Proceedings of The 8th IIAE International Conference on Industrial Application Engineering 2020 The Institute of Industrial Applications Engineers 144 - 151 2020/03 [Refereed]
The IEICE transactions on electronics C The Institute of Electronics, Information and Communication Engineers 87 (12) 1155 - 1162 1345-2827 2004/12 [Refereed]
The Transactions of the Institute of Electronics, Information and Communication Engineers C The Institute of Electronics, Information and Communication Engineers 87 (5) 444 - 451 1345-2827 2004/05 [Refereed]
The Transactions of the Institute of Electronics,Information and Communication Engineers B The Institute of Electronics, Information and Communication Engineers 84 (3) 544 - 550 1344-4697 2001/03 [Refereed]
The Transactions of the Institute of Electronics,Information and Communication Engineers B The Institute of Electronics, Information and Communication Engineers 83 (4) 544 - 553 1344-4697 2000/04 [Refereed]
The Transactions of the Institute of Electronics,Information and Communication Engineers B The Institute of Electronics, Information and Communication Engineers 83 (1) 128 - 130 1344-4697 2000/01 [Refereed]
The Transactions of the Institute of Electronics,Information and Communication Engineers B The Institute of Electronics, Information and Communication Engineers 82 (4) pp.667 - 673 1344-4697 1999/04 [Refereed]
Japan Society for the Promotion of Science:Grants-in-Aid for Scientific Research
Date (from‐to) : 2014 -2016
Author : KUSAMA YUSUKE
Following results were obtained as a part of the development of RF design engineer development program. (1) Design, fabrication and measuring process of waveguide reactance elements were studied. It was found that the capacitive window requires twice the accuracy of the inductive window. (2) An experiment program for a microstrip quarter wavelength basic circuit fabrication was developed. The design theory and fabrication process necessary for beginners were noted in detail. (3) The cause of the error in the design and fabrication of a microstrip exponential taper impedance transformer was solved. It was found the dynamic range of the measuring instrument was important than the manufacturing error. (4) Focusing on the two-dimensional FDTD method, CAE educational program for computing and visualizing the electromagnetic near field distribution for various antennas were developed.