1. 2001 APCO/NENA State Training Conference January 19, 2001

2. An Antenna is : An An effective interface between the radio and free space: Radio Antenna Free space a For Terrestrial Communications, antennas must be directional: Radio

3. Terrestrial Microwave Antennas for Point-To-Point Communication Terrestrial microwave antennas generate a beam of RF signal to communicate between two locations. Point-To-Point communication depends upon a clear line of sight between two microwave antennas. Obstructions, such as buildings, trees or terrain interfere with the signal. Depending upon the location, usage and frequency, different types can be utilized. We will address the basic characteristics of these various types…

4. Gain Front to Back Ratio (F/B) Radiation Pattern Envelope Cross -Polar Discrimination (XPD) Return Loss (VSWR) Interport Isolation (IPI) Electrical Performance Parameters

5. G a (dBi) = 10 log 10  [ 4  A a /    Where: G a = Antenna Directive Gain (Catalog spec)  = Aperture Efficiency (50-55%) A a = Antenna Aperture Area  = Wavelength (speed of light / frequency) Parabolic Antenna Directive Gain

6. Typical Parabolic Antenna Gain in dBi Antenna Diameter Frequency

7. Radiation Pattern Concept Antenna Under Test Source Antenna Antenna Test Range

8. Radiation Pattern about Bore sight

9. Cut Through Radiation Pattern at Boresight

10. Front to Back Ratio Ratio of the signal level at beam peak to that directed behind the antenna Considered in intra-system interference calculation (hop overreach) Expressed in dB

11. Co-Polarization and Cross-Polarization Co-polarized antenna pattern Azimuth Angle Relative Power X-polarized patttern Co-Polarization –Where Transmit & Receive Antennas have the Same Polarization –Either Horizontal or Vertical (HH or VV) –In your System, The Wanted Signal Cross-Polarization –Where Transmit & Receive Antennas have Different Polarizations –Either HV or VH. –In your System, The Unwanted Signal XPD

12. Inter-port Isolation (IPI) Leakage of Signal Between Antenna Ports Internal Noise Expressed in dB Towards Reflector Transmit Signal Leakage Signal Feed Horn

13. Voltage Standing Wave Ratio (VSWR) VSWR : 1.30Reflection Coefficient : 13% (0.13) VSWR : 1.20Reflection Coefficient : 9.1% (0.091) VSWR : 1.10Reflection Coefficient : 4.7% (0.047) VSWR : 1.08Reflection Coefficient : 3.8% (0.038) VSWR : 1.06Reflection Coefficient : 2.9% (0.029) VSWR = 1 + (Reflection Coefficient) 1 - (Reflection Coefficient) Reflected Signal Incident Signal

14. Return Loss The Amount of Energy Lost due to Reflected (Returned) Signal RL : 17.8dBReflection : 13% (0.13)VSWR : 1.30 RL : 20.8dBReflection : 9.1% (0.091)VSWR : 1.20 RL : 26.7dBReflection : 4.7% (0.047) VSWR : 1.10 RL : 28.4dBReflection : 3.8% (0.038) VSWR : 1.08 RL : 30.7dBReflection : 2.9% (0.029) VSWR : 1.06 RL = -20 x log (Reflection Coefficient)

15. Basic Antenna Types Standard Parabolic Antenna Shielded Antenna GRIDPAK ® Antenna Focal Plane Antenna

16. GRIDPAK ® Antenna Grid Reflector Low Wind load Single Polarized Below 2.7GHz Shipped in Flat, Lightweight Package

17. Standard Parabolic Antenna Basic Antenna Comprised of –Reflector –Feed Assembly –Mount

18. Focal Plane Antenna Deeper Reflector Edge Geometry Improved F/B Ratio Slightly Lower Gain

19. Shielded Antenna Absorber-Lined Shield Improved Feed System Planar Radome Improved RPE

20. Antenna Efficiency Well-designed antennas have efficiency ratings of 45 - 65% Efficiency Factor Affected By : Feed Illumination Aperture Blockage Reflector Surface Tolerance Efficiency can never be 100%

21. f D f/D = 0.250 Antenna f/D Ratio f D f/D = 0.333 Standard & Shielded Antennas Focal Plane Antennas

22. Unwanted Signals Scattering Diffraction Spillover

23. Front to Back Ratio Direction of Signal Shielded Antenna Focal Plane Antenna Standard Parabolic Antenna

24. Parabolic Reflector Beamwidth Beamwidth in Degrees Diameter Frequency

25. 0 10 20 30 40 50 60 70 80 90 100 01015205406080100120140160180 Azimuth - Degrees from Main Lobe Antenna Directivity dB down from Main Lobe Radiation Pattern Envelope

26. Radomes Reduce Windloading on Tower Protection Against Ice, Snow and Dirt

27. Other Antenna Options High XPD antennas Dual beam antennas Dual band antennas Low profile antennas Integrated antennas