Re: [HCDX] Dxers Unlimited´s mid week edition for 12-13 August 2008

["Prof. Arnaldo Coro Antich" <coro@xxxxxxx>]

Radio Havana Cuba

Radio Havana Cuba
Dxers Unlimited
Dxers Unlimited´s mid week edition for 12-13 August 2008

By Arnie Coro

Radio amateur CO2KK

Hi amigos radioaficionados worldwide ! You are listening now to the mid 
week edition of Dxers Unlimited, our twice weekly radio hobby program.

I am Arnie Coro, radio amateur CO2KK and here is item one: After a high 
speed solar wind event, the Earth´s geomagnetic field is expected to be 
back at the extremely quiet levels that it has registered during the 
extended second solar minimum now in progress… So the A index, the daily 
geomagnetic disturbance indicator will be back to figures between one 
and five units after Wednesday UTC day…. Item two: Doing antenna 
maintenance work at my amateur radio station and listening post, so all 
the three towers were stripped of the many wire antennas in order to 
make it easier to paint them… But , that left me without any outdoor HF 
antenna, something that was solved in just a few minutes by installing a 
provisional inverted L and a 15 meters long ground radial acting as a 
counterpoise… The provisional wire antenna loads up quite well on the 40 
and 20 meters band, the two tested so far, and I am almost sure that 
with the help of my wide range universal PI network antenna tuner, it 
can also be used on 80 , 30, 17,.15 ,12 and 10 meters … As soon as I 
have enough spare time to run the tests on the different bands, I´ll 
tell you about the results in an upcoming edition of Dxers Unlimited… 
From my past experience with odd length wire antennas, the minimum 
length that will provide reasonable efficiency on the 40 meters band is 
about 7 meters up in the air…that´s about 23 feet… An inverted L wire 
antenna around 5 to 6 meters in length will work quite OK on the bands 
above 10 megaHertz, but on 40 meters if simply would not be efficient 
enough to make your signal heard at a reasonable level… Nevertheless, 
there is always the option of adding a loading coil, that when placed at 
a distance of no less than 3 meters from the antenna feedpoint, will 
certainly help to make the short antenna work on the 40 meters amateur 
band. Some time ago I wrote an article about a compact wire antenna 
designed so that it will make the best possible use of a 7 meters long 
wire, naming it the 7 meters long wonder antenna… I still have the 
computer file of that article, and will gladly send it to Dxers 
Unlimited´s listeners that are space limited for installing a short wave 
antenna…

You can send your request for the 7 meters long wonder antenna file to 
inforhc at enet dot cu, again inforhc at enet dot cu or VIA AIR MAIL to 
Arnie Coro, Radio Havana Cuba, Havana , Cuba

Stay tuned for more radio hobby related information coming up after a 
short break for station ID. I am Arnie Coro, radio amateur CO2KK in Havana…

………………………

You are listening to Radio Havana Cuba, the name of the show is Dxers 
Unlimited and now here is our technical topics section of this mid week 
edition …Today I will be discussing the latest events related to the 
dreadful broadband over the power lines system, that is already causing 
severe problems to radio reception at every location where it has been 
installed. No matter what the sellers of those digital systems affirm 
about the adding of selective notch filters that supposedly protect the 
amateur bands from the horrible digital noise, the fact is that BPL, the 
Broadband over the Power Lines also known by the name of Power Line 
Communications or PLC is now under very careful scrutiny by 
telecommunications authorities around the world, due precisely to the 
harmful effects not only on amateur radio bands, but also on frequencies 
devoted to public safety and even aviation related communications . Also 
contributing to the BPL or PLC rejection is the fact that so far it has 
proven not to be capable of providing the supposedly low cost reliable 
broadband connections to Internet users… According to several recent 
articles published by specialized engineering publications, not trade 
magazines, the interference levels generated by the BPL systems are much 
higher than the figures claimed by their designers. The most recent move 
among the sellers of BPL systems seems to prove what engineers are 
denouncing, as announcements are now made that BPL new systems are now 
aiming at using microwave bands frequencies instead of the medium 
frequency , short wave and lower VHF bands now used . At the same time 
the lower cost and increasing ubiquity of fiber optics plus Wi-Fi , 
Wi-Max and similar technologies is acting as a deterrent to further BPL 
deployments.

Amateur radio associations around the world are carefully keeping an eye 
on BPL systems and Cuba is now exception with our national amateur radio 
federation of radio clubs, the Federacion de Radioaficionados de Cuba 
technical committee watching what is going on , as ETECSA, the national 
telecommunications services provider enterprise is, like many other 
similar companies around the world, exploring all available digital 
distribution systems , including several of the BPL technologies options.

Digital equipment noise levels from computers and related equipment is 
already at very high values in urban areas, making reception on the 
range of frequencies from VLF to the top end of the VHF low band around 
50 megaHertz more and more difficult.

Item four: Full size short wave curtain antennas are beyond the real 
possibilities of the typical radio amateur operator, but some lucky guys 
with a lot of real estate available and resources to set up those 
antennas ,especially for the 10 and 6 meters bands where sizes are more 
manageable , tell us that results are simply amazing, because the 
curtain arrays not only provide a lot of gain but also have much broader 
beamwidth than Yagi type antennas.

The key factor that provides the DX performance of a horizontal 
collinear array is the Take Off Angle ( TOA ) .This is calculated easily 
if you know the height of the lower set of dipoles from the ground. As a 
matter of fact, the ITU standard antennas are described using that 
parameter, for example, a 4, 4, 0.3 collinear will be used for short 
range coverage, while a 4, 4, 1,0 will be the choice for a very low take 
off angle ( typically 8 to 10 degrees above the horizon for the main lobe.
Because of the unsurmountable mechanical problems that come up if you 
try to change the height above ground of the lower level of dipoles , 
there is no other choice but to install different antennas in the same 
direction if you want to cover areas at different distances ( in the 
same azimuth )...
There is a difference between broadband collinear arrays of dipoles that 
are designed to cover a 2 to1 frequency range, for international short 
wave broadcasting use they are typically made for covering 6 to 12 mHz 
and 11 to 22 mHz ) or similar frequency coverages for other applications 
with a reasonable standing wave ratio ( although you can assist them by 
providing a set of several matching stubs at the base of the antenna 
that can be switched remotely , in order to keep the SWR below 1.5 or so )
For amateur radio use, the bandwidth provided by a rather thin linear 
dipole is more than enough to cover one band, although I remember a 
contest station years ago that installed a 14 to 28 mHz 4 X 4 0,8 
collinear and worked a lot of DX with it.
Another neat trick is to use a single wire reflector and place two 
collinear arrays on the opposite sides... so you get two antennas for 
the price of one passive reflector... two supporting structures, two 
antennas, a single wire reflector and two main directions, that can turn 
into SIX beams , if you add the easy to implement 15 - 0 - 15 degrees 
beam slewing that is typically also switched by remote control from the 
transmitter building.
The slight distortion of the horizontal radiation pattern will slightly 
reduced the antenna´s forward gain, but when we are talking about 15 to 
20 dB gain over a dipole, loosing 2 dB is of no concern !!!
One of the nice features of the curtain arrays is that they scale up and 
down very predicticably , so they are an ideal teaching tool for 
telecommunications engineering schools...
Designing broadband dipole elements for curtain arrays is another 
fascinating aspect of this technology too !!!

………………….

Si amigos, ASK ARNIE, la numero uno, the most popular section of the 
program is now on the air… Today´s question was sent by listeners in 
Canada, the USA, Norway, the UK and Trinidad and Tobago… They all want 
to know more about homebrewing receivers , transmitters and 
transceivers, and how difficult this may be… As Karl from Oslo says in 
his e-mail, the long Norwegian winter always keeps us at home a lot, so 
devoting time to learning how to build radios is a quite logical step 
after several years of short wave listening. Homebrewing radios and 
electronic accessories required for short wave listening and amateur 
radio use does involve a learning curve… It won´t be wise at all to try 
to assemble a very sophisticated kit, like the ELECRAFT K3 transceiver , 
if you are not really familiar with soldering, identifying of electronic 
components, and have a good understanding of circuit diagrams… You may 
want to start your homebrewing adventures with simple circuits that 
really work, and that won´t require a lot of debugging in case something 
goes wrong. Among my favorite first time radios for someone just 
beginning to homebrew equipment is the Moorabin Australian AM medium 
wave band receiver, to which you can later add an audio booster 
amplifier. The use of a high impedance Field Effect Transistor detector 
provides much better performance than the typical two or three bipolar 
transistors radios, and it also has much better selectivity. My dream 
beginners radio for using on the amateur bands is the Polyakov detector 
40 meters design by Michael Rainey AA1TJ, that has amazing sensitivity 
and is very easy to build. The Polyakov antiparallel diodes detector 
will not demodulate AM signals so the high power international broadcast 
stations that operate on the seven megaHertz segment above seven 
thousand two hundred kiloHertz will not be a problem. This little gem 
can be improved by adding two easily built audio filters, one peaking 
around 700 to 800 Hertz for CW reception and the other somewhat more 
sophisticated filter involves a bandpass design that aims at providing 
the best possible reception from 300 to 3000 Hertz, the band of 
frequencies required for voice communications.

Si amigos, you can start by homebrewing even a crystal set, or a simple

Regenerative receiver, move up the ladder to the Polyakov detector set 
and later add the audio filters to it… In a few months you will then be 
able to target a more ambitious project, like assembling one of the 
entry level kits that are now fortunately becoming available at very 
reasonable cost. Assembling a good quality kit has many advantages, and 
one of them is that your finished set will have the very nice look of 
factory built equipment , something that according to my personal 
experience is really hard to achieve when you homebrew from scratch…

…………

And now this announcement now from our engineering department amigos. 
Following an analysis of the current HF propagation conditions and the 
use of the short wave bands, we have decided to move our 6180 kiloHertz 
transmitter that is used to broadcast daily towards Central North 
America, to 6140 kiloHertz… Again, listeners in Central North America 
can now pick up RHC on 6140 kiloHertz from 01 to 07 Hours UTC in 
English, and on that same frequency we are broadcasting in Spanish from 
00 to 01 Hours UTC. 6180 kiloHertz will now be used in Spanish to 
Central America . And our morning Spanish language programs are now on 
two new frequencies, 15120 kiloHertz beaming to 160 degrees from Havana 
and 15360 beaming to130 degrees azimuth from Havana. The two new 
frequencies for the morning program are beaming to South America, so if 
you pick them up in North America , that´s the back of the main beam

Our evening programs in Spanish to South America are also on 13760 
kiloHertz with the 160 degrees beam , and on 11680 with the 172 degrees 
beam, so again, if you pick them up in North America, you are actually 
on the back of the beams of the curtain arrays, that have a typical 25 
to 30 dB front to back ratio…

And now at the end of the program, here is Arnie Coro´s Dxers 
Unlimited´s HF plus low band VHF propagation update and forecast… Solar 
activity continues at extremely low levels and the Earth is now moving 
away from the high speed solar wind stream, so expect less background 
noise, but the same low maximum useable frequencies of the extended 
period of very low solar activity with the solar flux near 65 to 66 
units and ZERO sunspots.

Sporadic E openings may be happening, even in the middle of the night, 
but more typically during the mid morning and mid afternoon hours… For 
meteor scatter propagation enthusiasts, the Perseids meteor shower will 
provide chances to pick up many new TV low band channel stations before 
the switch to digital TV in the USA make them go off the air forever…

Send your signal reports and comments about today´s program to inforhc 
at enet dot cu, or VIA AIR MAIL to Arnie Coro, Radio Havana Cuba , 
Havana, Cuba


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