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"Lighting"

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Regular Paper

This paper proposes a circular sequential lighting control method to reduce current imbalance and luminance deviation among multiple LED modules in AC-powered LED lighting systems. Conventional fixed-sequence lighting control repeatedly prioritizes the same LED modules in every rectified voltage cycle, which leads to unequal current distribution, luminance non-uniformity, and the accelerated degradation of specific modules during long-term operation. To address these limitations, a circular sequential lighting strategy is introduced, in which the lighting order is cyclically rotated at every rectified cycle, ensuring that all LED modules experience equal lighting opportunities. A prototype AC-LED lighting system consisting of four series-connected LED modules was implemented and experimentally evaluated. The results demonstrate that, while the conventional fixed-sequence method produces a maximum average current deviation of up to 1.6 mA among modules, the proposed method equalizes the average current across all modules to approximately 17.1 mA. Furthermore, the flicker index remains at 0.13, which is comparable to that of the conventional method, indicating that luminance uniformity is improved without degradation of optical performance. The proposed circular sequential lighting control effectively distributes electrical stress, enhances luminance uniformity, and improves long-term reliability, making it a practical and efficient solution for high-quality AC-LED lighting applications.
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A Lighting Control Method for Reducing Luminance Deviation in AC-LED Lighting Systems
Dong Won Lee, Byungcheul Kim
J Electr Electron Mater 2026;39(2):193-197.
Published online March 1, 2026
DOI: https://doi.org/10.4313/JEEM.2026.39.2.8
Long lifetime, low power consumption, and environmental friendliness have enabled light-emitting diode (LED) lighting to rapidly replace conventional light sources such as incandescent and fluorescent lamps. In particular, AC-LED lighting systems can be directly powered by commercial alternating current (AC) sources; however, they suffer from significant luminance deviation caused by uneven current distribution among LED light-emitting modules. This paper proposes a lighting control method that improves flicker performance while maintaining lamp brightness and effectively reduces luminance deviation in AC-LED lighting. The proposed method reduces luminance deviation by controlling the lighting order of multiple LED light-emitting modules. Among four LED modules, only the required number of modules is continuously turned on, and the lighting priority alternates between rectification cycles. Specifically, during odd rectification cycles, LED modules are activated sequentially in ascending order (11→12→13→14), whereas during even rectification cycles, they are activated in descending order (14→13→12→11). By alternately applying continuous lighting control with opposite activation orders, the proposed reverse alternating lighting control method equalizes the current distribution among LED modules. As a result, luminance uniformity is improved, electrical stress concentration on specific modules is reduced, and the operational lifetime of the LED modules is extended compared with the conventional fixed-sequence lighting control method.
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Study on the Flicker Characteristics for Human Centric Lighting (HCL) Application of the LED Lighting used in Indoor Spaces
Won-kuk Son, Chung-hyeok Kim
J Electr Electron Mater 2024;37(6):644-648.   Published online November 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.6.10
Human-centric lighting (HCL) aims to enhance well-being and performance by tailoring lighting to human needs. However, LED flicker-rapid brightness changes-remains a critical issue, causing discomfort and reduced productivity. This paper addresses flicker problems in living and industrial spaces with LED lighting. We propose solutions to mitigate flicker by examining causes like power supply variations and LED driver design. Techniques such as high-quality LED drivers, advanced dimming methods, and digital control systems are explored. Our findings show these techniques can significantly reduce flicker, achieving less than 1% flicker performance while meeting HCL’s diverse requirements. Implementing flicker-free lighting in residential spaces enhances comfort and reduces eye strain, while in industrial settings, it improves productivity and safety. This paper emphasizes the importance of control circuits that maintain sub-1% flicker performance while integrating various HCL solutions, enhancing indoor lighting quality, and promoting better health and performance.
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Always Space Antibacterial Technology Using a Luminaire Applied with a Visible Light Catalyst
Doowon Jang, Chunghyeok Kim
J Electr Electron Mater 2024;37(5):512-518.   Published online September 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.5.7
Titanium oxide (TiO₂), a representative photocatalyst, reacts to ultraviolet ray energy and has antibacterial, deodorizing, and antifouling properties using superhydrophilic properties, so it is widely used in various industrial fields such as environmental purification, building exterior walls, and road facilities. However, due to the nature of the photocatalyst, it reacts to ultraviolet rays known to be harmful to the human body, and is designed to react to natural light outdoors and to ultraviolet light sources inside a sealed device indoors, so indoor space is extremely limited. This study aims to develop spatial antibacterial technology for everyday living spaces by researching methods for antibacterial and deodorization by reacting titanium oxide (TiO₂)-based photocatalysts with the visible light range emitted from lighting devices in everyday spaces. Through the results of this study, it was verified through experiments that the photocatalyst exhibits antibacterial and deodorizing properties in response to lighting devices (LED, fluorescent lights, etc.) used in daily life. Based on the research results, we hope that various studies will be conducted to create a safer living environment by applying this technology to various fields such as large-scale complex facilities where an unspecified number of floating populations gather, airports, port waiting rooms, and public transportation.
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A Study on Implementation of Human Centric Lighting Using Sunrise and Sunset Data
Doowon Jang, Chunghyeok Kim, Gyuwon Jo
J Electr Electron Mater 2024;37(5):486-493.   Published online September 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.5.3
Lighting has been used for a long time as a medium to convey brightness from darkness, and through incandescent lamps and fluorescent lamps, LED light sources have now become the standard in the lighting industry. Recently, the lighting equipment industry has been undergoing rapid digital transformation, starting with smart lighting, and is evolving into smart lighting customized for individuals and spaces through the development of IoT technology, cloud-based services, and data analysis. However, the blue light emitted from digital devices (computers, smartphones, tablets, etc.) or LED lights stimulates the melanopsin in the optic ganglion cells in the retina of the eye, which in turn stimulates the secretion of melatonin through the pineal gland, which regulates the secretion of melatonin. This can reduce sleep quality or disrupt biological rhythms. This interaction between blue light and melatonin has such a significant impact on human sleep patterns and overall health that it is essential to reduce exposure to blue light, especially in the evening. Human-centered lighting refers to lighting that takes into account the effects of light on the physical and mental areas, such as human activity and awakening, improvement of sleep quality, and health management. Many research institutes study the effects in the visible area and the non-visible area. By studying the impact, it is expected to improve the quality of human life. In this study, we plan to study ways to implement humancentered lighting by collecting sunrise and sunset data and linking commercialized LED packages and control devices with opensource hardware.
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The Study on the Analysis of Road Surface Brightness of Low Mounted Road Lighting System
Kiho Nam, Chung Hyeok Kim
J Electr Electron Mater 2024;37(3):314-321.   Published online May 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.3.12
Low road lighting is a lighting device that complements the shortcomings of existing pillar-type street lights. It is a lighting device that emits light from the side of the road surface and adjusts the luminance of the road surface like a light carpet. In this paper, to achieve full commercialization, we analyzed the luminance of the installed road surface and studied whether lighting could replace existing road lighting. In this study, the LMK (Luminance Measurement Camera) LABSOFT program was used to measure and analyze the surface luminance of road lighting, and the RELUX program was used to evaluate and analyze the simulation performance to determine light-based lighting conditions. A study was conducted to determine whether replacing pillar-type road lighting with low-level road lighting in a real environment would ensure comfortable and safe night vision for drivers at night.
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Alternating Current (AC) Powered LED Lighting Technology with Constant Brightness
Dong Won Lee, Ho-myoung Ahn, Byungcheul Kim
J Electr Electron Mater 2022;35(5):466-470.   Published online September 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.5.7
In order to widely disseminate LED lighting, LED lighting technology that directly uses AC commercial power has been recently introduced. AC powered LED lighting technology has a problem in that the light brightness of the LED changes because the voltage applied to the LED and the current flowing through the LED continuously change. In this study, when the LED current is greater than the design current, the current control signal generated by the controller is supplied to the current source to supply only the design current to the LED by increasing the voltage drop at the current source. If it is smaller than the design current, the controller is adjusted so that the current is supplied only to the LED without a voltage drop in the current source. It can be seen that the higher the maximum rectified voltage, the faster the lighting time of the LED light emitting block is, so that the power factor of the LED lighting is improved. The LED lighting technology proposed in this study enables LED lighting with constant light brightness, reduced power consumption, and long lifetime.
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A Study on the Electrical and Thermal Safety of System LED Lighting
Yeong Woo Kim, Chung Hyeok Kim, Woon Shik Choi
J Electr Electron Mater 2020;33(5):418-426.   Published online September 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.5.14
This study tested the electrical, structural, and thermal safety of LED lighting products, available on the market. Five recessed LED systems, 20 W each, and five fixed LED systems, 25 W each, were selected. Dielectric strength tests, live part electric shock protection tests, and thermal tests were conducted on the LEDs. These were key tests for user safety, according to the specification of the safety criteria for electric products, KC 60598-1, South Korea. In addition, the wiring temperature of UL1007, 60227 IEC 08, and UTP cables, was measured. The results of the study gave an in-depth examination of the safety of LED lighting systems for users.
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A Research on the Improvement of Visibility Using Low Deck Lighting in Bad Weather
Ki Ho Nam, Chung Hyeok Kim, Ki Ho Nam
J Electr Electron Mater 2020;33(3):186-193.   Published online May 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.3.6
We investigate a fog-detection CCT control system using low deck lighting as a solution to the forward visibility of pole-type street lamps employed on existing roads. The lighting standards were met with a light source that has less compared with those of pole-type street lamps. The results show that the transmission rate was increased by changing the color temperature by automatically recognizing fog in bad weather and minimizing the phenomenon of lighting. In addition, it was allowed to create a safer and more comfortable driving environment for drivers owing to flicker or light pollution of existing pole-type street lamps. As a result, if lighting is used at a lower level than pole-type street lamps, the accident rate caused by securing the driver’s forward visibility can be reduced sharply and existing problems can be resolved.
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Regular Paper : A Study on the Design of a Floodlighting Tower with LED Source of Light Considering the Reduction of a Glare
Dong Su Kim, Chang Su Huh
J Electr Electron Mater 2015;28(4):271-275.   Published online April 1, 2015
The floodlighting assists the pilot in taxiing the aircraft into and out of the final parking position and provide lighting suitable for passenger to embark and debark and for personnel to load and unload cargo. It is composed of sodium lamps which is consuming high energy. It needs to develop a dedicated LED lamp to replace the existing lamps. In this paper, We propose a suitable asymmetric angle of LED lamps to avoid a pilot’s glare and to meet the standard illumination. For this, we analyze asymmetric angle of sodium lamps which are using in airport and confirm whether the illumination distribution and glare index meet the relating standards by using simulation method. Also, we study the needs of asymmetric characteristics of LED ramp by simulating the LED lamps with and without asymmetric characteristics of ramp respectively. With the simulation result, finally we propose the best asymmetric angle of LED lamp to meet the average illumination standard, and avoid a pilot``s glare.
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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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Regular Paper : A Study of Characteristics of Heat Dissipation Carbon Magnesium New Materials of LED Lighting
Il Soo Son, Sung Sik Shin
J Electr Electron Mater 2013;26(12):915-919.   Published online December 1, 2013
This is the study on the development of fusion heat dissipation of carbon magnesium materials. The purpose of this study is for effective utilization of heat emission which is the core of LED lighting. The result of study enabled the derivation of side satisfying result of making the surface temperature of lighting to be below 70℃ (actual measurement: 58℃) using magnesium. The lighting products that use magnesium was made possible based on the result of this study. Also from the performance aspect such as light distribution, the measurement of light efficiency demonstrated the level of 90 lm/W. Therefore the commercialization of lighting was made possible and the efficiency could be further enhanced by supplementation of LED performance.
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Light Source and Application Technology : Regular Paper ;A Study on the Efficiency of a High Power Factor LED Driver Circuit
Dong Won Lee, Byung Cheul Kim
J Electr Electron Mater 2013;26(8):629-634.   Published online August 1, 2013
The rectified voltage supplied to LED lamp is used in load and then the surplus voltage can be produced in LED lighting. In this case, LED lighting is proposed that can recyclable the excess voltage to supply power to the controller.
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Light Source and Application Technology : Regular Paper; Applications of Current Limiting Diode to chip on Board Type Light Source and Lighting Equipment Circuits
Hwa Jin Park, S J Yu, Jong Min Park, Y J Kim
J Electr Electron Mater 2013;26(6):488-492.   Published online June 1, 2013
Current limiting diode (CLD) was fabricated using junction field effect transistor (JFET) structured two small cells and eight large cells. Two small cells and eight large cells were connected in parallel and the obtained constant current was 110 mA. The application of CLD in each of the parallel circuits on chip on board (COB) type LED lighting source, could significantly reduce the current deviation within the parallel circuits. The applications of CLD on AC power small lighting source, battery power low voltage parallel lighting source and AC flat lighting source were investigated.
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Light Source and Application Technology : Feedback Circuit of Maximum LED Channel String Voltage Detection Converter for Energy Saving on Multichannel LED Module
Hyun Sik Kim, Ki Woon Kim, Ki Hoon Kim, Yu Sin Kim, Sang Bin Song
J Electr Electron Mater 2012;25(11):938-941.   Published online November 1, 2012
LED is divided to multichannel in order not to exceed a certain voltage in aspects of electric standard. However, it`s not possible to know in accordance with what channel SMPS controls the constant voltage and current. In order to solve this problem, it needs to detect the maximum LED String voltage which is applied to LED control circuit, and it is possible to minimize the voltage drop when a difference of LED string voltage occurs by each channel if LED is controlled by the maximum LED string voltage detected. In addition, it is also possible to maximize the efficiency of LED if change LED voltage by detecting the maximum voltage. Feasibility of this claim was verified through implementation of the circuit.
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Light Source and Application Technology : Operational Characteristics of Pulsating Heat Pipes for the Application to the Heat Dissipation of LED Lighting
Kwang Hyun Bang, Hyoung Tak Kim, Hae Kyun Park
J Electr Electron Mater 2012;25(10):830-836.   Published online October 1, 2012
An efficient cooling system is essential for the electronic packaging such as a high-luminance LED lighting. A special heat transport technology, Pulsating Heat Pipe (PHP), can be applied to the cooling of LED lighting. In this paper, the operational characteristics of the PHP in the imposed thermal boundary conditions of LED lighting were experimentally investigated. The experimental PHP was made of copper tubes of internal diameter of 2.1 mm. The working fluids of ethanol, FC-72, water, acetone and R-123 were chosen for comparison. The results showed that an optimum range of charging ratio exists for high cooling performance; 50% for most of the fluids. Among the five working fluids, water showed the highest heat transfer rate of 260 W. Two distinguished characteristics of pulsating direction were identified. It is also identified that high vapor pressure gradient is one of key parameters for better heat transfer performance.
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Design of Insulation and Bending Test for a 154 kV Class HTS Cable
Jin Wook Choi, Jae Hyeong Choi, Eung Choon Lim, Hae Jong Kim, Jeon Wook Cho, Sang Hyun Kim
J Electr Electron Mater 2008;21(11):1024-1028.   Published online November 1, 2008
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