To compliment our standard radio training, we also offer High Frequency Base Station Installation training, below are examples of this course
Aim:
- Enable participants to gain an understanding of the requirements and practical considerations for installing a base station HF system
Objectives:
- To understand the basics of
- A fixed base station
- The propagation direction of an antenna
- Antenna take-off angles
- Antenna mounting height and effects of frequency change
- Installing an antenna and site selection
- Antenna earthing
- To understand the basics of
Antenna testing
A fixed base station consists of:
- Transceiver
- Antenna
- Power Supply
Topics covered include:
- Installation of a fixed antenna
- Installation of a transceiver
- Testing the base station installations
Proper setup of the system ensures the quality of communication!
Important factors to consider when setting up an antenna:
- Propagation direction
- Distance of communication
- Grounding
- Antenna support structure
- Antenna site selection
- Installation of an antenna tuner
Antenna Propagation
- Depends on antenna type – horizontal or vertical antenna
- Horizontal antennas have complex radiation patterns, which depend on factors such as height and frequency. E.G, Diopole, broadband and long wire antenna
- Vertical antennas have omni-directional radiation patterns (equal radiation strength in all direction). Hence direction of antenna face is not important, e.g. vertical whip antenna
Distance of Communication
- Operating Frequency
- Take-off Angle
- Transceiver Power
Distance vs Frequency
- Shorter distances require lower frequencies
- Larger antenna size
- Longer distances require higher frequencies
- Smaller antenna size
- Size of antenna is inversely proportional to frequency
600-12004-118m x 38m1200-15005-186.5m x 31m2500-100007-285.5m x 26m
| Approximate Path Length (km) | Frequency Range (MHz) | Antenna Mounting Dimension |
| 0-300 | 2-6 | 13m x 58m |
| 300-600 | 3-8 | 10m x 47m |
What is take-off angle?
Elevation plot of the antenna radiation pattern
Distance vs Take-Off Angle
- Shorter distances require higher take-off angles
- Antenna is installed lower
- Longer distances require low take-off angles
- Antenna is installed higher
- Take-Off angle various by how high the antenna is mounted
| Take-Off Angle (degrees) | Day Time (km) | Night Time (km) |
| 0 | 3000 | 4500 |
| 10 | 1900 | 2900 |
| 25 | 1000 | 1600 |
| 40 | 550 | 1000 |
| 60 | 250 | 450 |
| 70 | 150 | 300 |
| 80 | 80 | 150 |
Height of a Fixed Antenna
Height of an antenna can be expressed in terms of physical height, H or wavelength
Controlling Take-Off Angle
For a fixed physical height, varying the operating frequency will effect the radiation pattern and hence vary the take-off angle.
For a fixed frequency, varying the physical height of an antenna will also effect the radiation pattern and hence vary the take-off angle.
