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Determination of the series resistance of a solar cell through its maximum power point
摘要: A simple analytical approach has been developed to determine the series resistance, Rs, of a solar cell. The method adopted here depends only on the knowledge of the open-circuit voltage, Voc, and the current and voltage at the maximum power point, Isc and Vmp respectively. This approach, based on a knowledge of these operating output parameters of the cell, provides a theoretical framework for an existing computer simulated approach which has been widely used in industries.
关键词: series resistance,short-circuit current,five-parameter model,light generated current,solar cell,shunt resistance
更新于2025-09-23 15:19:57
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[IEEE 2018 International conference on Computing, Electronic and Electrical Engineering (ICE Cube) - Quetta, Pakistan (2018.11.12-2018.11.13)] 2018 International Conference on Computing, Electronic and Electrical Engineering (ICE Cube) - Impact of PV Penetration on Short Circuit Current of Radial Distributed Feeder and Existing Power System Protection of NUST
摘要: Integration of distributed generation into existing network can solve the problem of increasing energy demand which is due to exponential growth in world population. Integration of distributed generation has increased due to its immense advantages like low loading of transmission network, improvement in voltage profile and decrease in line losses. Despite of many advantages distributed generation also poses various adverse effects on network like harmonics, network protection, frequency instability and increase in short-circuit current level. However, it is difficult to eliminate the fault behavior due to dispersed nature of distributed generation that might affect the performance of power system protection. This is due to the change in power flow and magnitude of fault current. In this paper the effect of distributed generation on fault current level and protection of radial distribution feeder of National University of Science and Technology is studied. Three phase fault is simulated and analyzed for radial distribution network of National University of Science and Technology in MATLAB Simulink.
关键词: short circuit current,distribution system,three phase fault,PV penetration,MV distributed network,Distributed generation
更新于2025-09-19 17:15:36
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[IEEE 2019 Eleventh International Conference on Ubiquitous and Future Networks (ICUFN) - Zagreb, Croatia (2019.7.2-2019.7.5)] 2019 Eleventh International Conference on Ubiquitous and Future Networks (ICUFN) - Implement of 100-Gbps optical transceiver firmware for optical communication systems
摘要: This paper proposes a new fast technique, in which the slope of a photovoltaic (PV) inverter current is utilized to predict if the current is expected to exceed its rated value due to any grid faults. Two applications of this technique are demonstrated. In jurisdictions where grid codes require distributed generators (DGs) to disconnect after a fault occurrence, such as in Ontario, Canada, this technique is utilized to rapidly disconnect the PV solar system even before the inverter short circuit current actually exceeds the rated current of the inverter, thereby obviating the problem of any adverse short circuit current contribution into the grid. However, in regions where grid codes require DGs to stay connected and provide grid support, such as low-voltage ride through, this technique can be used to rapidly and autonomously transform the PV solar farm into a dynamic reactive power compensator STATCOM (termed PV-STATCOM) for providing voltage support function. In this paper, the PV-STATCOM is used to stabilize a critical induction motor load in the vicinity of the solar farm, which would have otherwise become unstable due to the grid fault. PSCAD-based simulation studies are performed on a realistic distribution network to demonstrate the effectiveness of this technique.
关键词: STATCOM,Distributed generator (DG),inverter,flexible AC transmission system (FACTS),protection,short circuit current,PV-STATCOM,photovoltaic (PV) systems
更新于2025-09-19 17:13:59
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Record Photocurrent Density over 26a??mAa??cm <sup>a??2</sup> in Planar Perovskite Solar Cells Enabled by Antireflective Cascaded Electron Transport Layer
摘要: Here an antireflective cascaded SnO2/TiO2-Cl electron transport layer (ETL) is devised to enhance the performance of planar perovskite solar cells (PSCs). The primary optical reflection of planar PSCs at the front side can be dramatically reduced by using cascaded ETL. Based on this strategy, we achieved a record-high short-circuit current density of 26.1 mA cm-2 and a high PCE of 22.9% in FAPbI3-based planar PSCs.
关键词: planar perovskite solar cells,cascaded electron transport layers,anti-reflection,bilayer,short-circuit current density
更新于2025-09-19 17:13:59
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Boosting ultrathin aSi-H solar cells absorption through a nanoparticle cross-packed metasurface
摘要: Hydrogenated amorphous silicon (a-Si:H) solar cells have some performance limitations related to the mobility and lifetime of their carriers. For this reason, it is interesting to explore thin-film solutions, achieving a tradeoff between photons optical absorption and the electrical path of the carriers to get the optimum thickness. In this work, we propose the insertion of a metasurface based on a cross-patterned ITO contact film, where the crosses are filled with nanospheres. We numerically demonstrate that this configuration improves the photogenerated current up to a 40% by means of the resonant effects produced by the metasurface, being independent on the impinging light polarization. Light handling mechanisms guide light into the active and auxiliary layers, increasing the effective absorption and mitigating the Staebler-Wronski effect. The selection of optimum materials and parameters results in nanospheres of ZnO with a 220 nm radius.
关键词: a-Si hydrogenated solar cell,Short-circuit current,Metasurface,Absorption enhancement,Nanostructure
更新于2025-09-19 17:13:59
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Light-trapping strategy for PEDOT:PSS/c-Si nanopyramid based hybrid solar cells embedded with metallic nanoparticles
摘要: In this article, we have investigated the combined role of nanopyramid (NP) array and metal nanoparticles (MNPs) in enhancing the light trapping ability and improving the photo-absorption of PEDOT:PSS/c-Si Hybrid Solar Cells (HSCs) using a 3D ?nite-di?erence time-domain (FDTD) method. A parametric optimization of the essential geometrical parameters of NPs and MNP is performed based on short circuit current density (Jsc). The optimization result reveals that maximum Jsc of 35.91 mA/cm2 is achievable with top textured NP (without MNPs) which is 24.38% higher than the planar counterpart. However, the absorption spectrum is broadened with the insertion of Al MNP at rear side of the HSC. This is also accompanied by almost two fold increase in Jsc to 41.71 mA/cm2 which is 44.47% higher the planar HSCs. The photovoltaic parameters such as Jsc, Voc, PCE and Fill Factor (FF) are calculated using the DEVICE software for NP and NP embedded with Al MNPs based c-Si Solar Cells. The physics at the interface of inorganic nanostructure and organic material layer is thoroughly described. In addition to this, we have tried to decode the underlying physics for the enhancement of photon absorption in nanopyramidal structures and MNPs structures through an extensive analysis of the photo- generation rate, electric ?eld intensity, power absorption pro?les, PCE and FF of nanopyramidal, nanopyramidal with MNP and planar HSCs.
关键词: Absorption,Metal nanoparticles,Short circuit current density,Nanopyramid,PEDOT:PSS,FDTD,Hybrid solar cells
更新于2025-09-19 17:13:59
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Solar Cells Based on Cu(In, Ga)Se2 Thin-Film Layers
摘要: This paper presents the results of experimental studies of spectral, dark current–voltage and light load characteristics of the selenide–copper–gallium–indium (Cu(In, Ga)Se2) solar cell. Тhe main fundamental parameters of the photoactive semiconductor layer Cu(In, Ga)Se2, such as the band gap, the resistivity of the layer, the equilibrium majority–carrier concentration, the lifetime and the product μ nτn of nonequilibrium minority carriers from the spectral, photoelectric and dark current–voltage characteristics are determined. Based on an analysis of the light-load current–voltage characteristics at various solar radiation powers (50–1000 W/m2), the main parameters of the p–n junction were determined, as well as the nonideality factor and the magnitude of the reverse diode saturation current; a photogeneration mechanism was established in the studied solar radiation range, which had the character of a diffusion mechanism, where carrier recombination in the photoactive layer did not have a significant effect. We found that in conditions of real solar lighting (Рrad = 50–1000 W/m2), the output parameters of the solar cell – short-circuit current, open circuit voltage, the maximum output power increases with Рrad. The fill factor (FF) of the light-current–voltage characteristics has a maximum at Рrad ≈ 200 W/m2, and an efficiency has a maximum value at Рrad ≈ 600 W/m2. The observed dependences of FF and efficiency are explained by the dependence of the series (Rser) and shunt (Rsh) resistance of a solar cell on Prad. To maintain the efficiency of a solar cell based on thin-film layers Cu(In, Ga)Se2, equally high in conditions of increased radiation, as well as in conditions of low solar radiation, it is necessary that Rser decreases and Rsh does not change with Prad.
关键词: photoactive thin film layer,series resistance,solar cell,Cu(In, Ga)Se2,fill factor,short circuit current,solar radiation power,light current–voltage characteristics,efficiency,open circuit voltage,shunt resistance
更新于2025-09-16 10:30:52
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[IEEE 2019 10th International Conference on Computing, Communication and Networking Technologies (ICCCNT) - Kanpur, India (2019.7.6-2019.7.8)] 2019 10th International Conference on Computing, Communication and Networking Technologies (ICCCNT) - An organic-inorganic solar cell with graphene as an electron transport layer: an approach to increase the carrier collection efficiency
摘要: Methyl-Ammonium lead halide based solar cell has shown a tremendous approach to fulfill the energy crisis on the earth for its high efficiency and low manufacturing cost. While there are some other materials which influence the execution of Perovskite sunlight based cell, these materials are nothing but the electron as well as hole transport materials. In this article the behavior and performances of electron transport materials are mostly focused which generally increase the proficiency of Perovskite solar cell by simultaneously increasing the open circuit voltage and short circuit current. The role of graphene as an electron transport material is mainly discussed and also compared with some other metal oxide electron transport material as well as organic-based electron transport material. As keeping graphene as an electron transport material the predicted results of Perovskite solar cell are as follows: - maximum power conversion efficiency (PCE) = 23.42%, short-circuit-current-densit=3.25A/m2,open-circuit-voltage=0.86v,fill factor=0.83au. So graphene-based electron transport material can be the entry for the improvement of Perovskite solar cell.
关键词: electron transport materials,fill factor,efficiency,open circuit voltage,graphene,Perovskite solar cell,short-circuit current density
更新于2025-09-16 10:30:52
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[IEEE 2019 34th Symposium on Microelectronics Technology and Devices (SBMicro) - Sao Paulo, Brazil (2019.8.26-2019.8.30)] 2019 34th Symposium on Microelectronics Technology and Devices (SBMicro) - MOS solar cells for indoor LED energy harvesting: influence of the grating geometry and the thickness of the gate dielectrics
摘要: This paper discusses the metal-oxide-semiconductor (MOS) solar cells for energy harvesting from indoor illumination using Al/SiO2/Si-p structures. Wafers of the Si-p (100) with a resistivity of 10 Ω.cm were used. The gate dielectric was grown by rapid thermal processing (RTP) with thicknesses of 1.65, 1.73, 2.10 and 2.23 nm. The main parameters studied were extracted using electrical characterization through IxV curves of the MOS solar cells with total areas of 3.24 cm2. At first, it was observed an increase of the dark current density from 0.49 to 4.4 μA/cm2 for the thickness varying from 1.65 to 2.23 nm. It is worthy of note the increase of the generated power from 8.1 to 46.7 μW/cm2 with the rise of the thickness in the range of 1.65 to 2.23 nm for a constant incident power of 5 mW/cm2. In this case, the lower the thickness, the higher the tunneling current through the gate dielectrics, which causes the decrease of the depletion region length and this decrease, in turn, makes the generation current density lower in the depletion region. Also, the reduction of the short-circuit current (JSC) due to the increase of the widths (W) and spacings (S) of the fishbone-grating geometry was well-correlated with the decrease of the perimeter (Pe) and the rise of the aspect ratio W/S.
关键词: MOS Solar Cell,Short-circuit current,Energy Harvesting,open-circuit voltage,LED
更新于2025-09-16 10:30:52
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Investigation of datasheet provided temperature coefficients of photovoltaic modules under various sky profiles at the field by applying a new validation procedure
摘要: In this study, datasheet provided temperature coefficients of commercially available photovoltaic modules were investigated by taking into account the actual performance parameters (output peak power, short-circuit current and open-circuit current) under different sky profiles (clear, partly cloudy and cloudy) at field by introducing a new validation procedure. This procedure is based on two cases. The first case covers irradiation and temperature whereas the second case covers only irradiation by neglecting the temperature coefficient parts in the actual performance parameters calculation. The actual performance parameters of mono crystalline silicon and cupper indium gallium selenide photovoltaic modules were measured under different sky profiles at field and calculated for considered cases. Measured and calculated results were compared by using the root mean square error and the relative mean error tools. It has been founded that temperature coefficients of commercially available photovoltaic modules could deviate from their datasheet provided values under cloudy sky profile at field. As a result of this, it has been concluded that users should take into account sky profiles at the site where photovoltaic modules are going to be deployed in order to calculate the actual performance parameters and the output energy accurately.
关键词: short-circuit current,output peak power,photovoltaic module,electrical output,open-circuit voltage,temperature coefficient
更新于2025-09-16 10:30:52