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22 results on '"Akihiro Daikoku"'

2. Wide Speed Range Operation by Low-Voltage Inverter-Fed MATRIX Motor for Automobile Traction Motor

Author

Hideaki Arita, Akihiro Daikoku, Yuki Sakai, Hiroki Hijikata, Yoshihiro Miyama, and Kan Akatsu

Subjects
Electric motor, Universal motor, Engineering, Torque motor, business.industry, 020208 electrical & electronic engineering, 05 social sciences, 02 engineering and technology, AC motor, DC motor, Traction motor, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Brushed DC electric motor, 0501 psychology and cognitive sciences, Electrical and Electronic Engineering, Synchronous motor, business, 050107 human factors
Abstract

This research proposes a novel low-voltage inverter-fed motor drive with variable parameters achieved through the independent armature winding for the automobile traction motor. The independent armature winding with low-voltage inverters can improve the total efficiency by reducing the converter losses. The inverters are able to change their connections to different coils groups of the armature winding in order to achieve the wide operating range. The voltage equation of each mode can be shown by using the transformation matrix when the winding connection is changed. Thus, the proposed motor is called the MATRIX motor. In this paper, the downsized model was designed to verify the principle. The principle model is able to achieve four motor parameters. It was confirmed that the principle model could extend the operating range and could achieve the high-efficiency driving in wide speed range. Furthermore, the novel winding reconfiguration method is proposed that not only avoids the surge voltage, but also compensates the torque reduction during the winding reconfigurations.

Published
2018

3. Design and Manufacture of Half-Size 3-T High-Temperature Superconducting Magnet for MRI

Author

Ryo Eguchi, Hajime Tanabe, Shoichi Yokoyama, Tetsuya Matsuda, Akihiro Daikoku, Tatsuya Inoue, T. Nagahiro, T. Morita, S. Otake, and Masayoshi Oya

Subjects
010302 applied physics, Superconductivity, Materials science, business.industry, Superconducting magnet, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Magnetic field, Optics, Electromagnetic coil, Magnet, 0103 physical sciences, Electromagnetic shielding, Electrical and Electronic Engineering, 010306 general physics, business, Electrical conductor, Excitation
Abstract

A new high-temperature superconducting (HTS) application project supported by the New Energy and Industrial Technology Development Organization (NEDO) started in July 2016. One of the targets of this project is to demonstrate the half-size of whole-body magnetic resonance imaging (MRI) system using HTS magnets with REBCO conductors. In the first phase of this project (FY2016–FY2018), a three-tesla magnet with an active shield will be manufactured. The room-temperature bore of the magnet is 480 mm in diameter. The magnet will be cooled down to lower than 20 K with a G-M refrigerator and the MR imaging will be performed to evaluate the magnetic field uniformity and stability. The design of the half-size 3-T coil has been finished: it consists of 220 single-pancake coils, and it has an inner diameter of 560 mm, an outer diameter of 1200 mm, and an axial length of 1000 mm. The rated current is 148 A and the stored energy at the rated excitation is 1.58 MJ. The designed magnetic field homogeneity is 1.7 ppm (250 mm DSV) which is adequate for MR imaging. Furthermore, the fringe field is suppressed by active shielding technology. The number of 53 single-pancake coils was manufactured in FY2016, and the yield rate was about 95%.

Published
2018

4. PWM Carrier Harmonic Iron Loss Reduction Technique of Permanent-Magnet Motors for Electric Vehicles

Author

Norihiro Watanabe, Masaya Inoue, Yoshihiro Miyama, Moriyuki Hazeyama, Shota Hanioka, and Akihiro Daikoku

Subjects
Engineering, business.product_category, business.industry, 020208 electrical & electronic engineering, Electrical engineering, 020302 automobile design & engineering, 02 engineering and technology, AC motor, Industrial and Manufacturing Engineering, Automotive engineering, Harmonic analysis, 0203 mechanical engineering, Control and Systems Engineering, Electromagnetic coil, Magnet, Electric vehicle, 0202 electrical engineering, electronic engineering, information engineering, Harmonic, Electrical and Electronic Engineering, business, Synchronous motor, Pulse-width modulation
Abstract

This paper investigates a method to increase fuel economy of motors for an electric vehicle (EV) traction system. The low-torque region of an EV motor is frequently used in everyday urban driving and in fuel economy measurement. Pulsewidth modulation (PWM) carrier harmonic iron loss accounts for a high percentage of total loss for EV motors in this region. This paper reveals the relationship between phase current and carrier harmonic iron loss for a permanent-magnet synchronous motor (PMSM) in the low-torque region. Thus, a novel carrier harmonic loss reduction technique is proposed and applied to two sets of three-phase windings for a concentrated winding PMSM. The loss is successfully reduced in a 70-kW EV motor as well as a two-dimensional finite-element method (2-D-FEM) calculation. The efficiency of the developed motor is calculated and compared with that of a conventional motor in the JC08 mode driving cycle.

Published
2016

5. Development of Variable Stress Applying System for Shrink Fitting of Stator Housing in IPM Motor

Author

Masaki Yamada, J. Kitao, J. Aizawa, Masatsugu Nakano, and Akihiro Daikoku

Subjects
Operating point, Materials science, business.industry, Stator, Shrink-fitting, Structural engineering, law.invention, Stress (mechanics), Compressive strength, law, Torque, Oil pressure, Transformer, business
Abstract

High efficiency electrical machines such as rotating machines and transformers are expected to be realized for solving the environmental problem. It is well known that the iron loss of stator core for rotating machines increases by a mechanical stress caused by the shrink fitting of the stator housing. In order to clarify the influence of the mechanical stress to the characteristics of rotating machines, several papers [1]– [6] describe the simulation technic such as the combined analysis of a mecahnical stress and an electromagnetic field. In this paper, we develops the variable applying stress system with the hydraulic unit to clarify the influence of the shrink fitting to the motor characteristics. Fig. 1 shows the schematic of the variable applying stress system. We designed these system following three requirement. (a) The circumferential compressive stress of the stator core caused by these system is more than 100 MPa. (b) These system can adjusts the circumferential compressive stress of the stator core at an interval of 1 MPa. (c) These system uniformly applies the circumferential compressive stress of the stator core in the axial and circumferential direction. In order to realize the concept of these three points, these system is adopted the hydraulic mechanism. When the hydraulic unit applies the oil pressure to the oil room, the pressure bulk head is deformed by the oil pressure and consequently the circumferential compressive stress is generated in the stator core. These system can adjusts the circumferential compressive stress of the stator core by the oil pressure of the hydraulic unit. The circumferential compressive stress, which is measured by eight biaxial strain gages installed on the surface of the back-iron for the stator core, is changed linearly with respect to the applied oil pressure by the hydraulic unit, and the maximum circumferential compressive stress is generated more than 100 MPa under the oil pressure 15 MPa. Fig. 2 shows the measurement results of the iron loss in no-load with respect to the applied oil pressure by the hydraulic unit. The load motor rotates the test motor, which is adopted the interior permanent magnet motor with concentrated winding, at a constant rotating speed. Then, the loss of the test motor with the unmagnetized and magnetized permanent magnet rotor in no-load is measured by the torque detector. The iron loss of the test motor is calculated by a difference between the loss of the test motor with the magnetized permanent magnet rotor ant it with the unmagnetized permanent magnet rotor, which is included only the mechanical loss without the iron loss. As the applied oil pressure increases, the iron loss is gradually increased and the iron loss under the circumferential compressive stress of 100 MPa (applied oil pressure 15 MPa) in the stator core is increased by 2 times compared with the non-stress. As explained above, the proposed system can measures the iron loss of the actual motor under mechanical stress with various operating point. The more measurement results will be included in the full paper.

Published
2018

6. The examination of pole geometry of consequent pole type ferrite PM axial gap motor with field winding

Author

Toru Ogawa, Akihiro Daikoku, Tomohira Takahashi, Masatsugu Takemoto, and Satoshi Ogasawara

Subjects
Engineering, Pole piece, business.industry, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, 02 engineering and technology, Field coil, Magnetic flux, Magnetic circuit, Electromagnetic coil, Magnet, 0202 electrical engineering, electronic engineering, information engineering, Ferrite (magnet), Torque, Composite material, business
Abstract

This paper presents the examination of consequent pole type ferrite PM axial gap motor with field winding. Especially the configuration of magnet and rotor core is analyzed with equivalent magnetic circuit and 3D FEA. The prototype was assembled and the comparison between test result and analysis is also provided. It is confirmed that high torque and efficiency characteristic is achieved when the width of magnet and rotor core are 21 deg. and 15 deg. (mechanical angle) respectively.

Published
2017

7. Homogenization method for laminated iron core taking account of hysteretic property

Author

Tetsuji Matsuo, Junji Kitao, Akihiro Daikoku, Koji Fujiwara, Akira Ahagon, and Yasuhito Takahashi

Subjects
010302 applied physics, Materials science, business.industry, Numerical models, Mechanics, Structural engineering, Magnetic hysteresis, 01 natural sciences, Homogenization (chemistry), Finite element method, Magnetic field, Magnetic core, Null vector, 0103 physical sciences, business
Abstract

This paper proposes a homogenization method for laminated iron core taking account of hysteretic property by using the isotropic vector play model. Furthermore, we apply the proposed homogenization method to finite element magnetic field analyses to demonstrate its effectiveness.

Published
2016

8. Verification of effect of damper windings on the transient condition of synchronous generator

Author

Hisao Taoka, Shigeru Iwamoto, Akihiro Daikoku, Junya Matsuki, and Yasuhiro Hayashi

Subjects
Physics, Engineering, Rotor (electric), business.industry, Stator, Fast Fourier transform, Electrical engineering, Energy Engineering and Power Technology, Permanent magnet synchronous generator, Structural engineering, Damper, law.invention, Electric power system, Control theory, Electromagnetic coil, law, Transient (oscillation), Electrical and Electronic Engineering, business, Rogowski coil, Armature (electrical engineering)
Abstract

This paper describes the results of an experimental investigation on the effects of the damper winding of a four-pole synchronous generator at a synchronous generator transient. It is known from simulations that the damper winding acts effectively under synchronous generator transient conditions. However, experimental proof has not been obtained yet. Thus, experiments on damper effects were conducted using a laboratory-scale power system. The damper winding of the tested generator consisted of five damper bars for each pole; the number of working damper bars could be changed manually. The damper currents at each bar were measured by a Rogowski coil. FFT analysis was applied to both the damper currents and armature currents under different operating conditions. The relationships between damper currents in the rotor and armature currents in the stator were made clearer than before. © 2012 Wiley Periodicals, Inc. Electr Eng Jpn, 180(2): 33–42, 2012; Published online in Wiley Online Library (wileyonlinelibrary.com). DOI 10.1002/eej.21278

Published
2012

9. Improvement of Three-phase Unbalance due to Connection of Dispersed Generator by Damper Windings of Synchronous Generator

Author

Hisao Taoka, Yasuhiro Hayashi, Shigeru Iwamoto, Junya Matsuki, and Akihiro Daikoku

Subjects
Physics, Engineering, business.industry, Energy Engineering and Power Technology, Permanent magnet synchronous generator, Line (electrical engineering), Damper, Generator (circuit theory), Electric power system, Shunt generator, Three-phase, Control theory, Electromagnetic coil, Electrical and Electronic Engineering, business, Voltage
Abstract

SUMMARY It is well known in the numerical simulations of a synchronous generator that the damper winding contributes to suppressing three-phase circuit unbalance in power systems. However, an experimental study has not been performed yet. In this paper, we verify experimentally the suppression of three-phase unbalance by the damper windings. In order to simulate the three-phase unbalance, a 470-W dispersed generator of single-phase two-line type was connected to a three-phase laboratory-scale power system that included a 6-kVA synchronous generator. We measured and analyzed line voltages and currents as well as damper bar currents both with and without the dispersed generator. The influence of damper windings on the unbalance of the three-phase circuit was also investigated. The results show that the damper winding contributes to improving the three-phase unbalance. © 2013 Wiley Periodicals, Inc. Electr Eng Jpn, 186(1): 43–50, 2014; Published online in Wiley Online Library (wileyonlinelibrary.com). DOI 10.1002/eej.22305

Published
2011

10. Cogging torque investigation of PM motors resulting from asymmetry property of magnetic poles: Influence of performance variation between permanent magnets

Author

Shinichi Yamaguchi and Akihiro Daikoku

Subjects
Physics, business.industry, Rotor (electric), Stator, Mathematical analysis, Electrical engineering, Cogging torque, Energy Engineering and Power Technology, law.invention, Magnetic field, Magnetization, Direct torque control, law, Harmonics, Magnet, Electrical and Electronic Engineering, business
Abstract

This paper examines the cogging torque of a permanent magnet (PM) motor resulting from the asymmetry property of magnetic poles, which comes from the performance variation between magnets. A PM motor with 32 poles (= 16 pole pairs) and 36 slots is selected for verification, because the motor whose pole/slot ratio is 8/9 is sensitive to the performance variation between permanent magnets. Assuming that two different magnetization levels of magnets are mixed together in one rotor, the amplitude of the 2.25th and 4.5th components of cogging torque, which show 36 (= 2.25 × 16) and 72 (= 4.5 × 16) times of pulsation per rotation respectively and both of which result from the asymmetry property of the magnetic poles, are evaluated. As a result, it is clarified that the cogging torque characteristics depend on the alignment pattern of the two kinds of magnets. The amplitudes of the 2.25th and 4.5th components of cogging torque are proportional respectively to the amplitude of the 36th and 72nd order harmonics of the squared magnetic flux density around the rotor which is set in the space without stator. Using the proportional constants found from the finite element analyses in some alignment patterns, the cogging torque amplitudes of the motors with other alignment patterns can be predicted by calculating the squared magnetic flux density around the rotor only. The predicted cogging torque amplitudes correspond to the actually calculated results. © 2008 Wiley Periodicals, Inc. Electr Eng Jpn, 163(3): 57– 67, 2008; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/eej.20669

Published
2008

11. Wide range operation by low-voltage inverter-fed MATRIX motor with single-layer distributed winding for automobile traction motor

Author

Yuki Sakai, Hideaki Arita, Yoshihiro Miyama, Hiroki Hijikata, Kan Akatsu, and Akihiro Daikoku

Subjects
Engineering, Universal motor, business.industry, Electrical engineering, Automotive engineering, law.invention, Traction motor, Motor drive, Electromagnetic coil, law, Inverter, business, Low voltage, Induction motor, Armature (electrical engineering)
Abstract

This research proposes a novel low-voltage inverter-fed motor drive with variable characteristics achieved through the individual winding current control for the automobile traction motor. The independent armature winding with low-voltage inverters can improve the total efficiency by reducing the converter losses. Furthermore, the motor can expand the operating range since the inverters are able to change their connections to different coils groups of the armature winding. In this paper, the down size model was designed to verify the principle. It was confirmed that the principle model can extend the operating range and can expand the high efficiency area by FEA and experimental results.

Published
2015

12. PWM carrier harmonic iron loss reduction technique of permanent magnet motors for electric vehicles

Author

Moriyuki Hazeyama, Masaya Inoue, Akihiro Daikoku, Yoshihiro Miyama, Shota Hanioka, and Norihiro Watanabe

Subjects
Electric motor, Engineering, Direct torque control, business.industry, Harmonic, Electrical engineering, Brushed DC electric motor, Permanent magnet synchronous generator, Synchronous motor, business, AC motor, Automotive engineering, Traction motor
Abstract

This paper is investigated to increase fuel economy of motor for electric vehicles (EVs) traction system. Low torque region of EV motor is frequently-used point in usual urban driving and in fuel economy measurement. Pulse-width modulation (PWM) carrier harmonic iron loss takes up high percentage for EV motors in this region. This paper reveals the relationship between phase current and carrier harmonic iron loss for permanent magnet synchronous motor (PMSM) in low torque region. Then, a novel carrier harmonic loss reduction technique is proposed, which is applied two set of three phase windings for concentrated winding PMSM. The loss reduction effect is tested successfully on a 70 kW EV motor as well as two dimensional finite element method (2D-FEM) calculation. The efficiency of developed motor is calculated and compared with that of conventional motor in JC08 mode driving cycle.

Published
2015

13. An accurate magnetic field analysis for estimating motor characteristics taking account of stress distribution in the magnetic core

Author

T. Yoshioka, Masatsugu Nakano, Y. Tani, Hideaki Arita, Shinichi Yamaguchi, C. Fujino, Yukari Toide, and Akihiro Daikoku

Subjects
Engineering, Deformation (mechanics), business.industry, Stator, Electrical engineering, Cogging torque, Mechanics, engineering.material, Industrial and Manufacturing Engineering, Finite element method, Magnetic field, law.invention, Stress (mechanics), Magnetic core, Control and Systems Engineering, law, Electrical and Electronic Engineering, business, Electrical steel
Abstract

This paper discusses an accurate magnetic field analysis that addresses stress distribution in the magnetic core by using the finite-element method (FEM) to estimate motor characteristics. This analysis method consists of the following steps: 1) measurement of the magnetic characteristics of electrical steel sheets in a state where stress is added; 2) calculation of deformation and stress distribution using structural analysis; 3) preprocessing of the magnetic field analysis, which generates the FEM mesh taking account of the deformation by stress and the changes of the magnetic properties in each of the core elements corresponding to stress distribution; and 4) magnetic field analysis using the data measured in step 1) and the FEM mesh generated in step 3). As an example, a result of a permanent magnet motor's cogging torque calculation is shown, focusing on stress in the stator core resulting from shrink fitting into the frame. As a result, the cogging torque waveform was shown to differ depending on the shape and the materials of the frame.

Published
2006

14. Cogging Torque Calculation of Permanent Magnet Motor Considering Stress Distribution in Magnetic Core

Author

Masatsugu Nakano, Shinichi Yamaguchi, Takashi Yoshioka, Chiyo Fujino, Yukari Toide, Hideaki Arita, Akihiro Daikoku, and Yoshihiro Tani

Subjects
Engineering, Magnetic core, business.industry, Cogging torque, Electrical engineering, Mechanical engineering, Permanent magnet motor, Electrical and Electronic Engineering, Stress distribution, business, Industrial and Manufacturing Engineering, Finite element method
Published
2006

16. Cogging torque calculation considering magnetic anisotropy for permanent magnet synchronous motors

Author

Norio Takahashi, Akihiro Daikoku, and Shinichi Yamaguchi

Subjects
Engineering, business.industry, Applied Mathematics, Electrical engineering, Cogging torque, Mechanics, Finite element method, Computer Science Applications, Quantitative Biology::Quantitative Methods, Magnetic anisotropy, Magnetization, Amplitude, Computational Theory and Mathematics, Direct torque control, Magnet, Waveform, Electrical and Electronic Engineering, business
Abstract

This paper describes the cogging torque of the permanent magnet synchronous (PM) motors due to the magnetic anisotropy of motor core. The cogging torque due to the magnetic anisotropy is calculated by the finite element method using two kinds of modeling methods: one is the 2D magnetization property method, and the other is the conventional method. As a result, the PM motors with parallel laminated core show different cogging torque waveform from the PM motors with the rotational laminated core due to the influence of the magnetic anisotropy. The amplitudes of the cogging torque are different depending on the modeling methods in the region of high flux density.

Published
2004

17. Noise Reduction of the DC Motor for the Electrical Power Steering by Short Circuit Wires for Symmetrical Position

Author

Masafumi Okazaki, Akihiko Imagi, Yoshio Yoshikuwa, Toshinori Tanaka, and Akihiro Daikoku

Subjects
Engineering, Universal motor, business.industry, Stator, Noise reduction, Contact resistance, Electrical engineering, Brush, DC motor, Industrial and Manufacturing Engineering, law.invention, law, Electrical and Electronic Engineering, business, Short circuit, Armature (electrical engineering)
Abstract

The market of the electrical power steering is expanding rapidly because of its fuel efficiency. The DC motor is generally used in this system, whose noise reduction is demanded. The DC motor has some dispersion in contact number of segments or contact resistance between the brush and the commutator. When these conditions are different with plural brushes, currents in armature coils are in asymmetrical distribution and the unbalanced magnetic pull occurs in radial direction.We measured the radial force and currents in armature coils with the developed experimental apparatus that can also set up the eccentricity of rotor to stator. In this paper, we investigated the factor and the process of the radial force generated in the DC motor. Then we propose short circuit wires for symmetrical position that makes winding current symmetrical and realizes the noise reduction.

Published
2002

18. Optimal field excitation control of a claw pole motor for hybrid electric vehicle

Author

M. Azuma, M. Morita, Y. Kuroda, M. Hazeyama, Masaya Inoue, and Akihiro Daikoku

Subjects
Electric motor, Engineering, business.product_category, business.industry, AC motor, Automotive engineering, Traction motor, Direct torque control, Control theory, Electric vehicle, Brushed DC electric motor, business, Synchronous motor, Induction motor
Abstract

Permanent magnet synchronous motors (PMSMs) with rare-earth permanent magnets (PMs) are most popular for automotive applications in which high torque density and high efficiency are required. Because the rare-earth materials have risks of lacking stable supply, rare-earth-free motors such as claw pole motors are widely studied. This paper presents the driving characteristics of a claw pole motor with no use of heavy rare-earth materials. In this motor the magnetic flux density in the air gap can be controlled arbitrarily by controlling field current. This paper shows that the variable field excitation can contribute to enlarge high efficiency range compared with fixed field excitation. Moreover, the electricity consumption driven in the Japan's fuel economy criteria (JC08 cycle) as EV and HEV applications are discussed.

Published
2014

19. Recent technical trends in variable flux motors

Author

Yosuke Kawazoe, Akihiro Daikoku, Akio Toba, Yuichi Yoshikawa, and Noriyoshi Nishiyama

Subjects
Variable (computer science), Torque motor, Computer science, business.industry, Magnet, Torque density, Electrical engineering, Miniaturization, Mechanical engineering, Torque, Flux, business, Magnetic flux
Abstract

This paper reviews recent technical trends in variable flux motors. Permanent magnet motor is a major component to realize high torque density with keeping high efficiency. However, when high speed revolution is required for further miniaturization, as well as the large torque in the low speed region, the flux yielded by the permanent magnet encounters a serious trade-off, i.e. the former needs less flux and the latter requires much. The solution for this trade-off is varying the flux. In general, the flux of the permanent magnet is constant, and many efforts are under development to overcome this as to be shown in this paper.

Published
2014

20. Fundamental characteristics of a claw pole motor using additional ferrite magnets for HEV

Author

Akihiro Daikoku, M. Azuma, Masao Morita, Masaya Inoue, Moriyuki Hazeyama, and Y. Kuroda

Subjects
Electric motor, Claw, Engineering, Field (physics), business.industry, Rotor (electric), Electrical engineering, Magnetic flux leakage, Mechanical engineering, Finite element method, law.invention, law, Torque, business, Excitation
Abstract

This paper presents a specification of a claw pole motor that has a field excitation coil for hybrid electric vehicles. The characteristic of the claw pole motor is no use of Dy and Tb which can increase torque capability. The filed excitation which can be generated by controlling filed current in a rotor provides us controllable efficiency. Additional ferrite magnets are installed between the rotor poles for the purpose of increasing torque capability due to moderating magnetic saturation of each claw. FE analysis and experimental results are shown in this paper.

Published
2012

21. A high precision motor design method by finite element analysis considering stress distribution in stator core

Author

Shinichi Yamaguchi, Yukari Toide, T. Yoshioka, Masatsugu Nakano, Y. Tani, Akihiro Daikoku, Hideaki Arita, and C. Fujino

Subjects
Engineering, Deformation (mechanics), business.industry, Stator, Cogging torque, Mechanical engineering, Structural engineering, engineering.material, Finite element method, law.invention, Stress (mechanics), law, Magnet, Torque, business, Electrical steel
Abstract

In this paper we show a novel motor design method, considering stress distribution in the motor core. This method consists of several steps as follows: (a) measurement of magnetic characteristics of the electrical steel sheets in the state where the stress is added, (b) calculation of deformation and stress distribution using structural analysis, (c) pre-process of the magnetic field analysis, which makes FEM mesh deformed by the stress and changes the properties of each elements of the core corresponding to the distribution of the stress, and (d) magnetic field analysis using the measured data by step-(a) and the FEM mesh generated by step-(c). As an example, we show a result of cogging torque calculation of permanent magnet motors, considering the stress in the stator core resulting from shrink fitting in the frame. As a result, we show that the cogging torque waveform is different depending on the shape of the frame

Published
2005

22. An Advanced Electrical Power Steering Motor

Author

Akihiro Daikoku, Akihiko Imagi, Yoshio Yoshikuwa, and Toshinori Tanaka

Subjects
Engineering, business.industry, Electrical engineering, Electronic engineering, Electric power, business
Published
2000

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