Antenna Performance Comparison

Selecting an antenna type is always a trade-off between size and performance - quest is finding the best antenna with the smallest footprint, ease of construction and lowest RFI / electrical noise pickup.

What you need to know


1. Half-wave monopole is best (wrap conductor around one end and you're there) with good noise characteristics.
2. Add one (dipole) or two (as radials) elements to braid to  decrease noise floor in a high RFI / electrical noise environment.
3. Materials make no difference, coat hanger wire still reliably receives VHF signals.

Importance of wavelength


A specific frequency has a corresponding radio wavelength. To get the wavelength in metres, divide 300 with the frequency in question. For instance, AIS is 162 MHZ, so the wavelength will be 300 divided by 162 = 1.85 metres. Calculations are the same for other frequencies.
Common marine antennas are 0.9 metres, (half-wave) 1.8 metres (full-wave) or 0.45 metres (1/4th wave). Other variations exist such as huge 5/4th wave antennas measuring 2.4 metres, which are solely the domain of larger vessels such as motor yachts and ships.
Antenna types tested are for VHF and up, from broadcast radio to ADSB signals. Use info here to select an antenna for a quick and easy job, lowest noise (Half-wave with 2 radials) or a compromise for size vs performance (Quarter-wave with 2 radials). You will get similar results
Strong shortwave signals are possible to receive even with a rubber ducky. Weaker signals need larger antennas, but shortwave is an entirely different cup of tea.
You will get similar results on other frequencies between 100 and 1100 MHz, if you know the frequency you want to hear, use results here to construct an antenna for your preferences.

Setup


Nooelec RTL stick, cheapest 20 feet / 6 metres RG-59 coax with no shielding, no noise reduction apart from metal removed from end of USB connector.
SDRSharp 1.0.0.1174 used with the excellent Level Meter Plugin, this allows me to measure peak power easily. Same gain and cables for all antennas.
Signal: local airport info system, steady signal with the same recorded voice repeated over and over again. Antennas optimised / cut using the above formulas to get full, half and quarter-wave elements.
Distance to signal 2.7 nautical miles / 5 kilometres, no line of sight, signal path over electrically very noisy environment.
Materials: best available used, 2.5 mm diameter house grounding wire as antenna material just to be on the safe side, not that it really matters: see material comparison below.

Antenna types tested


Monopole: receiving element connected to center conductor. Full, Half, Quarter and 1/8th wave tested.
Dipole: two elements connected, one to braid and one to center conductor. Half and Quarter Wave tested.
Two radials: one element to center conductor, two to braid, forming a Peace-sign / Mercedes symbol. Half and Quarter wave tested.
Rubber Duckies: common on handheld transmitters and scanners, Icom (FA-S280C, around 20 USD), Uniden (stock, around 11 USD) and Baofeng (upgraded stock from UV-5B, around 13 USD). Adaptors required to connect to BNC shown.
Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner



Discone: Skyscan V1300 with 12 feet / 4 metres 50 Ohm cable, around 60 GBP / 72 EUR / 95 USD.
Evaluating performance by received audio is subjective, printscreens are not. Received signal is on the left under red vertical line, this should be as high as possible. Yellow speckles and small waves are noise, lower or less visible is better.

The Full Picture


If you use SDRSharp already and understand the following images, please draw your own conclusions.
Antennas organised by peak signal, gives you an idea what to expect noise-wise.

Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner

Quater-wave dipole and half-wave monopole same length, dipole needs twice as much (two) electrical connections. The single greatest cause of electrical problems at sea is connectors, hence the monopole recommendation.
Monopole - stock is the supplied telescopic antenna that comes with the RTL stick.
Ducky refers to rubber duckies, please see below.
Full-wavelength antennas in any form will be a challenge to mount, as 1.8 metres for marine band, and 2.5 metres total length for airband.

Adding elements to braid


Adding one or two elements (same length of wire as receiving wire) to braid reduces noise pickup, resulting in better signal-to-noise ratio.

Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner


Rubber Duckies



Common on transceivers, noise pickup is significant in an urban environment. Included here for reference, recent testing confirmed previous findings that with antenna at 3-4 metres above sea level e.g. cockpit mounting reliably picks up AIS signals out to around 3-4 nm.
Compared to a simple half-wave antenna the performance difference is striking, the lower noise floor is evident side-by-side.

Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner

Indoor vs Outdoor

All antennas tested taped to a window: this 1) simulates  common scenario when you can not erect an antenna outside, and 2) I had to as heavy rain and gale force winds outdoors.
Here's a direct comparison with a discone:

Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner


1. Outdoor means antenna 1 metres from window. 10 dB increase visible means 100 times more signal received.
2. All antennas, especially discones, should be outdoors. The concept of an indoor discone is a heavy compromise, buying a 100-dollar antenna then placing it in the corner is pointless.
3. If you cannot have an outdoor antenna, add two radials and tape antenna to window. Lower noise floor than a discone, better signal-to-noise ratio.

Materials


Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner
Same lengths, from top to bottom: Commercial telescopic antenna with BNC connector, stock telescopic, antenna from a radio, 2.5 mm diameter solid copper grounding wire, 1 mm multi-stranded copper wire, 220 V power cable.
Click on the image below to check they aren't the same, no difference whatsoever by ear.
Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner


Doubtful? Repeated test with quarter wave antennas from: Grounding wire, 220 V power cable, and gym locker hanger, all cut to the same size. Center conductor wrapped around wire, as basic as possible.
Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner

Note that signal height is the same in relation to noise floor, same performance on-screen and by ear.

1mm multi-stranded copper wire


Curious at this point, no surprise as hanger wire receives AIS signals. Antenna taped to inside of window, no line of sight, lots of electrical interference, no noise reduction - still works.


Monopole, Dipole, Radials, AIS, Rubber Ducky, Handheld antenna, performance, comparison, sdrformariners, test, review, evaluation, aerial, marine, beginner





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