Affiliation:
1. Department of Electronics and Communication Engineering Madan Mohan Malaviya University of Technology Gorakhpur Uttar Pradesh India
2. Department of Electronics Engineering Rajkiya Engineering College Sonbhadra Uttar Pradesh India
3. Department of Electronics and Communication Engineering Punjab Engineering College Chandigarh India
4. Department of Electronics and Communication Engineering Motilal Nehru National Institute of Technology Allahabad Prayagraj Uttar Pradesh India
Abstract
SummaryIn this paper, a decoupling mechanism is discussed for different mode excitations in the cylindrical dielectric resonator antenna (cDRA) by utilizing absorbing surface wall. In the cDRA, the fundamental radiating mode is HE11δ. Another higher order mode for radiation purpose in cDRA is HE12δ. Both HE11δ and HE12δ create broadside radiation. To analyze multiple‐input multiple‐output (MIMO) performance, two different dual‐port DRAs are proposed. Each antenna structure consists of two DRA with dual similar ports supporting the same mode. Therefore, two different antenna structures are proposed for two different modes. For each antenna, two 2 × 3 absorber array walls are designed, and they are placed in between the DRA to reduce the mutual coupling. When the absorber array walls are placed in between the antenna elements, they blocked the free‐space electromagnetic (EM) field interaction in between the DRA. Due to the reduction of free‐space radiation interaction, the mutual coupling between the ports is improved tremendously. For both HE11δ and HE12δ modes, the mutual coupling is reduced by more than 10 dB. To analyze efficacy of the proposed method, the antenna structure featuring the HE11δ mode is fabricated and experimentally tested.