Single Slot Cavity Antennas Assembly
Onb17ch002e Antenna Assembly
- Deschamps, G.A.: Microstrip Microwave Antennas. In: Presented at the 3rd USAF Symposium on Antennas (1953)Google Scholar
- Gulton, I.L., Bassinot, G.: Flat aerial for ultra high frequencies. French Patent No. 703113 (1955)Google Scholar
- Lewin, L.: Radiation from discontinuities in strip lines. Proc. IEEE 107, 163–170 (1960)MathSciNetGoogle Scholar
- Munson, R.: Single slot cavity antennas assembly. US Patent No. 3713162 (1973)Google Scholar
- Munson, R.: Conformal microstrip antennas and microstrip phased arrays. IEEE Trans. Antennas Propag. 22, 74–78 (1974)CrossRefGoogle Scholar
- Munson, R.: Conformal microstrip antennas and microstrip phased arrays. IEEE Trans. Antennas Propag. 22, 74–78 (1974)CrossRefGoogle Scholar
- Rowe, W.S.T., Waterhouse, R.B.: Broadband microstrip patch antenna for MMICs. Electron. Lett. 36, 597–599 (2000)CrossRefGoogle Scholar
- Hsu, W.H., Wong, K.L.: A wideband circular patch antenna. Microwave Opt. Technol. Lett. 25, 327–328 (2000)3.0.CO%3B2-D'>CrossRefGoogle Scholar
- Carver, K.R., Mink, J.W.: Microstrip antenna technology. IEEE Trans. Antennas Propag. 29(1), 2–14 (1981)CrossRefGoogle Scholar
- Richards, W.F., Lo, Y.T., Harrison, D.D.: An improved theory for microstrip antennas and applications. IEEE Trans. Antennas Propag. AP-29, 38–46 (1981)Google Scholar
- James, J.R., Hall, P.S., Wood, C.: Microstrip Antenna Theory and Design. Peter Peregrinus, Stevenage, UK (1981)CrossRefGoogle Scholar
- Mok, W.C., Wong, S.H., Luk, K.M., Lee, K.F.: Single-layer single-patch dual-band and triple-band patch antennas. IEEE Trans. Antennas Propag. 61, 4341–4344 (2013)CrossRefGoogle Scholar
- Sabban, A.: New broadband stacked two-layer microstrip antenna. In: Proceedings of the IEEE AP-Symposium Digest, pp. 63–66 (1983)Google Scholar
- Mosig, J.R., Gardiol, F.E.: General integral equation formulation for microstrip antennas and scatters. IEEE Proc. 132(7), pt. H, 424–432 (1985)Google Scholar
- Pozar, D.M.: Microstrip antenna aperture-coupled to a microstripline. Electron. Lett. 21, 49–50 (1985)CrossRefGoogle Scholar
- Lee, R.Q., Lee, K.F., Bobinchak, J.: Characteristics of a two-layer electromagnetically coupled rectangular patch antenna. Electron. Lett. 23(20), 1070–1073 (1987)CrossRefGoogle Scholar
- Pinhas, S., Shtrikman, S.: Comparison between computed and measured bandwidth of quarter-wave microstrip radiators. IEEE Trans. Antennas Propag. AP-36(11), 1615–1616 (1988)Google Scholar
- James, J.R., Hall, P.S.: Handbook of Microstrip Antennas. Stevenage. Peter Peregrinus, UK (1989)Google Scholar
- Reineix, A., Jecko, B.: Analysis of microstrip patch antennas using the finite difference time domain method. IEEE Trans. Antennas Propag. 37(11), 1361–1369 (1989)CrossRefGoogle Scholar
- Bahl, I.J., Bhartia, P.: Microstrip Antennas. Artech House, Dedham, MA (1980)Google Scholar
Slot Antenna
Waveguide antennas, and the radiation efficiency of gap waveguide slot array antenna will be high and will be comparable to that of rectangular waveguide based slot array. Till now, few papers on antennas realized in gap waveguide technology have been published. Initial slot array work in single hard-wall waveguide has been described in 10. A waveguide antenna assembly includes a feedhorn having a cavity coupled to a waveguide polarizer. The waveguide polarizer includes a single aperture waveguide, septum-loaded waveguide, and a dual aperture waveguide coupled inline. The septum-loaded waveguide includes an internal septum and is formed from at least one internal wall having a varying thickness. Various embodiments of antenna assemblies are disclosed herein. In one embodiment, the antenna assembly includes a reflector comprising a center opening, a feed-antenna subassembly situated in front of the reflector, a rear housing situated behind the reflector, and a pole-mounting bracket comprising a base plate situated between the reflector and the rear housing. The previous page introducing slot antennas was primarily theoretical (giving you an intuitive idea of how slot antennas work); however, since it was about an infinite conducting plane it is not entirely practical. A practical slot antenna is the cavity-backed slot antenna.Unfortunately, the equations related to the cavity backed slot antenna are somewhat complicated and in my opinion don't.
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