Abstract
A dual semicircular microstrip patch antenna implemented on a biodegradable substrate is presented for operation in the [863–873] MHz and [2.4–2.5] GHz frequency bands. To cover these frequency bands, two semicircular patches are compactly integrated onto a biodegradable cork tile, commonly found as support in laminate flooring, serving as a substrate. Thereby, the antenna tile may be seamlessly embedded as a sublayer of the floor structure. A higher-order mode is generated by applying via pins in the antenna topology to produce a conical radiation pattern with a null at broadside and sectoral coverage in the vertical plane. As such, the concealed floor antenna covers all azimuth angles of arrival in smart houses. The antenna performance is fully validated, also when the tile is covered by different polyvinyl chloride sheets. Owing to the supplementary design margins, the antenna impedance bandwidth remains covered. Moreover, the radiation patterns are measured in various elevation planes. Under stand-alone conditions, a radiation efficiency and a maximum gain of 74.3 $\%$ and 5.8 dBi at 2.45 GHz and 48.1 $\%$ and 2 dBi at 868 MHz are, respectively, obtained. Its omnidirectional coverage in the horizontal plane, stable performance on the inhomogeneous and biocompatible cork substrate and for various inhomogeneous superstrates, and its low-profile integration make the proposed antenna an excellent candidate for smart floors and smart houses.
Highlights
W ITHIN the Internet of Things (IoT) vision, designers must overcome challenges such as a massive integration of wireless systems based on low-cost, eco-compatible and durable materials
We propose a low-profile circular microstrip patch antenna as ideal topology for inconspicuous integration into smart floors
The input reflection coefficients |S11| of both patches are measured by a Keysight FieldFox N9918A Vector Network Analyzer (VNA), when covering the antenna surface by 30 cm × 30 cm polyvinyl chloride (PVC) sheets from three different batches of Flexxfloors Stick Basic Black [29], to verify the antenna specifications in realistic deployment conditions
Summary
W ITHIN the Internet of Things (IoT) vision, designers must overcome challenges such as a massive integration of wireless systems based on low-cost, eco-compatible and durable materials. Conventional WiFi devices are not suitable for integration into smart surfaces, as the complete WiFi system must be compact and invisible to users [1] It must be implemented in an eco-friendly material that is compatible with the construction process of floors, walls or ceilings. The cork material, serving as a green, biodegradable substrate [2], typically exhibits inhomogeneous material characteristics, producing highly variable dielectric properties This holds for typical floor materials in which the antenna tile is integrated.
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