Your search keyword '"Dong-Wook Seo"' showing total 8 results

1. Method for Adjusting Single Matching Network for High-Power Transfer Efficiency of Wireless Power Transfer System

Author

Jae-Ho Lee, Hyung-Soo Lee, and Dong-Wook Seo

Subjects

Power gain, Engineering, General Computer Science, business.industry, 020208 electrical & electronic engineering, Impedance matching, Impedance bridging, 020206 networking & telecommunications, 02 engineering and technology, Input impedance, Electronic, Optical and Magnetic Materials, Image impedance, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Damping factor, Electronic engineering, Maximum power transfer theorem, Output impedance, Electrical and Electronic Engineering, business

Abstract

A wireless power transfer (WPT) system is generally designed with the optimum source and load impedance in order to achieve the maximum power transfer efficiency (PTE) at a specific coupling coefficient. Empirically or intuitively, however, it is well known that a high PTE can be attained by adjusting either the source or load impedance. In this paper, we estimate the maximum achievable PTE of WPT systems with the given load impedance, and propose the condition of source impedance for the maximum PTE. This condition can be reciprocally applied to the load impedance of a WPT system with the given source impedance. First, we review the transducer power gain of a two-port network as the PTE of the WPT system. Next, we derive two candidate conditions, the critical coupling and the optimum conditions, from the transducer power gain. Finally, we compare the two conditions carefully, and the results therefore indicate that the optimum condition is more suitable for a highly efficient WPT system with a given load impedance.

Published

2016

2. Estimation of Incoherent Scattered Field by Multiple Scatterers in Random Media

Author

Jae-Ho Lee, Hyung Soo Lee, and Dong-Wook Seo

Subjects

Physics, Permittivity, 020301 aerospace & aeronautics, Radar cross-section, General Computer Science, Field (physics), Scattering, business.industry, Computation, Incoherent scatter, 020206 networking & telecommunications, 02 engineering and technology, Method of moments (statistics), Electronic, Optical and Magnetic Materials, Computational physics, Optics, 0203 mechanical engineering, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Intensity (heat transfer)

Abstract

This paper proposes a method to estimate directly the incoherent scattered intensity and radar cross section (RCS) from the effective permittivity of a random media. The proposed method is derived from the original concept of incoherent scattering. The incoherent scattered field is expressed as a simple formula. Therefore, to reduce computation time, the proposed method can estimate the incoherent scattered intensity and RCS of a random media. To verify the potential of the proposed method for the desired applications, we conducted a Monte-Carlo analysis using the method of moments; we characterized the accuracy of the proposed method using the normalized mean square error (NMSE). In addition, several medium parameters, such as the density of scatterers and analysis volume, were studied to understand their effect on the scattering characteristics of a random media. The results of the Monte-Carlo analysis show good agreement with those of the proposed method, and the NMSE values of the proposed method and Monte-Carlo analysis are relatively small at less than 0.05.

Published

2016

3. A Study on Two-coil and Four-coil Wireless Power Transfer System Using Z-parameter Approach

Author

Jae-Ho Lee, Hyung Soo Lee, and Dong-Wook Seo

Subjects

Power gain, General Computer Science, business.industry, Computer science, 020208 electrical & electronic engineering, Electrical engineering, 020206 networking & telecommunications, 02 engineering and technology, Electronic, Optical and Magnetic Materials, law.invention, Two-port network, law, Electromagnetic coil, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Wireless power transfer, Electrical and Electronic Engineering, business

Abstract

A wireless power transfer (WPT) system is usually classified as being of either a two-coil or four-coil type. It is known that two-coil WPT systems...

Published

2016

4. Design of Implantable Rectangular Spiral Antenna for Wireless Biotelemetry in the MICS Band

Author

Jae-Ho Lee, Dong-Wook Seo, and Hyung Soo Lee

Subjects

Engineering, General Computer Science, Coaxial antenna, Loop antenna, business.industry, Antenna measurement, Electrical engineering, Antenna factor, Antenna tuner, Electronic, Optical and Magnetic Materials, Antenna efficiency, Electrical and Electronic Engineering, Antenna (radio), business, Monopole antenna, Computer Science::Information Theory

Abstract

For this study, we designed an implantable rectangular spiral antenna for medical biotelemetry in the Medical Implant Communications Service band (402 MHz to 405 MHz). The designed antenna has a U-shaped loop for impedance matching. The antenna impedance is easily adjusted by controlling the shape and length of the U-shaped loop. Significant design parameters were studied to understand their effects on the antenna performance. To verify the potential of the antenna for the desired applications, we fabricated a prototype and measured its performance in terms of the resonant characteristics and gain radiation patterns of the antenna. In the testing phase, the prototype antenna was embedded in human skin tissue-emulating gel, which was developed to simulate a real operation environment. The measured resonant characteristics show good agreement with the simulations, and the -10 dB frequency band is within the range of 398 MHz to 420 MHz. The antenna exhibits a maximum gain of -22.26 dBi and an antenna efficiency of 0.215%.

Published

2014

5. Method for Adjusting Single Matching Network for High-Power Transfer Efficiency of Wireless Power Transfer System.

Author

Dong-Wook Seo, Jae-Ho Lee, and Hyungsoo Lee

Subjects

ELECTRIC power transmission, WIRELESS power transmission, ELECTRIC impedance, TRANSDUCERS, RESONANCE frequency analysis

Abstract

A wireless power transfer (WPT) system is generally designed with the optimum source and load impedance in order to achieve the maximum power transfer efficiency (PTE) at a specific coupling coefficient. Empirically or intuitively, however, it is well known that a high PTE can be attained by adjusting either the source or load impedance. In this paper, we estimate the maximum achievable PTE of WPT systems with the given load impedance, and propose the condition of source impedance for the maximum PTE. This condition can be reciprocally applied to the load impedance of a WPT system with the given source impedance. First, we review the transducer power gain of a two-port network as the PTE of the WPT system. Next, we derive two candidate conditions, the critical coupling and the optimum conditions, from the transducer power gain. Finally, we compare the two conditions carefully, and the results therefore indicate that the optimum condition is more suitable for a highly efficient WPT system with a given load impedance. [ABSTRACT FROM AUTHOR]

Published

2016

6. Study on Two-Coil and Four-Coil Wireless Power Transfer Systems Using Z-Parameter Approach.

Author

Dong-Wook Seo, Jae-Ho Lee, and Hyung Soo Lee

Subjects

WIRELESS power transmission, MATCHING theory, TRANSDUCERS, MAXIMUM power transfer theorem, ELECTRIC power systems

Abstract

A wireless power transfer (WPT) system is usually classified as being of either a two-coil or four-coil type. It is known that two-coil WPT systems are suitable for shortrange transmissions, whereas four-coil WPT systems are suitable for mid-range transmissions. However, this paper reveals that the two aforementioned types of WPT system are alike in terms of their performance and characteristics, differing only when it comes to their matching-network configurations. In this paper, we first find the optimum load and source conditions using Z-parameters. Then, we estimate the maximum power transfer efficiency under the optimum load and source conditions, and we describe how to configure the matching networks pertaining to both types of WPT system for the given optimum load and source conditions. The two types of WPT system show the same performance with respect to the coupling coefficient and load impedance. Further, they also demonstrate an identical performance in the two cases considered in this paper, that is, a strong-coupled case and a weak-coupled case. [ABSTRACT FROM AUTHOR]

Published

2016

7. Estimation of Incoherent Scattered Field by Multiple Scatterers in Random Media.

Author

Dong-Wook Seo, Jae-Ho Lee, and Hyung Soo Lee

Subjects

COHERENT radar, INCOHERENT scattering, PARAMETER estimation, MEAN square algorithms, MONTE Carlo method

Abstract

This paper proposes a method to estimate directly the incoherent scattered intensity and radar cross section (RCS) from the effective permittivity of a random media. The proposed method is derived from the original concept of incoherent scattering. The incoherent scattered field is expressed as a simple formula. Therefore, to reduce computation time, the proposed method can estimate the incoherent scattered intensity and RCS of a random media. To verify the potential of the proposed method for the desired applications, we conducted a Monte-Carlo analysis using the method of moments; we characterized the accuracy of the proposed method using the normalized mean square error (NMSE). In addition, several medium parameters, such as the density of scatterers and analysis volume, were studied to understand their effect on the scattering characteristics of a random media. The results of the Monte-Carlo analysis show good agreement with those of the proposed method, and the NMSE values of the proposed method and Monte-Carlo analysis are relatively small at less than 0.05. [ABSTRACT FROM AUTHOR]

Published

2016

8. Design of Implantable Rectangular Spiral Antenna for Wireless Biotelemetry in MICS Band.

Author

Jae-Ho Lee, Dong-Wook Seo, and Hyung Soo Lee

Subjects

SPIRAL antennas, MOLECULAR integrated circuits, ELECTRIC impedance, WIRELESS communications, BIOTELEMETRY, COMPUTER simulation

Abstract

For this study, we designed an implantable rectangular spiral antenna for medical biotelemetry in the Medical Implant Communications Service band (402 MHz to 405 MHz). The designed antenna has a U-shaped loop for impedance matching. The antenna impedance is easily adjusted by controlling the shape and length of the Ushaped loop. Significant design parameters were studied to understand their effects on the antenna performance. To verify the potential of the antenna for the desired applications, we fabricated a prototype and measured its performance in terms of the resonant characteristics and gain radiation patterns of the antenna. In the testing phase, the prototype antenna was embedded in human skin tissue-emulating gel, which was developed to simulate a real operation environment. The measured resonant characteristics show good agreement with the simulations, and the -10 dB frequency band is within the range of 398 MHz to 420 MHz. The antenna exhibits a maximum gain of -22.26 dBi and an antenna efficiency of 0.215%. [ABSTRACT FROM AUTHOR]

Published

2015