Analysis and design of substrate integrated waveguide based leaky wave antennas and compact self-quadruplexing antenna
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Date
2021-11
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G.B. Pant University of Agriculture and Technology, Pantnagar - 263145 (Uttarakhand)
Abstract
The presented work includes different Substrate integrated waveguide (SIW) based leaky-wave antenna (LWA) for beam steering applications. Phased-array antennas, which offer beam steering capabilities by tuning the phases of individual radiating elements, are most commonly used in beam steering applications. However, the tunable phase shifters utilized are limited by the continuity of the phase shift. In contrast, frequency beam steering offers a more economical and convenient solution for a number of applications. This thesis focuses on the solutions of the problems like Open Stop Band (OSB) and beam scanning coverage area. The OSB problem is solved using the impedance matching and lumped modeling technique. In the first contribution, beam steering is defined, and enhanced technology based on a dispersive element is proposed. The dispersive element is used to engineer the slope of the dispersion curve of the unit cell in LWA. Though having a flat response in its dispersion curve, the beam steering coverage is enhanced. The proposed LWA has the capability to cover the entire range 360° of E-plane. In the second contribution, improved impedance balanced condition based on the distributed transmission line model is derived in periodic LWA based on EH2-mode are designed. The EH2-mode LWA has beam steering capabilities from backward to forward quadrants in a quasi-E plane. In the third contribution, two-dimensional beam steering is achieved by incorporating the LWA with the R-KR lens beamforming. By changing the ports of the R-KR lens, antenna beam scans in the E-plane, while by changing the operating frequencies beam scan in the Hplane has been achieved. In the fourth contribution, a SIW-based self-quadruplexing antenna is proposed. This design eliminates the need for employing external circuitry in quadruplexes design. The fabricated prototype responses closely matched theoretical predictions, verifying the proposed concept.