Antennas Demystified Antennas in Emergency Communications. Scott Honaker N7SS

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1 Antennas Demystified Antennas in Emergency Communications Scott Honaker N7SS

2 Importance of Antennas Antennas are more important than the radio A $5000 TV with rabbit ears will have a lousy picture Antennas are cheaper than amplifiers Antennas are reciprocal they hear as well as they talk Antennas are easy and cheap to build 2

3 Choosing Antennas Frequency Dictates element size Mounting location Base, mobile or portable Omni or directional Coverage or gain Polarization Horizontal, vertical, circular Resonant or non-resonant Tuner required? Required bandwidth Power available Feedline length and type Cost 3

4 What is Gain? Antenna gain comes from focusing energy Power is not created Gain is great if power goes in a useful direction As gain goes up, so does directionality Higher gain also implies lower bandwidth Gain is determined by design, not manufacturer There is no magic a half wave design is the same specs everywhere 4

5 dbi vs. dbd dbi - Gain vs. Isotropic Resonator Isotropic Resonator is infinitely small antenna with no feedline in free space radiating equally well in all directions (spherical pattern) dbd - Gain vs. Reference Dipole Gain referenced to a real dipole antenna with a donut-like pattern dbi = dbd db 5

6 Gain/Loss Calculations ERP (Effective Radiated Power) is the real number to consider Gain uses a Log-10 scale 3dB = 2-fold improvement 6dB = 4-fold improvement 10dB = 10-fold improvement 20dB = 100-fold improvement ERP=Power x (Gain - Feedline Loss) 6

7 Coax Cable Signal Loss (Attenuation) in db per 100ft Loss RG-174 RG-58 RG-8X RG-213 RG LMR-400 O.D in 0.195in 0.242in 0.405in 0.270in 0.405in 0.405in 1MHz 1.9dB 0.4dB 0.5dB 0.2dB 0.2dB 0.2dB 0.3dB 10MHz 3.3dB 1.4dB 1.0dB 0.6dB 0.6dB 0.4dB 0.5dB 50MHz 6.6dB 3.3dB 2.5dB 1.6dB 1.4dB 0.9dB 0.9dB 100MHz 8.9dB 4.9dB 3.6dB 2.2dB 2.0dB 1.4dB 1.4dB 200MHz 11.9dB 7.3dB 5.4dB 3.3dB 2.8dB 1.8dB 1.8dB 400MHz 17.3dB 11.2dB 7.9dB 4.8dB 4.3dB 2.6dB 2.6dB 700MHz 26.0dB 16.9dB 11.0dB 6.6dB 5.6dB 3.6dB 3.5dB 900MHz 27.9dB 20.1dB 12.6dB 7.7dB 6.0dB 4.2dB 3.9dB 1GHz 32.0dB 21.5dB 13.5dB 8.3dB 6.1dB 4.5dB 4.1dB Imped 50ohm 50ohm 50ohm 50ohm 75ohm 50ohm 50ohm 7

8 SWR Power Losses All power fed into the line, minus the line attenuation, is absorbed into the load (antenna) regardless of the mismatch at the antenna terminals Line attenuation (loss) is the key factor in determining losses due to mismatched antennas (high SWR) 8

9 SWR Loss Examples Mismatched feedlines create additional losses SWR losses are added to line attenuation for total loss values SWR SWR Losses 1.0:1 0dB 1.5:1 0dB 2.0:1 0.2dB or 5% 3.0:1 0.6dB or 13% 5.0:1 1.5dB or 29% 10:1 3.0dB or 50% 9

10 Connector Types Antennas & Feedlines 10

11 Loading Adding inductance and/or capacitance allows physically shortening the radiating element 11

12 Loading Inductive loads base, center, top Screwdriver antennas (adjustable loading) Hamstick-style antennas Hustler center-loaded whips Rubber HT antennas Capacitance Hats Texas Bugcatcher Cushcraft MA5B 12

13 Polarization SSB/CW is generally horizontal FM is generally vertical Satellites can be circular - RHCP, LHCP Polarization loss can be significant at VHF/UHF and microwaves Bounced signals can change polarization Verticals are more susceptible to QRM 13

14 Radiation Patterns Visual representation of gain, beamwidth, F/B ratio and F/S ratio in one plane E-Plane is crosssection that includes driven element H-Plane is perpendicular to driven element 14

15 Radiation Patterns 15

16 Ground Plane Verticals ¼ wave is omnidirectional with unity (0dBd) gain when provided a proper ground plane ½ wave is unity gain with no ground plane and 3dBd with ground plane 5/8 wave is 3.5dBd gain with nice omni pattern and low radiation angle Longer antennas have more omni patterns with asymmetric ground planes (vehicles) and lower radiation angles (see below) ¼ wave ½ wave 5/8 wave 16

17 Ground Planes Perfect ground plane from 120 evenly spaced radials at least ½ wave in length Elevated feeds (1/8λ or more above ground) can use four ¼-wave radials Bending radials down raises feedpoint impedance closer to 50 ohms Antennas should be bonded to car electrically Run the screws into the metal Mag mounts have less effective ground 17

18 Vehicle Mounting Verticals Stay away from vertical metal, especially with load coils Glass mount antennas may have large loss Mounting location affects radiation pattern 10M pattern shown 2M pattern is more symmetric because ground plane is more effective 18

19 Imperfect Ground Planes Number of radials Length of radials in wavelengths Total wire installed in wavelengths Power loss relative to perfect ground plane Feedpoint impedance in ohms n/a

20 Collinear Verticals Two elements separated by a phasing coil for increased gain Several common styles: 5/8 over ½, 5/8 over, 5/8 over 5/8, ½ over ½. This collinear design has two elements separated by a phasing coil. Both top and bottom elements are 5/8 wave. Gain is typically 5 db when mounted on a suitable ground plane. 20

21 J Pole Verticals 21

22 Typical Dual Band Antennas Model # NR72BNMO NR73BNMO NR770HA NR7900A SG7000A SG7500A SG7900A Band 2m / 70cm 2m / 70cm 2m / 70cm 2m / 70cm 2m / 70cm 2m / 70cm 2m / 70cm Element Wavelength Gain/dBi Watts Mount Length Inches 1 1/4l, 1 1/2l 2.15 / NMO /2l, 2 5/8l 2.15 / NMO /2l, 2 5/8l 3.0 / UHF /2l+1/4l, 3-5/8l 3.7/ UHF /4l, 1 3/8l 2.15 / UHF /2l, 2 5/8l 3.5 / UHF /4l, 1 3/8l, 3 5/8l 5.0 / UHF

23 SWR vs. Gain 23

24 Other Verticals Discone Wide usable frequency range SWR ~2:1 for fundamental through second harmonic SWR ~3:1 for remainder of coverage Omnidirectional Unity gain Inverted-L 2-3 dbd gain with vertical and horizontal components Requires ground plane 24

25 Tuning for Resonance 25

26 Balanced Feed Designs Dipole Simple and effective Vertical or horizontal polarization Loop Full wave has 3dBd gain Circular, Quad (square) or Delta (triangular) design E and H-plane patterns vary with height above ground 26

27 Dipole Patterns 27

28 Dipole Types Sloper Has 3dB to 6dB of directivity toward slope Inverted-V Single high mount, internal angle should be >90 degrees Bent Good attic antenna Keep center section straight Remainder of element can bend or curve to fit 28

29 Dipole Types Cont. Folded (TTFD) High impedance needs open wire feed Same overall size as ½ wave dipole but contains 1 wave of wire for nearly 3 dbd gain Caged Standard dipole with each leg made up of multiple wires around spacers forming a wire tube Larger effective element diameter increases bandwidth Extended Double Zepp Two 0.64λ elements provide 3dBd gain 29

30 Multiple/Fan Multiband Dipoles Multiple dipoles/loops at a single feed Trap Traps are tuned circuits used to generate multiple resonances on a single wire Traps cause loss and decrease bandwidth G5RV Non-resonant tuner required Radiation patterns vary with frequency 30

31 Off-Center Fed Dipoles Feedline attached 1/3 the length from the end Same ½ wave overall size Resonates at even harmonics, so 1 antenna can be used on 80m, 40m and 20m 6 th harmonic (15m) has too high impedance Asymmetric impedance may cause current in the shack Requires 4:1 or 6:1 current-type balun to match 31

32 Other Multibanders Random wire Can be any length of wire Requires tuner Works against earth ground Windom T shape single wire feed attached 14% off center Works against earth ground RF in the shack is a potential problem 32

33 Yagis ½ wave dipole driven element Reflectors are 5% larger Directors are 5% smaller Number of elements and boom length determine gain SWR, bandwidth, gain, boom length and front/back ratios all have to be considered 33

34 Yagi Design Considerations Gain, SWR, Bandwidth, Front/Back ratio are related and optimum values are not achieved simultaneously for each Does antenna have power going in desired direction? Gain/Beamwidth 34

35 Yagi Patterns E-Plane H-Plane 35

36 Typical Yagi Gains 10m yagi with SWR <2:1 and Front/Back >20dB Numbers are rounded to nearest 0.5 db Elements Gain dbi Gain dbd

37 Quad Hybrid Yagis 1λ loop driven element, reflector and directors Up to 3dBd gain over standard yagi Wider bandwidth than standard yagi Quagi Loop reflector and driven element Simpler to feed and match at UHF Looper Entirely loop (generally circular) elements 37

38 Log Periodic Constant characteristics over wide band (2:1) Several varieties but hams generally use dipole array (LPDA) All elements are driven Gain similar to 3 element yagi 7dBi, 5dBd Size similar to 3 element yagi at lowest frequency 38

39 Summary Gain specs are rarely true Gain may be bad Anecdotal antenna stories have limited value Don t buy magic antennas If the manufacturer can t provide the theory of design, don t buy it Placement on vehicle at VHF+ isn t critical 39

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