Pastorcici, M.; Constantin, A.; Heiman, A.; Tamas, R.D. A Full Calibration Approach on a Drone-Borne Platform for HF Antenna Measurements in Smart Grid Energy Facilities. Electronics2024, 13, 3039.
Pastorcici, M.; Constantin, A.; Heiman, A.; Tamas, R.D. A Full Calibration Approach on a Drone-Borne Platform for HF Antenna Measurements in Smart Grid Energy Facilities. Electronics 2024, 13, 3039.
Pastorcici, M.; Constantin, A.; Heiman, A.; Tamas, R.D. A Full Calibration Approach on a Drone-Borne Platform for HF Antenna Measurements in Smart Grid Energy Facilities. Electronics2024, 13, 3039.
Pastorcici, M.; Constantin, A.; Heiman, A.; Tamas, R.D. A Full Calibration Approach on a Drone-Borne Platform for HF Antenna Measurements in Smart Grid Energy Facilities. Electronics 2024, 13, 3039.
Abstract
Emerging data processing techniques brought back into attention the HF range communication as an interesting alternative to third-party solutions for IoT applications, such as data transmission in distributed energy production facilities. The physical size of HF antennas, often comparable to the surrounding objects, require in-situ radiation measurements. Drone-borne measuring systems are already known as a flexible solution, but mostly restricted to higher frequency ranges. In this work, we propose to use an electrically small, folded dipole as a probe for drone-borne measurements on HF antennas. We also propose a calibration approach for the effects related to the near-field zone, and to the drone body proximity. The impact of ground reflection is also investigated. We show that despite its low, realized gain figure such a probe can provide stable results for near-field measurements, even at low input power levels.
Keywords
drone-borne; HF antennas; Internet of Things (IoT); folded dipole; Open Area Test Site (OATS); antenna measurements; near-field antenna measurements
Subject
Engineering, Electrical and Electronic Engineering
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.