NVIS leq

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By: andreadamico (106 month(s) ago)


By: andreadamico (106 month(s) ago)


By: andreadamico (106 month(s) ago)


By: andreadamico (106 month(s) ago)

ottimo direi.

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NVIS What is NVIS ? Means Near-Vertical Incidence Skywave Opposite of DX (long – distance) Local - to - Medium Distance (0 – 250 mls)

‘Ordinary’ Propagation: 

‘Ordinary’ Propagation Illustration courtesy of Barrett Communications Pty

‘Ordinary’ Propagation: 

‘Ordinary’ Propagation To travel a long distance, the signal must take off at a LOW angle from the antenna – 30 degrees or less This is so that it can travel the maximum distance before it first arrives at the Ionosphere Long gap before signal returns to earth – the part in between this and the end of the ground wave is the so-called Skip (or Dead) Zone

‘Ordinary’ Propagation: 

‘Ordinary’ Propagation Illustration courtesy of Barrett Communications Pty

NVIS Propagation: 

NVIS Propagation Illustration courtesy of Barrett Communications Pty

NVIS Propagation: 

NVIS Propagation To travel a local - medium distance, the signal must take off at a HIGH angle from the antenna – typically 60 – 90 degrees This returns from the Ionosphere at a similar angle, covering 0 – 250 mls It thus fills in the Skip (or Dead) Zone – like taking a hose and spraying it into an umbrella !

NVIS Propagation: 

NVIS Propagation Illustration courtesy of Barrett Communications Pty

Using NVIS successfully: 

Using NVIS successfully HIGH angle of radiation from antenna Minimise ground wave, as it will interfere with the returning skywave Most importantly, CHOOSE THE CORRECT FREQUENCY BAND – go too high in frequency and your signal will pass through straight into space!

Choosing the right frequency: 

Choosing the right frequency The Ionosphere – D, E, F1 & F2 layers D and to a lesser extent, E layers attenuate and absorb signal Best returns from F2 layer At any one time we need to know the frequency of the F2 layer – The Critical Frequency or foF2 Optimum frequency for NVIS work around 10% below this

The Ionosphere: 

The Ionosphere Illustration courtesy of the University of Ulster Communications Centre

NVIS - Frequency and Time: 

NVIS - Frequency and Time In practice, highest NVIS frequency can reach 10 MHz band. Lowest can go down down to1.81 MHz band ‘Higher’ frequency band during day, ‘Middle’ frequencies afternoon/evening, ‘Lower’ frequencies at night Frequencies also affected by time of year and period of sunspot cycle For best results, these three different frequency ‘bands’ required

NVIS – The Critical Frequency: 

NVIS – The Critical Frequency The Critical Frequency is the key to successful NVIS working The Critical Frequency (or foF2) is the highest frequency at any one time that a signal transmitted vertically will be returned to earth. Anything above this passes into Space As we are interested in vertical signals for NVIS, then the value of the Critical Frequency (foF2) at any one time is of great importance to us How can we find or estimate foF2 ?

NVIS – Finding The Critical Frequency: 

NVIS – Finding The Critical Frequency Real-time web information from Ionosondes Websites offering Critical Frequency predictions: – RAL STIF, IPS Euromaps Software Propagation prediction tables or similar printed material: - W6ELprop etc. Rule-of-thumb:- ‘higher’ band by day, ‘middle’ band afternoon/evening transition, ‘lower’ band nightime

Interpreting an Ionogram: 

Interpreting an Ionogram

Real –Time Ionogram: 

Real –Time Ionogram

Ionospheric Prediction Map: 

Ionospheric Prediction Map Courtesy of RAL Short Term Ionospheric Forecasting Site

NVIS – For the Radio Amateur: 

NVIS – For the Radio Amateur In practice, 7 MHz (40m) usually ‘highest’ band 3.5 MHz (80m) next lowest 1.81 MHz (160m, ‘Topband’) the lowest 80m and 160m strongly affected during the day by absorption from the D-layer, plus noise at night and varying times of the year Need for a ‘middle’ transition frequency around 5 MHz

NVIS – The Antenna Side: 

NVIS – The Antenna Side Need high angle (60-90°) radiation for NVIS Vertical no use – predominantly low angle Half wave dipole at ‘text book’ height – 0.5 wavelength produces low angle radiation, BUT, if lowered to 0.25 wavelength or below, produces high angle radiation ! Not too low, though – some earth losses. A reflector wire or earth mat can reduce this

Vertical = No High Angle Radiation: 

Vertical = No High Angle Radiation Courtesy of ARRL Handbook

Horizontal dipole at ‘textbook’ height : 

Horizontal dipole at ‘textbook’ height Textbooks say that for a horizontal dipole to radiate low angle radiation, it must be half (0.5) a wavelength above ground In the case of the lower bands such as 80 and 160m, this would be pretty high!

Horizontal dipole at ‘textbook’ height: 

Horizontal dipole at ‘textbook’ height

Low Horizontal dipole = High Angle: 

Low Horizontal dipole = High Angle If the height of the dipole is lowered, the angle of radiation becomes higher and the low angle radiation starts to disappear The optimum amount of high angle radiation is obtained at a quarter- (0.25) wavelength above ground Going lower than 0.25 causes efficiency loss In practice 0.25 – 0.15 wavelength heights used for NVIS

Low Horizontal dipole = High Angle: 

Low Horizontal dipole = High Angle Illustration courtesy of NVIS Communications (Worldradio Books)

NVIS – Monoband Antennas: 

NVIS – Monoband Antennas The dipole is essentially a single band antenna There are also a couple of special higher-gain single band NVIS antennas – Dipole with reflector The Shirley The Jamaica

NVIS – Dipole with Reflector: 

NVIS – Dipole with Reflector Illustration courtesy of NVIS Communications (Worldradio Books)

NVIS – The Shirley Antenna: 

NVIS – The Shirley Antenna Illustration courtesy of NVIS Communications (Worldradio Books)

NVIS – The Jamaica Antenna: 

NVIS – The Jamaica Antenna Illustration courtesy of NVIS Communications (Worldradio Books)

NVIS – Multiband Antennas: 

NVIS – Multiband Antennas As mentioned earlier, at least three different frequency bands are needed for successful 24 hr NVIS operation and so multi or wideband antennas are used Simple ones include long wire, inverted-L, Shallow (120°) Inverted-Vee Doublet with open feeder, full-wave low (0.15-0.25λ) horizontal loop (reflector could also be used below this) Other multiband antennas can be used -

NVIS – The Fan Dipole: 

NVIS – The Fan Dipole Illustration courtesy of NVIS Communications (Worldradio Books)

NVIS – The AS2259 or ‘Collins’ Antenna: 

NVIS – The AS2259 or ‘Collins’ Antenna Illustration courtesy of NVIS Communications (Worldradio Books)

NVIS – The Jumpered Doublet: 

NVIS – The Jumpered Doublet Illustration courtesy of NVIS Communications (Worldradio Books)

NVIS –Wideband Folded Dipole (T2FD): 

NVIS –Wideband Folded Dipole (T2FD) Antenna total length approx 90ft 600 Ω Terminating Resistance/Balancing Network 12 : 1 Stepdown Balun to 50 Ω Example – Barker & Williamson BWD 1.8 – 30 MHz Wideband Folded Dipole Courtesy of Barker & Williamson Manufacturing Inc.

NVIS – Mobile Operation: 

NVIS – Mobile Operation You can use a whip for NVIS – but NOT VERTICAL ! You can either a) Bend the whip back over the vehicle as flat as possible without breaking (see Military on TV) b) Bend the whip back away from the vehicle at least 45°- OK when stationary, but not recommended mobile ! Keep your distance ! You can use loops – either a) A fore – aft loop or b) Magnetic Loop Take care as high RF voltages exist on certain parts of these antennas

NVIS – Tilt Angle Adaptor: 

NVIS – Tilt Angle Adaptor Illustration courtesy of NVIS Communication – Worldradio Books

NVIS – Codan’s Whip Method: 

NVIS – Codan’s Whip Method Illustration courtesy of Codan Pty.

NVIS – The Fore – Aft Loop (WA6UBE): 

NVIS – The Fore – Aft Loop (WA6UBE) Photos courtesy of Patricia Gibbons, WA6UBE

NVIS – The Magnetic Loop (Russian Style !): 

NVIS – The Magnetic Loop (Russian Style !) Photo PA3EQB

NVIS – The Magnetic Loop (Aussie Style !): 

NVIS – The Magnetic Loop (Aussie Style !) Photo Q-Mac Pty

NVIS – The Magnetic Loop (O.T.T. Style ?): 

NVIS – The Magnetic Loop (O.T.T. Style ?) Photo WB3AKD

A few other aspects of NVIS: 

A few other aspects of NVIS NVIS in WW II For D-Day : Successful communications between Operations HQ at Uxbridge, forward control ship USS Ancon and landing parties achieved using horizontal antennas and high-angle skywave, following poor results with verticals – done by Dr. Harold Beverage (of long antenna fame !) Germans also used NVIS Mobile antennas in WW II ‘Tone’ Burst’s view of NVIS !

NVIS on D-Day: 

NVIS on D-Day Illustration courtesy of NVIS Communication, Worldradio Books

WWII German Radio Vehicle with NVIS Antenna: 

WWII German Radio Vehicle with NVIS Antenna Photo Schiffer Publishing/Tactical Link

‘Tone’ Burst’s View of NVIS: 

‘Tone’ Burst’s View of NVIS RSGB Radio Today Sept 2000

ALE : Automatic Link Establishment: 

ALE : Automatic Link Establishment ALE scans and tests sets of frequencies – usually in several bands - for a particular path or net until it finds a frequency that will support communications over the path. Each radio in an ALE net constantly broadcasts a sounding signal and “listens” for other sounding signals generated by other net members Analysis of these signals by processing determines the best frequency for communication at the time and this frequency is then selected automatically for operations

G4GUO’s ALE Controller Programme for PCs: 

G4GUO’s ALE Controller Programme for PCs Charles Brain, G4GUO

Useful websites connected with NVIS: 

Useful websites connected with NVIS http://digisonde.oma.be/ Ionosonde at Dourbes, Belgium. Currently the nearest Real-Time Ionograms for foF2 Critical Frequency http://ionosphere.rcru.rl.ac.uk/maps.htm Rutherford Appleton Lab Space Weather Web – foF2 Prediction Map http://www.ips.gov.au Australian Space Weather agency. Several useful maps. Covers Europe http://www.cebik.com/cb.html Some Notes on `Cloud Burners' (US term for NVIS antennas) http://www.scn.org/IP/nwqrp/archives/apr98/nwqapr04.htm The `L' Mobile/Fixed Antenna http://www.ether.ulst.ac.uk/projects/hf_prop.html University of Ulster Communications Engineering Centre NVIS page http://www.codan.com.au/ Codan Communications (Australia) HF SSB & Satellite http://www.iinet.net.au/~barrett Barrett Communications ( Aus.) Commercial HF SSB http://www.qmac.com/ Q-Mac Communications (Aus.) HF SSB http://www.chbrain.dircon.co.uk/ Charles Brain, G4GUO's Website. Contains ALE Programme and other very interesting digital speech experiments http://www.wunclub.com/files/aleinfo.html World Utility Newsletter - Excellent ALE Article & Frequencies  http://www.raynet-hf.net/ RAYNET HF Team website. Lots of useful information http://www.tactical-link.com/ Interesting US Amateur NVIS site with a Military leaning

NVIS - Summary: 

NVIS - Summary Covers 0 – 250 mls using High-Angle (60-90°) Skywave Choice of Correct Frequency Band just below the Critical Frequency is most important. Antenna must be horizontal, not vertical (with the exception of magnetic loops) Antenna must be low – between 0.25 and 0.15 of a wavelength above ground An NVIS antenna has omnidirectional radiation Multiband antenna (at least three bands) needed for 24hr NVIS coverage

NVIS - The End: 

NVIS - The End BJ Skips, Wigan

NVIS Near-Vertical Incidence Skywave: 

NVIS Near-Vertical Incidence Skywave Lecture by Gordon L Adams, G3LEQ Graphics by Paul D Gaskell, G4MWO Blandford November 2002

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