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Volume 27(4); April 2014

The Effect of Neutron Radiation on the Electrical Characteristics of SiC Schottky Diodes
Sung Su Kim, Min Seok Kang, Man Soon Cho, Sang Mo Koo
J Electr Electron Mater 2014;27(4):199-202.   Published online April 1, 2014
The effect of neutron irradiation on the properties of SiC Schottky Diode has been investigated. SiC Schottky diodes were irradiated under neutron fluences and compared to the reference samples to study the radiation-induced changes in device properties. The condition of neutron irradiation was 3.1×1010n/cm2. The current density after irradiation decreased from 12.7 to 0.75 A/cm2. Also, a slight positive shift (ΔVth= 0.15 V) in threshold voltage from 0.53 to 0.68 V and a positive change (ΔΦB= 0.16 eV) of barrier height from 0.89 to 1.05 eV have been observed by the neutron irradiation, which is attributed to charge damage in the interface between the metal and the SiC layer.
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Improvement of Efficiency of Cu(Inx, Ga1-x)Se2 Thin Film Solar Cell by Enhanced Transparent Conductive Oxide Films
Ki Lim Kim, Kyeong Tae Son, Min Young Kim, Sung Hee Jo, Jun Chul Shin, Dong Gun Lim
J Electr Electron Mater 2014;27(4):203-208.   Published online April 1, 2014
In this study, Sputtering method was used to grow Al-dopes ZnO films on a CIGS absorber layer, in order to examine the effect of TCO on properties of CIGS solar cell devices. Structural, electrical and optical properties were investigated by varied thickness of Al-dopes ZnO films. Also, relation to the application as a window layer in CIGS thin film solar cell were studied. It was found that the electrical and structural properties of ZnO:Al film improved with increasing its thickness. However, the optical properties degraded. Jsc of the fabricated CIGS based solar cells was significantly influenced by the variation of the ZnO:Al window layer thickness. Because ZnO:Al window layer is one of the Rs factors in CIGS solar cell. Rs has the biggest influence on efficiency characteristic. In order to obtain high efficiency of CIGS solar cell, ZnO:Al window layer should be fabricated with electrically and optically optimized.
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The Analysis on the Effect of Improving Aspect Ratio and Electrode Spacing of the Crystalline Silicon Solar Cell
Min Young Kim, Ju Eok Park, Hae Sung Cho, Dae Sung Kim, Seong Kyun Byeon, Dong Gun Lim
J Electr Electron Mater 2014;27(4):209-216.   Published online April 1, 2014
The screen printed technique is one of the electrode forming technologies for crystalline silicon solar cell. It has the advantage that can raise the production efficiency due to simple process. The electrode technology is the core process because the electrode feature is given a substantial factor (for solar cell efficiency). In this paper, we tried to change conditions such as squeegee angle 55∼75°, snap off 0.5∼1.75mm, printing pressure 0.6∼0.3 MPa and 1.6∼2.0 mm finger spacing. As a result, the screen printing process showed an improved performance with an increased height higher finger height. Optimization of fabrication process has achieved 17.48% efficiency at screen mesh of 1.6 mm finger spacing.
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Growth and Resistance Properties of Carbon Nanowall According to the Variation of Reaction Gas
Sung Yun Kim, Sang Joon Lee, Won Seok Choi, Yeun Ho Joung, Dong Gun Lim
J Electr Electron Mater 2014;27(4):217-220.   Published online April 1, 2014
Graphite electrodes are used for secondary batteries, fuel cells, and super capacitors. Research is underway to increase the reaction area of graphite electrodes. In this study, we have investigated the growth properties of carbon nanowall (CNW) according to the ingredient of gas. Microwave plasma enhanced chemical vapor deposition (MPECVD) system was used to grow CNW on Si substrate with a variety of the reaction gas. The planar and vertical growth conditions of the grown CNWs according to the ingredient of the gas were characterized by a field emission scanning electron microscopy (FE-SEM) and energy dispersive spectroscopy (EDS). The electrical characteristics of CNWs were analyzed using a4-point probe.
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Electric Field Strength and Shielding Effectiveness Comparison According to the Size of Shielding Facility
Ho Jae Kang, Chang Su Huh, Jeong Ju Bang, Jin Su Choi, Woo Chul Park
J Electr Electron Mater 2014;27(4):221-225.   Published online April 1, 2014
In modern times, threat of high power electromagnetic wave is increasing. When the electrical grid and communication network are attacked by these high power electromagnetic wave, the whole infrastructure is paralyzed. To protect the infrastructure from these high power electromagnetic wave threat, the shielding facility that can block high power electromagnetic wave is constructed. Also shielding effectiveness evaluation about the constructed facility is important. But, because of space efficiency and saving of construction cost to construct the actual shielding facility, the shielding room wall is generally adjacent to exterior concrete structures. As space between shielding facility wall and concrete structures is very small, arranging the transmitting antenna exterior shielding facility is realistically difficult. Therefore, in this research, The shielding effectiveness measurement plan in the state of exterior narrow space of HEMP shielding facility is presented. And to apply this plan, The influence of shielding effectiveness according to the size of the shielding facility is analyzed.
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Thin Films and SensorsStructural Properties of Nickel Manganite Thin Films Fabricated by Metal Organic Decomposition
Kui Woong Lee, Chang Jun Jeon, Young Hun Jeong, Ji Sun Yun, Joong Hee Nam, Jeong Ho Cho, Jong Hoo Paik, Jong Won Yoon
J Electr Electron Mater 2014;27(4):226-231.   Published online April 1, 2014
Thin thermistor films of solutions with nickel and manganese oxides were prepared by metal-organic decomposition (MOD). The structural properties of the thin films were investigated as a function of annealing temperature. Field emission scanning electron microscope (FE-SEM) results indicated that the thin films had a thin thickness, smooth and dense surface. The crystallization temperature of 414.9℃ was confirmed from thermogavimetric-differential thermal analysis (TG-DTA)curve. A single phase of cubic spinel structure was obtained for the thin film annealed from 700℃ to 800℃,which was confirmed from the X-ray diffraction (XRD). From the selected area electron diffraction(SAED) in high resolution transmission electron microscope (HRTEM), the nano grains (2∼3 nm) of spinel phase with (311) and (222) planes were detected for the thin film annealed at 500℃, which could be applicable to read-out integrated circuit (ROIC) substrate of the uncooled microbolometer with low processing temperature.
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Effects of Dopant Concentration on the Electrical and Optical Properties of Phosphorescent White Organic Light-emitting Diodes with Single Emission Layer
Jae Myoun Do, Dae Gyu Moon
J Electr Electron Mater 2014;27(4):232-237.   Published online April 1, 2014
We have fabricated white organic light-emitting diodes (OLEDs) by co-doping of red and blue phosphorescent guest emitters into the single host layer. Tris(2-phenyl-1-quinoline) iridium(III) [Ir(phq)3]and iridium(III)bis[(4,6-di-fluorophenyl)-pyridinato-N,C2`]picolinate (FIrpic) were used as red and blue dopants, respectively. The effects of dopant concentration on the emission, carrier conduction and external quantum efficiency characteristics of the devices were investigated. The emissions on the guest emitters were attributed to the energy transfer to the guest emitters and direct excitation by trapping of the carriers on the guest molecules. The white OLED with 5% FIrpic and 2% Ir(phq)3 exhibited a maximum external quantum efficiency of 19.9% and a maximum current efficiency of 45.2 cd/A.
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High Voltage and Discharge Engineering : Characteristics of Partial Discharge Under HVDC in SF6 Gas
Min Su Kim, Sun Jae Kim, Gi Woo Jeong, Hyang Eun Jo, Gyung Suk Kil
J Electr Electron Mater 2014;27(4):238-243.   Published online April 1, 2014
This paper dealt with the measurement and analysis of partial discharge (PD) under high voltage direct current (HVDC) in SF6 gas. Electrode systems such as a protrusion on conductor (POC), a protrusion on enclosure (POE), a crack on epoxy plate and a free particle (FP) were fabricated to simulate the insulation defects. The analysis system was designed with a Time-Frequency (T-F) map algorithm programed based on Lab VIEW. This can arrange the acquired PD pulses into frequency and time domain. A HVDC power source is composed of a transformer (220 V/50 kV), a diode (100 kV) and a capacitor (50 kV, 0.5 μF). The gap between the electrodes is 3 mm, and the SF6 gas was set at 5 bar. PD pulses were detected by a 50 Ω non-inductive resistor. In the analysis, PD pulses were distributed below 0.5 MHz and 20 ns ∼ 35 ns for the POC, 0.7 MHz ∼ 1.7 MHz, below 0.6 MHz and 10 ns ∼ 40 ns and 60 ns ∼125 ns for the POE, below 0.1 MHz and 135 ns ∼ 215 ns for the crack, and below 1.6 MHz and 250 ns for the FP.
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Technology Education : The Development of Diagnostic Sensor for Inner Deterioration of Covered Electric Wire
Ki Joon Kim
J Electr Electron Mater 2014;27(4):244-249.   Published online April 1, 2014
In this research, it have developed a sensor that could diagnose inner deterioration of covered wires. With this sensor it observed results from simulation, and the attribute required for realization. For simulation it have used FLUX, it have considered all of geometric and electromagnetic information from coil and base metal that influences eddy current sensor`s property in order to predict the final result. It assumed there is no mutual inductance in the coil with N number of turns, because equivalent current flows in coil that is continuously connected in eddy current sensor. It assumed circular coil loop draws a circle, always have self inductance, and they are connected in series and overlapped according number of turns (N) in coil, and bobbin configuration. Actual sensor was produced with consideration of inductance and number of turns (N). In conclusion, it were able to test the dependency through results from simulation, actual measurement, and modeling of simulation. It is considered that attributes of respective base metal and structure can be predicted by simulating in advance.
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Technology Education : Technical Trend of Radar Radio Interference Reduction Relating to Construction of the Offshore Wind Farm
Young Dal Kim, Yun Mi Jeong, Dae Dong Lee
J Electr Electron Mater 2014;27(4):250-256.   Published online April 1, 2014
The wind power generation is an eco-friendly clean energy that produces almost zero CO2emission, and has a good economic feasibility. As for the location, the installation of large turbines and construction of large-scale wind farm is easier on the offshore than on the land. In Korea, it is inevitable to generate offshore wind power through the offshore wind farm, and the radio interference of larger wind power generators and offshore wind power farm to broadcasting, communication and radars is becoming a core issue for constructing the offshore wind farm. In this study, the wind power generation status and rotor blade technology trend were presented, along with the technical trend of radar radio interference reduction relating to construction of the offshore wind farm.
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Technology Education : NOx Gas Detection Characterization with Vgs in the MWCNT Gas Sensor of MOS-FET Type
Hyun Soo Kim, Yong Seo Park, Kyung Uk Jang
J Electr Electron Mater 2014;27(4):257-261.   Published online April 1, 2014
Carbon nanotubes (CNT) has the excellent physical characteristics in the sensor, medicine, manufacturing and energy fields, and it has been studied in those fields for the several years. We fabricated the NOx gas sensors of MOS-FET type using the MWCNT. The fabricated sensor was used to detect the NOx gas for the variation of Vgs (gate-source voltage) with the ambient temperature. The gas sensor absorbed the NOx gas molecules showed the decrease of resistance, and the sensitivity of sensor was reduced by the NOx gas molecules accumulated on the MWCNT surface. Furthermore, when the voltage (Vgs) was applied to the gas sensor, the term of the decrease in resistance was increased. On the other hand, the sensor sensitivity for the injection of NOx gas was the highest value at the ambient temperature of 40℃. We also obtained the adsorption energy (Vgs)using the Arrhenius plots by the reduction of resistance due to the Vgs voltage variations. As a result, we obtained that the adsorption energy also was increased with the increasement of the applied Vgs voltages.
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Light Source and Application Technology : Light Flicker of Three-Phase AC-powered LED Lamp
Dong Won Lee, Byung Cheul Kim
J Electr Electron Mater 2014;27(4):262-267.   Published online April 1, 2014
This study describes that light flicker of LED lamp is improved by placing an AC-powered LED block in each phase of three-phase AC power. Rectified current is considered as an instantaneous luminous flux because the current flowing through the LED block is proportional to the amount of light emitted by the LED block. Percent flicker is calculated simply by modeling the rectified current flowing through the LED block to a triangular wave current. Percent flicker is 100% in single-phase AC powered LED lamp. Percent flicker of the same level as that in an incandescent lamp (6%∼14%) is however, achieved if light emission starts before 40° in each voltage phase of three-phase AC power.
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