Compact EH0-Mode Microstrip Leaky-Wave Antenna With Enhanced Gain in Broadside

This article presents an EH 0 -mode microstrip leaky-wave antenna (LWA) with enhanced gain in broadside by bidirectionally exciting the inductive-loaded EH 0 -mode microstrip line (MSL). In this way, enhanced gain is successfully attained in broadside at the desired frequency. To theoretically inves...

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Bibliographic Details
Published in:IEEE transactions on antennas and propagation 2022-03, Vol.70 (3), p.1837-1845
Main Authors: Li, Hui-Dong, Zhu, Lei
Format: Article
Language:English
Subjects:
Antenna feeds
Antenna gain
Broadside radiation
Directivity
EH₀-mode
Equivalent circuits
Far fields
High gain
Inductance
Leaky waves
leaky-wave antenna (LWA)
Microstrip
Microstrip antennas
Microstrip transmission lines
Pins
Radiation
Resistance
Shunt resistance
Transmission lines
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Summary:This article presents an EH 0 -mode microstrip leaky-wave antenna (LWA) with enhanced gain in broadside by bidirectionally exciting the inductive-loaded EH 0 -mode microstrip line (MSL). In this way, enhanced gain is successfully attained in broadside at the desired frequency. To theoretically investigate such an attractive property, an equivalent circuit model is first established to illustrate that the working frequency as well as the phase and leakage constants can be independently controlled by altering the shunt inductance and resistance, and further properly adjusting their quantities. Then, a row of shorting pins is appropriately loaded at one side of the MSL, so as to realize the inductive-loaded periodical leaky-wave structure for broadside radiation. After that, a more effective and practical transmission line model is derived to fully investigate the side pin-loaded MSL. Based on this transmission line model, an efficient method is proposed to design the working frequency and the values of \beta /k_{0} and \alpha /k_{0} in a controllable way. Furthermore, a gain enhancement of such an LWA is carried out with resorting to the directivity and radiation efficiency, aiming to acquire the maximum antenna gain. In final, the proposed EH 0 -mode LWA with broadside radiation is simulated, fabricated, and measured. Good agreement can be found between the simulated far-field radiation patterns and the tested ones, which both evidently indicate that a high-gain broadside radiation beam is indeed achieved at the desired frequency.
ISSN:0018-926X
1558-2221
DOI:10.1109/TAP.2021.3118735