Design and Development of Ferroelectric Material for Microstrip Patch Array Antenna
This paper presents the utilizing of ferroelectric
material on antenna application. There are two different ferroelectric
had been used on the proposed antennas which include of Barium
Strontium Titanate (BST) and Bismuth Titanate (BiT), suitable for
Access Points operating in the WLAN IEEE 802.11 b/g and WiMAX
IEEE 802.16 within the range of 2.3 GHz to 2.5 GHz application.
BST, which had been tested to own a dielectric constant of εr = 15
while BiT has a dielectric constant that higher than BST which is εr =
21 and both materials are in rectangular shaped. The influence of
various parameters on antenna characteristics were investigated
extensively using commercial electromagnetic simulations software
by Communication Simulation Technology (CST). From theoretical
analysis and simulation results, it was demonstrated that ferroelectric
material used have not only improved the directive emission but also
enhanced the radiation efficiency.
[1] J. R. Sohn, K. Y. Kim, and H.S. Tae, "Comparative Study on Various
Artificial Magnetic Conductor for Low Profile Antenna," Progress In
Electromagnetics Research, PIER 61, 27-37, 2006.
[2] Hongyan Miao & Yaohui Zhou & Guoqiang Tan & Min Dong ,"
Microstructure and Dielectric Properties of Ferroelectric Barium
Strontium Titanate Ceramics prepared by Hydrothermal Method," J
Electroceram DOI 10.1007/s10832-007-9244-x Springer Science
Business Media, LLC 2007.
[3] Li B., Wu B., and Liang C.H., "Study on High Gain Circular Waveguide
Array Antenna with Metamaterial Structure," Progress In
Electromagnetic Research, PIER 60, 207-219, 2006.
[4] Shok Theng Low, Zhipeng Wu, "Microstrip Coupled Rectangular
Dielectric Resonator Antennas on Different Substrates Antenna
Technology: Small and Smart Antennas Metamaterials and
Applications" IWAT '07. International Workshop Page(s):341 - 344,on
21-23 March 2007.
[5] K. Pliakostathis, D. Mirshekar-Syahkal, "A novel enclosed cylindrical
dielectric resonator antenna" Antennas and Propagation Society
International Symposim, IEEE Vil.4, 16-21 June 2002, Page(s): 474-
477.
[6] Tsugawa et al:"High Gain Antenna Loaded by a Dielectric," National
Convention of IEICE, Japan, March 1987, Page(s): 120.
[7] Heng-Ming Deng; Tsung-Wen Chen; Hsiao-Hsun Kan; "A CPW-fed
rectangular dielectric resonator antenna" Microwave Conference, 2001.
APMC 2001. 2001 Asia-Pacific vol.2, 3-6 Dec. 2001 page(s): 954 - 957.
[8] Capozzoli and G. D-Elia, "Global Optimization and Antennas Synthesis
and Diagnosis, Part Two: Applications to Advanced Reflector Antennas
Synthesis and Diagnosis Techniques," Progress In Electromagnetics
Research, PIER 56, 233-261, 2006.
[9] Mongia R. K. and Bhartia P., "Dielectric Resonator Antennas - A
Review and General Relations for Resonant Frequency and Bandwidth",
Int. Journal of Microwave and Millimetre Wave Computer-Aided
Engineering, Vol. 4, No. 3, page(s): 230-247, 1994.
[10] N.V Larsen, O. Breinbierg, "Analysis of Circularly Polarized
Hemispheroidal Dielectric Resonator Antenna Phased Arrays Using the
Method of Auxiliary Sources", IEEE Transactions on Antenna and
Propagation, Vol 55, Issue 8, Aug.2007 Page(s)2163-2173.
[1] J. R. Sohn, K. Y. Kim, and H.S. Tae, "Comparative Study on Various
Artificial Magnetic Conductor for Low Profile Antenna," Progress In
Electromagnetics Research, PIER 61, 27-37, 2006.
[2] Hongyan Miao & Yaohui Zhou & Guoqiang Tan & Min Dong ,"
Microstructure and Dielectric Properties of Ferroelectric Barium
Strontium Titanate Ceramics prepared by Hydrothermal Method," J
Electroceram DOI 10.1007/s10832-007-9244-x Springer Science
Business Media, LLC 2007.
[3] Li B., Wu B., and Liang C.H., "Study on High Gain Circular Waveguide
Array Antenna with Metamaterial Structure," Progress In
Electromagnetic Research, PIER 60, 207-219, 2006.
[4] Shok Theng Low, Zhipeng Wu, "Microstrip Coupled Rectangular
Dielectric Resonator Antennas on Different Substrates Antenna
Technology: Small and Smart Antennas Metamaterials and
Applications" IWAT '07. International Workshop Page(s):341 - 344,on
21-23 March 2007.
[5] K. Pliakostathis, D. Mirshekar-Syahkal, "A novel enclosed cylindrical
dielectric resonator antenna" Antennas and Propagation Society
International Symposim, IEEE Vil.4, 16-21 June 2002, Page(s): 474-
477.
[6] Tsugawa et al:"High Gain Antenna Loaded by a Dielectric," National
Convention of IEICE, Japan, March 1987, Page(s): 120.
[7] Heng-Ming Deng; Tsung-Wen Chen; Hsiao-Hsun Kan; "A CPW-fed
rectangular dielectric resonator antenna" Microwave Conference, 2001.
APMC 2001. 2001 Asia-Pacific vol.2, 3-6 Dec. 2001 page(s): 954 - 957.
[8] Capozzoli and G. D-Elia, "Global Optimization and Antennas Synthesis
and Diagnosis, Part Two: Applications to Advanced Reflector Antennas
Synthesis and Diagnosis Techniques," Progress In Electromagnetics
Research, PIER 56, 233-261, 2006.
[9] Mongia R. K. and Bhartia P., "Dielectric Resonator Antennas - A
Review and General Relations for Resonant Frequency and Bandwidth",
Int. Journal of Microwave and Millimetre Wave Computer-Aided
Engineering, Vol. 4, No. 3, page(s): 230-247, 1994.
[10] N.V Larsen, O. Breinbierg, "Analysis of Circularly Polarized
Hemispheroidal Dielectric Resonator Antenna Phased Arrays Using the
Method of Auxiliary Sources", IEEE Transactions on Antenna and
Propagation, Vol 55, Issue 8, Aug.2007 Page(s)2163-2173.
@article{"International Journal of Electrical, Electronic and Communication Sciences:55221", author = "F.H.Wee and F. Malek", title = "Design and Development of Ferroelectric Material for Microstrip Patch Array Antenna", abstract = "This paper presents the utilizing of ferroelectric
material on antenna application. There are two different ferroelectric
had been used on the proposed antennas which include of Barium
Strontium Titanate (BST) and Bismuth Titanate (BiT), suitable for
Access Points operating in the WLAN IEEE 802.11 b/g and WiMAX
IEEE 802.16 within the range of 2.3 GHz to 2.5 GHz application.
BST, which had been tested to own a dielectric constant of εr = 15
while BiT has a dielectric constant that higher than BST which is εr =
21 and both materials are in rectangular shaped. The influence of
various parameters on antenna characteristics were investigated
extensively using commercial electromagnetic simulations software
by Communication Simulation Technology (CST). From theoretical
analysis and simulation results, it was demonstrated that ferroelectric
material used have not only improved the directive emission but also
enhanced the radiation efficiency.", keywords = "Ferroelectric material, WLAN, WiMAX, dielectric
constant", volume = "6", number = "2", pages = "194-4", }