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[IEEE 2018 2nd International Conference on Data Science and Business Analytics (ICDSBA) - Changsha, China (2018.9.21-2018.9.23)] 2018 2nd International Conference on Data Science and Business Analytics (ICDSBA) - Tracking Comparison of P&O and INC Based MPPTs under Varying Weather Conditions
摘要: The paper discusses the application of data science and business analytics in the context of optoelectronics, focusing on modeling and simulation techniques for photovoltaic systems. It presents a novel approach to improving efficiency and performance through advanced data analysis methods.
关键词: data science,business analytics,optoelectronics,photovoltaic systems,simulation,modeling
更新于2025-09-23 15:23:52
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[IEEE 2018 19th International Conference on Electronic Packaging Technology (ICEPT) - Shanghai (2018.8.8-2018.8.11)] 2018 19th International Conference on Electronic Packaging Technology (ICEPT) - Indium Sealing of Metal Shell for Precision Devices Packaging
摘要: The indium seal quality of metal shell is crucial for avoiding the failure of precision devices. It is necessary to study the sealing process to increase the tightness of the cavity. The temperature field and deformation during the indium sealing process of metal shell are simulated, and by optimizing the sealing process parameters to assure the quality of the sealing joint. The simulation results show that sealing pieces with superior strength and tightness can be obtained when the temperature of the upper hot-press head is 130oC and 50oC for the lower heating block, and the sealing force is 1500N. An automatic shell sealing equipment was developed, which has the function of controlling the processing parameters, including temperature, force and displacement. A group of sealing parameters are set up for sealing the shell. The results of experiments show that the tightness of sealing pieces can meet the requirements.
关键词: shell sealing equipment,indium sealing,package of precision device,simulation
更新于2025-09-23 15:23:52
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Development and characterization of air kerma cavity standard
摘要: Ionization chambers are the most common detectors for precise measurements such as these required in radiation protection and radiotherapy. This paper presents the design, development and characterization of a new graphite–walled cavity ionization chamber used as a primary standard for air kerma rate for 137Cs and 60Co gamma radiation of the Central Office of Measures (GUM). The paper describes particularly methods for a cavity volume determination and the cavity volume relation to an electric field. The various correction factors to be applied to the primary standards and their determination by experimental and Monte Carlo methods are discussed. Re–evaluation of the standard according to the recommendations of ICRU90 Report for the new primary standard is presented. A typical uncertainty budget for the graphite-walled cavity ionization chamber as a primary standard for air kerma rate for gamma radiation is presented and results of internal comparisons between standards are summarized and discussed.
关键词: ionization chamber,air kerma cavity standard,Monte Carlo simulation,gamma radiation
更新于2025-09-23 15:23:52
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Non-Equilibrium Green's Function based Circuit Models for Coherent Spin Devices
摘要: With recent developments in spintronics, it is now possible to envision 'spin-driven' devices with magnets and interconnects that require a new class of transport models using generalized Fermi functions and currents, each with four components: one for charge and three for spin. The corresponding impedance elements are not pure numbers but 4 × 4 matrices. Starting from the Non-Equilibrium Green's Function (NEGF) formalism in the elastic, phase-coherent transport regime, we develop spin generalized Landauer-Büttiker formulas involving such 4 × 4 conductances, for multi-terminal devices in the presence of Normal-Metal (NM) leads. In addition to usual 'terminal' conductances describing currents at the contacts, we provide 'spin-transfer torque' conductances describing the spin currents absorbed by ferromagnetic (FM) regions inside the conductor, specifying both of these currents in terms of Fermi functions at the terminals. We derive universal sum rules and reciprocity relations that would be obeyed by such matrix conductances. Finally, we apply our formulation to two example Hamiltonians describing the Rashba and the Hanle effect in 2D. Our results allows the use of pure quantum transport models as building blocks in constructing circuit models for complex spintronic and nano-magnetic structures and devices for simulation in SPICE-like simulators.
关键词: Rashba effect,spintronics,Landauer-Büttiker formula,spin-transfer torque,Non-Equilibrium Green's Function,Hanle effect,SPICE simulation
更新于2025-09-23 15:23:52
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[IEEE 2018 15th International Multi-Conference on Systems, Signals & Devices (SSD) - Yassmine Hammamet, Tunisia (2018.3.19-2018.3.22)] 2018 15th International Multi-Conference on Systems, Signals & Devices (SSD) - An Integrated Thermal and Electrical Model for PV Panel Performance
摘要: This work presents an integrated thermal and electrical model for Photovoltaic panel based on Matlab/Simulink tools. The model is designed for extreme and dusty weather conditions. The objective of this work is to reach a realistic online simulation that accommodates all major environmental variables such ambient temperature, relative humidity, wind speed and solar irradiation. The water mass flow rate was used to control the PV panel temperature through surface cooling in order to boost its output power. The output power adjustment was needed for power system operation purposes. The developed model is now ready any future controller development. The obtained results for testing the model under varying online climatic conditions and for various water mass flow rates were very satisfactory. The use of water to cool the panel played two major roles namely PV cleaning and temperature reduction then consequently increasing the panel power output.
关键词: Thermal model,Simulation,surface cooling,PV panel performance,Electrical model
更新于2025-09-23 15:23:52
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Optimal photonic indistinguishability tests in multimode networks
摘要: Particle indistinguishability is at the heart of quantum statistics that regulates fundamental phenomena such as the electronic band structure of solids, Bose-Einstein condensation and superconductivity. Moreover, it is necessary in practical applications such as linear optical quantum computation and simulation, in particular for Boson Sampling devices. It is thus crucial to develop tools to certify genuine multiphoton interference between multiple sources. Our approach employs the total variation distance to find those transformations that minimize the error probability in discriminating the behaviors of distinguishable and indistinguishable photons. In particular, we show that so-called Sylvester interferometers are near-optimal for this task. By using Bayesian tests and inference, we numerically show that Sylvester transformations largely outperform most Haar-random unitaries in terms of sample size required. Furthermore, we experimentally demonstrate the efficacy of the transformation using an efficient 3D integrated circuits in the single- and multiple-source cases. We then discuss the extension of this approach to a larger number of photons and modes. These results open the way to the application of Sylvester interferometers for optimal assessment of multiphoton interference experiments.
关键词: Sylvester interferometers,Particle indistinguishability,Quantum statistics,Optical quantum computation,Multiphoton interference experiments,Bayesian tests,Quantum simulation
更新于2025-09-23 15:23:52
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Transient numerical study of thermo-energetic performance of solar air heating collectors with metallic porous matrix
摘要: This paper presents the numerical modeling of the thermo-energetic behavior of solar air heaters with a porous matrix to enhance the heat transfer from the absorber plate to the circulating air. The porous matrix was modeled by defining an average strand at which the porosity, the effective cross-sectional area for conduction heat transfer, and the effective lateral area for convection and radiation heat transfer were determined. The pressure drop along the collector was small because the porosity of the matrix was high (97%). For this collector, the thermohydraulic efficiency reaches a maximum value of 63% for an air mass flow of 0.06 kg/s and thereafter decreases as the power consumed by the fan increases. Using data measured during the winter of 2015 in a prototype solar collector, the numerical model was validated. The fit relative error between measured and modeling values was 3% for the air output temperature and 5%, on average, for the useful energy gain of the collector. The dependence of the collector heat removal factor, FR, on the porosity was studied through numerical simulation. The results of this study revealed that, as the porosity of the matrix decreases, the FR factor increases. Therefore, in order to maximize the thermal efficiency of the collector, it is recommended to use matrices with a porosity close to 90%. The thermal efficiency of solar air heaters of double-pass counterflow with a metallic porous matrix with a porosity of 90% is 20% higher than that of the same collector without a porous matrix for the same operating parameters. The results of this study are of technological importance for the efficient design of solar air heaters of double-pass with a porous matrix.
关键词: Solar air heating,Experimental evaluation,Computational simulation
更新于2025-09-23 15:23:52
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Influence of Current Density on Orientation-Controllable Growth and Characteristics of Electrochemically Deposited Au Films
摘要: This paper is concerned with the stability analysis of time varying delayed stochastic Hopfield neural networks in numerical simulation. To achieve our expected conclusions, we will reform the classical contractive mapping principle in functional analysis, with some modifications, to adapt to our conditions and both the continuous and the discrete delayed models. Under the reasonable conditions, it is shown that, the Euler–Maruyama numerical scheme is mean square exponentially stable of exact solution dependent of step size. Further more, it is also shown that the backward Euler–Maruyama numerical scheme can share the mean square exponential stability of the exact solution independent of step size under the same conditions.
关键词: Numerical simulation,Time delay,Stochastic differential equation,Hopfield neural network,Stability
更新于2025-09-23 15:23:52
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Simulation-Based Sensitivity Analysis of Conduction and Switching Losses for Silicon Carbide Power MOSFETs
摘要: The behavior of silicon carbide power MOSFETs is analyzed using TCAD device simulations with respect to conduction and switching losses. Device designs with varying breakdown voltages are simulated. The contributions to the on-state resistance are shown at room and elevated temperature. Whereas channel and substrate resistance dominate at low breakdown voltages, drift and JFET resistance dominate at high breakdown voltages. With increasing temperature, the channel resistance decreases and thus the drift resistance is the main contributor already at medium breakdown voltages. Manufacturing processes of a device can have a high influence on its losses. Variations in interface mobility, drift doping, and p-body doping can lead to a significant change of on-resistance, internal capacitances, and reverse recovery charge. For higher voltage classes the drift layer properties should be of major interest as it influences on-resistance and reverse recovery charge.
关键词: SiC power MOSFET,TCAD device simulation,sensitivity analysis,losses
更新于2025-09-23 15:23:52
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The Monte Carlo Simulation of Secondary Electrons Excitation in the Resist PMMA
摘要: The Monte Carlo method was used to simulate the process of secondary electrons excitation in resist PMMA with Mott cross section and dielectric function model. By analyzing the characteristics of secondary electrons excitation in the resist PMMA, and the simulation of secondary electrons energy range, we hold the opinion that the secondary electrons can not be ignored in the electron beam lithography.
关键词: Monte Carlo simulation,electron beam lithography (EBL),dielectric function,secondary electrons
更新于2025-09-23 15:23:52