@article{ART001941647},
author={박한영 and Choi, Jae Yeon and Young-Ho Song},
title={Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch},
journal={Journal of Knowledge Information Technology and Systems},
issn={1975-7700},
year={2014},
volume={9},
number={6},
pages={715-721}
TY - JOUR
AU - 박한영
AU - Choi, Jae Yeon
AU - Young-Ho Song
TI - Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch
JO - Journal of Knowledge Information Technology and Systems
PY - 2014
VL - 9
IS - 6
PB - Korea Knowledge Information Technology Society
SP - 715
EP - 721
SN - 1975-7700
AB - The Microstrip patch antenna with the edge-truncation is designed and analyzed. This antenna elements radiate efficiently as devices on microstrip printed circuit boards. Microstrip antenna arrays consist of microstrip antenna elements, feed and phasing networks, and any other microstrip devices. This patch antenna can be used alone as single radiators or as elements of microstrip phased arrays. The most commonly used microstrip element consists of a rectangular element that is photo etched from one side of a printed circuit board. The element is fed with a coaxial feed at the side of the board between the patch strip and the ground plane through the probe. Truncating the diagonally faced two edge by the shape of the triangle in the patch, right-hand circularly polarized wave can be radiated through this antenna with the cross shape slot in the ground plane. The antenna characteristic can be varied by the controlling the size of the truncated triangle and the size of the cross slot in the ground. And the antenna, its centor frequency is 2.4GHz, was simulated using high frequency structure simulator, then was implemented with the board having the relative permittivity =4.4 and measured using network analyzer. The simulated results are well matched with the measured. The ground plane has the cross shape slot in the centor of the ground for the antenna bandwidth.
KW - edge trucation;rectangular patches;modified ground plane;RHCP
DO -
UR -
ER -
박한영, Choi, Jae Yeon and Young-Ho Song. (2014). Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch. Journal of Knowledge Information Technology and Systems, 9(6), 715-721.
박한영, Choi, Jae Yeon and Young-Ho Song. 2014, "Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch", Journal of Knowledge Information Technology and Systems, vol.9, no.6 pp.715-721.
박한영, Choi, Jae Yeon, Young-Ho Song "Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch" Journal of Knowledge Information Technology and Systems 9.6 pp.715-721 (2014) : 715.
박한영, Choi, Jae Yeon, Young-Ho Song. Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch. 2014; 9(6), 715-721.
박한영, Choi, Jae Yeon and Young-Ho Song. "Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch" Journal of Knowledge Information Technology and Systems 9, no.6 (2014) : 715-721.
박한영; Choi, Jae Yeon; Young-Ho Song. Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch. Journal of Knowledge Information Technology and Systems, 9(6), 715-721.
박한영; Choi, Jae Yeon; Young-Ho Song. Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch. Journal of Knowledge Information Technology and Systems. 2014; 9(6) 715-721.
박한영, Choi, Jae Yeon, Young-Ho Song. Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch. 2014; 9(6), 715-721.
박한영, Choi, Jae Yeon and Young-Ho Song. "Implementation of the Microstrip Patch Antenna with the Modified Ground Plane and Patch" Journal of Knowledge Information Technology and Systems 9, no.6 (2014) : 715-721.
