Title :
Gain enhanced H-plane gap SIW horn antenna with phase correction
Author :
Lei Wang ; Esquius-Morote, Marc ; Xiaoxing Yin ; Mosig, Juan R.
Author_Institution :
State Key Lab. of Millimeter Waves, Southeast Univ., Nanjing, China
Abstract :
The electromagnetic field phase distribution in horns´ apertures is affected by the horn flaring and is usually not uniform, resulting in a lower antenna gain. This paper presents an H-plane SIW horn antenna with the aperture phase corrected by some gaps on the H-plane metallic walls, to enhance the antenna gain. To achieve a better radiation and impedance matching, some planar tapered-ladder transitions are printed just after the horn aperture. Simulations in HFSS software, including a probe excitation, have shown good phase correction and hence increased gain, while also providing good impedance matching. The designed compact Ka-band antenna achieves an enhanced gain of 10.1 dBi at 34 GHz, and an impedance bandwidth of 4.33 GHz.
Keywords :
horn antennas; impedance matching; millimetre wave antennas; substrate integrated waveguides; waveguide transitions; H-plane metallic wall; HFSS software; Ka-band antenna; SIW horn antenna; antenna gain; aperture phase correction; bandwidth 4.33 GHz; electromagnetic field phase distribution; frequency 34 GHz; gain enhanced H-plane gap; horn flaring; impedance bandwidth; impedance matching; planar tapered-ladder transition; probe excitation; substrate integrated waveguide; Aperture antennas; Electric fields; Horn antennas; Standards; Substrates; horn antenna; phase correction; substrate integrated waveguide (SIW);
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
Conference_Location :
Lisbon
