WLAN Antennas and Accessories

1. WLAN Antennas and Accessories • Basic RF antenna concepts • WLAN Antenna types • RF cables and connectors • Factors in antenna installation • Combating effects of wind and lightning • Installation safety • Antenna mounting • Maintaining clear communications

2. Exam Essentials • Understand RF signal characteristics and basic RF concepts used with antennas • Know the different types of antennas used in WLAN • Indentify various RF cables, connectors, and accessories used in WLAN • Understand additional concepts regarding RF propagation

3. Basic RF Antenna Concepts • RF lobes – shape of the RF patterns • Beamwidth – Horizontal and vertical measurement angles • Antenna charts – azimuth and elevation • Gains – Changing the RF coverage pattern • Polarization – Horizontal and vertical

4. RF Lobes • Lobe – shape of the RF energy (signal) emitted • Type of antenna design determines lobe • Omnidirectional, Semidirectional, parabolic etc.

5. Beamwidth • Angle of the measurement of the main RF lobe at half power • Measured horizontally and vertically • Azimuth view from above – “birds-eyes-view”

6. Antenna Gain • Change in coverage by focusing the area of RF propagation

7. Passive Gain • Focusing isotropic energy in a specific pattern • Created by the design of the antenna • Uses the magnify glass concept

8. Active Gain • Providing an external power source • Amplifier • High gain transmitters

9. Antenna Polarization • How the wave is emitted from and antenna • Horizontal • Vertical

10. WLAN Antenna Types • Omnidirectional Antennas • Semidirectional Antennas • Highly Directional Antennas

11. Antenna Specifications • Frequency range • Voltage standing wave ratio • Polarization • Cable length • Dimensions • Mounting

12. Omnidirectional Antennas • Most common type of antenna • 360 degree pattern horizontal Beamwidth • Vertical Beamwidth dependent on antenna gain • Shape of pattern looks like a donut.

13. Low Gain Omni-directional Antenna The omni antenna is the most commonly used antenna type High Gain Omni-directional Antenna • Provides 360º horizontal coverage pattern along a flat plane. • Gain of signal along the horizontal plane means less signal along the vertical plane • Omni-directional antennas are also known as dipoles.

14. Semidirectional Antennas • More specific pattern antenna versus Omnidirectional • Patch • Panel • Sector • Yagi

15. Semi-directional Antennas Patch • Patch, Panel, Yagi and Sector are the primary semi-directional antenna types on the market today • Semi-directional antennas have 180º or less of horizontal and vertical beam width • Primary coverage uses include: • Hallways/Corridors • Wireless ISPs • PTP & PTMP Bridging Patch Multiple semi-directional antennas can be combined into an array to provide omni-directional coverage.

16. Highly Directional Antennas • Highly focused energy • Most common type - parabolic

17. Highly-Directional Highly-directional Antennas • Parabolic dish and grid are the primary types of highly-directional antennas used in the market today • Grid antennas are often used in locations where wind is problematic • Very narrow horizontal and vertical beam widths • Primary coverage use: • Long-distance PTP bridge links With narrow beam widths, it is important to assure accurate antenna alignment

18. RF Cables and Connectors • Type • Length • Cost • Impedance

19. Cable Types • Measured in resistance (Ohms) • Coaxial • Twin axial • Thick • Thin

20. Cable Length • Induces loss of signal even in short lengths of cable • Connectors add additional loss

21. Cable Cost • You get what you pay for • Always specify quality cable

22. Impedance and VSWR • Impedance is a measurement of alternating current resistance. • Measured in ohms • Mismatched impedance can cause voltage standing wave ratio (VSWR) and adversely impact the signal

23. RF Connectors • Join cables and devices together • AP to antenna • Antenna to cable • Cable to cable • Etc.

24. Factors in Antenna Installation • Addressing the Effects of Earth Curvature • Antenna Placement • Minimizing the Effects of Multipath Using Antenna Diversity

25. Addressing the Effects of Earth Curvature • A factor after 7 miles • Affects point-to-point and direct line of sight • Addressed by antenna height and direction

26. Antenna Placement • Omnidirectional placement • Directly to the AP • Indoor or outdoor • Semidirectional placement • Flat on a wall • Indoor or outdoor • Highly directional placement • Exclusively outdoors • Free from obstructions

27. Minimizing the Effects of Multipath Using Antenna Diversity • Using two antennas from one radio source • Minimizes • Reflection • Refraction • Scattering • Diffraction

28. Combating Effects of Wind and Lightning on Wireless Connections • Lightning arrestors • Surge protectors • For both antenna and equipment • Grounding rods • Direct power surges around equipment into ground

29. Lightening Arrestors Lightning Arrestors • An in-line RF device that must be connected to Earth ground • Dissipates static electricity in the air • When objects near RF antennas are struck, electrical current is induced Does not prevent equipment loss in cases of direct lightning strikes!

30. Antenna Mounting • Pole/mast mount • Ceiling mount • Wall mount

31. Pole/Mast Mount • Attaches to a pole • L-shaped mounting bracket • U-bolt mounting hardware

32. Ceiling Mount • Attaches to hard-ceiling • Concrete • Drywall ceiling joists • Omnidirectional

33. Wall Mount • Mounts similar to ceiling mount only vertical • Semidirectional antennas

34. Maintaining Clear Communications • Visual line of sight • RF line of sight • Fresnel zone

35. Visual Line of Sight • Unobstructed view by each point

36. RF Line of Sight • Clear path for the radio frequency • The premise of the Fresnel zone

37. Fresnel Zone • Area of coverage surrounding the visual line of sight • Obstacles • Trees • Buildings • Earth curvature • Hills mountains

38. Exam Essentials • Understand RF signal characteristics and basic RF concepts used with antennas • Know the different types of antennas used in WLAN • Indentify various RF cables, connectors, and accessories used in WLAN • Understand additional concepts regarding RF propagation