOS ReRAMNanotechnologybusinessAnodeDielectric spectroscopy
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A PC-based low cost impedance and gain-phase analyzer

2008

Abstract In this paper, we present a practical and inexpensive impedance/gain-phase analyzer (IGPA), which is very useful in the design of electronic circuits. This instrument allows the Bode diagram of any network or electronic circuit with an input and an output to be obtained, even though this implementation was not previously known. It can also obtain the module and phase diagrams of any impedance separately. The device under test (DUT) is connected to a personal computer (PC) via the parallel port by means of an electronic circuit implemented for this purpose. The results are shown on the screen of the PC and can be accessible for use in any further operation. The instrument operates i…

EngineeringSpectrum analyzerbusiness.industryApplied MathematicsBode plotElectrical engineeringCondensed Matter PhysicsPrecision rectifierPersonal computerElectronic engineeringDevice under testElectrical and Electronic EngineeringbusinessParallel portInstrumentationElectrical impedanceElectronic circuitMeasurement
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Design, fabrication, and analysis of a spin-valve based current sensor

2004

Abstract In this work, we suggest a novel current sensor design, based on spin valve technology, with a full Wheatstone bridge configuration. The principal characteristic is that the four magnetoresistance sensing elements, fully active, are deposited and patterned at the same time. This way, differences among them should be insignificant, so improving voltage offset and drift temperature parameters. The complete IC fabrication process involves only three lithography steps, making the process cheaper and faster. In order to get a balanced bridge, the measured current must be properly driven, by means of an auxiliary PCB. Some prototypes, with different input impedances, have been fabricated…

EngineeringWheatstone bridgeInput offset voltagebusiness.industrySemiconductor device fabricationMetals and AlloysElectrical engineeringSpin valveLinearityCondensed Matter PhysicsSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialslaw.inventionlawCurrent sensorElectrical and Electronic EngineeringbusinessInstrumentationElectrical impedanceVoltageSensors and Actuators A: Physical
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A Non-Invasive Thermal Drift Compensation Technique Applied to a Spin-Valve Magnetoresistive Current Sensor

2011

A compensation method for the sensitivity drift of a magnetoresistive (MR) Wheatstone bridge current sensor is proposed. The technique was carried out by placing a ruthenium temperature sensor and the MR sensor to be compensated inside a generalized impedance converter circuit (GIC). No internal modification of the sensor bridge arms is required so that the circuit is capable of compensating practical industrial sensors. The method is based on the temperature modulation of the current supplied to the bridge, which improves previous solutions based on constant current compensation. Experimental results are shown using a microfabricated spin-valve MR current sensor. The temperature compensati…

EngineeringWheatstone bridgeSpin valvemagnetoresistance sensorlcsh:Chemical technologyBiochemistryArticleRutheniumtemperature compensationAnalytical ChemistryCompensation (engineering)law.inventionMagneticslawelectrical current measurementElectric Impedancelcsh:TP1-1185Current sensorElectrical and Electronic Engineeringspin-valve sensorInstrumentationbusiness.industryTemperatureElectrical engineeringEquipment DesignAtomic and Molecular Physics and OpticsOptoelectronicsConstant currentCurrent (fluid)businessFiber optic current sensorSensitivity (electronics)Sensors
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Design and experimental verification of a smart sensor to measure the energy and power consumption in a one-phase AC line

2009

Abstract A mixed electronic system has been designed to measure the active, apparent and reactive energies delivered to a load in a single-phase AC voltage line. For this purpose a smart sensor (ADE7753 from Analog Devices) was used. A magnetoresistance sensor is used as a current transducer and it is constant current biased by a generalized impedance converter. The magnetoresistance sensor technology provides direct isolation from the mains voltage and ferrite cores are not needed like Hall counterparts. All the measurements provided by the ADE7753 are read through the parallel port of the computer using a LabView application, which will process and present the readings to the user.

Engineeringbusiness.industryApplied MathematicsElectrical engineeringCondensed Matter PhysicsFerrite coreLine (electrical engineering)Electricity meterElectronic engineeringConstant currentElectrical and Electronic EngineeringbusinessParallel portInstrumentationEnergy (signal processing)Negative impedance converterVoltageMeasurement
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Magnetic Tunnel Junction (MTJ) Sensors for Integrated Circuits (IC) Electric Current Measurement

2013

We report on MgO Magnetic Tunnel Junction (MTJ) devices focusing on their potential application in the measurement of electrical current at the integrated circuit level. Single devices and full bridges have been specifically developed for this purpose. A sort of different designs regarding their geometry arrangement as well as the number of constitutive elements have been tested. Experimental characterization has been performed and results including impedance and sensitivity measurements are given.

Engineeringbusiness.industryElectrical engineeringGMRMagnetic tunnellingIntegrated circuitsensorslaw.inventionelectrical current sensingHigh impedanceTunnel magnetoresistanceElectrical currentlawElectric currentbusinessElectrical impedanceSensitivity (electronics)GMR; MTJ; integrated circuits; electrical current sensing; sensorsintegrated circuitsMTJ
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A new backward/forward method for solving radial distribution networks with PV nodes

2008

Abstract In this paper, a new backward/forward (b/f) methodology for the analysis of distribution systems with constant power loads is presented. In the proposed method, at each iteration, the loads are considered as constant impedances; in the backward sweep all the network variables (bus voltages and branch currents) are evaluated considering a scaling factor which is determined at the end of the backward phase. Indeed the forward sweep is eliminated and the node voltages calculation does not demand the sequentiality needed in the b/f methodology. The developed method, although deriving conceptually from the b/f methodology, presents only the backward phase in which all the network variab…

Engineeringbusiness.industryEnergy Engineering and Power TechnologyInput impedanceAC powerBackward/forward methodlaw.inventionControl theorylawElectrical networkElectronic engineeringConstant currentNode (circuits)Voltage regulationRadial distribution networkElectrical and Electronic EngineeringConstant (mathematics)businessElectrical impedanceElectric Power Systems Research
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Full-wave FDTD design and analysis of wideband microstrip-to-waveguide transitions

2003

Wideband transitions are designed and analysed by using two different approaches of the finite-difference time-domain (FDTD) method, in combination with the theory of nonuniform transmission lines. These transitions consist of a ridged waveguide-based taper between a shielded microstrip and a standard X-band rectangular waveguide. In the first step, a full-wave 2D-FDTD scheme is used to calculate the dispersion characteristics, as well as the geometry dependence of the impedance in the double ridged waveguide. Once these design curves have been obtained, the stepped transmission line transformer theory is used to design the tapers. In a former step, the nonuniform 3D-FDTD technique is appli…

Engineeringbusiness.industryFinite-difference time-domain methodCondensed Matter PhysicsWaveguide (optics)Atomic and Molecular Physics and OpticsMicrostripElectronic Optical and Magnetic MaterialsElectric power transmissionOpticsDispersion (optics)Electrical and Electronic EngineeringWidebandbusinessElectrical impedanceMicrowaveMicrowave and Optical Technology Letters
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