Wireless Waffle - A whole spectrum of radio related rubbish

World Service English (Take II)signal strength
Saturday 27 December, 2008, 08:29 - Licensed
Posted by Administrator
bbcworldserviceFurther to last month's comments on receiving BBC World Service English in Europe, we've been testing out some of the frequencies that were suggested from the Wireless Waffle HQ in southern Great Britain. At all times checked, at least one BBC English frequency was available and at some times, several were audible. The list below gives the times checked and the frequencies that were audible. A simple rating system has been employed with one * representing poor reception, ** representing reasonable reception and *** representing a nice strong signal.

Reception will change from day-to-day and month-to-month so this list may not remain accurate indefinitely but it shows what can be achieved with a little effort. This list will be updated from time-to-time so check back occasionally if you're missing your Lily Bolero!

07:00 - 08:00 GMT
7255kHz***
9650kHz**
11760kHz**
08:00 - 09:00 GMT
11760kHz**
15400kHz**
09:00 - 10:00 GMT
11760kHz**
15400kHz**
17640kHz**
10:00 - 11:00 GMT
11760kHz** (though annoying co-channel China CNR-1)
11:00 - 12:00 GMT
11760kHz**
15310kHz**
17830kHz*
12:00 - 13:00 GMT
11760kHz**
15310kHz**
17830kHz*
13:00 - 14:00 GMT
11760kHz**
15310kHz**
17640kHz*
14:00 - 15:00 GMT
11760kHz**
17830kHz*
15:00 - 16:00 GMT
12095kHz**
15105kHz**
15400kHz**
17830kHz**
16:00 - 17:00 GMT
12095kHz**
15400kHz**
18:00 - 19:00 GMT
5875kHz**
19:00 - 20:00 GMT
5875kHz**

This information was last updated on 7 January 2009.
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World Service English in Europesignal strength
Saturday 22 November, 2008, 19:39 - Licensed
Posted by Administrator
bbcworldserviceThe end of an era is afoot (or at hand, whichever you prefer). Earlier this year the BBC World Service announced that it has stopped transmission of its English service to Western Europe. No longer will the strains of 'Lili Bolero' or 'Big Ben' be heard on the hour in France, Germany or anywhere east of Moscow. Or will it?

The BBC claim that certain frequencies destined for other parts of the world, notably Western Russia, may still be audible in some parts of Europe for those who absolutely insist on listening to the news from London with loads of hiss, crackle, distortion and fading. But to what extent is this possible? Is World Service short wave reception in Western Europe gone forever or is there still the possibility to listen in?

A scan of the material published by the BBC shows that there are still plenty of transmitters on-air carrying BBC World Service English (albeit different regional variants), pretty much around the clock. The question therefore is whether any of them are audible in Europe.

Whether or not a short wave transmission is audible in any given place depends on a number of factors including the transmission frequency, the time of day (in particular whether the path between transmitter and receiver is in daylight or darkness), the distance between transmitter and receiver and the intended target for the transmission. Take for example the World Service English transmission to Africa from its transmitter site on Ascension Island in the South Atlantic. At various times during the (European) day, this is on a frequency of 17830 kHz. This high frequency propagates well through areas in daylight and the direction of the transmission is roughly the same as the direction from Ascension to most of Europe. The distance between Ascension and Europe requires the transmission to hop into and out of the ionosphere a couple of times but on a normal day, if both ends of the path are in daylight, this should work. Barring any co-channel or strong adjacent channel interference, therefore, the BBC transmission from Ascension should be (and indeed is) audible in Europe.

During the hours of darkness, low frequencies (the 48, 41 and 31 metre band for example) tend to propagate well, whereas during the day, higher frequencies (the 25, 19 and 16 metre bands) will fare better. Taking all this into account, it should be possible to construct a schedule of which BBC World Service English programmes are most likely to be heard in Europe. Of course this will change twice a year as the winter and summer schedules take effect, but the principles should hold true.

With that in mind, here is the Wireless Waffle guide to receiving BBC World Service English in Europe on short wave. The frequencies shown are those that have the best chance of being received in Europe but which are directed to other regions (thus the programming material may not necessarily be appropriate). No account of possible interference has been made (for example it is known that the BBC frequency of 17640 kHz suffers strong adjacent channel interference in Europe from Africa No. 1 on 17630 kHz and China Radio International on 17650 kHz). Other frequencies have strong co-channel and adjacent channel interference too so it's definitely a case of 'if at first you don't succeed, try, try, try again'.

Midnight (GMT) to Dawn

Try:

5970 kHz (from Oman)
6005 kHz (from South Africa/Ascension)
6145 kHz (from Ascension)
6190 kHz (from South Africa)
6195 kHz (from Cyprus)
7105 kHz (from Oman)
7255 kHz (from Ascension)
7320 kHz (from Cyprus)
9410 kHz (from various sites)
9650 kHz (from South Africa)
11760 kHz (from Oman/Cyprus)
11765 kHz (from Oman/Portugal)
12035 kHz (from Cyprus)
12095 kHz (from Cyprus)

Daytime

Try:

11760 kHz (from Oman)
15105 kHz (from South Africa)
15310 kHz (from Thailand)
15400 kHz (from Ascension)
15420 kHz (from Cyprus/South Africa)
17640 kHz (from the Seychelles)
17830 kHz (from Ascension)
21470 kHz (from Ascension)

Dusk to Midnight

Try:

3915 kHz (from Singapore)
5875 kHz (from UK/Cyprus)
5955 kHz (from Oman/Singapore)
6155 kHz (from South Africa)
6190 kHz (from South Africa)
7445 kHz (from South Africa)
12095 kHz (from Cyprus)

Note that these frequencies were taken from the Winter 2008/9 broadcast schedule and may be very out of date if you are reading this in 2013! Also, not all frequencies are on for the whole period (some are not daily either), so you will have to tune around between the ones listed to find the best possible reception for the time you are listening.
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Stereo-Phonicssignal strength
Friday 8 February, 2008, 19:10 - Licensed
Posted by Administrator
radio bognor logoThe Wireless Waffle team used to supply VHF FM radio transmitters for Restricted Service Licence (RSL) stations in the UK. The licences allowed a maximum transmitter power of 25 Watts and a maximum antenna height of 10 metres above the ground. As such, the range of such stations was normally very limited compared to regular FM stations who used powers typically in excess of 400 Watts and with much higher antennas. To maximise the range of the RSLs, it was best to identify and use transmitter sites which were as high above the surrounding land as possible but in some areas the land was so flat that no such sites existed.

One question which was constantly asked by the operators of such stations was, "Should I broadcast in stereo?". On the face of it, stereo is the norm for FM broadcasts and most stations believed that if they weren't in stereo they would be seen somehow as inferior. However, what most failed to take into account was the fact that in order to receive a good quality stereo signal, the signal strength has to be 10 times (20dB) higher than that required to receive a good quality mono signal. This translates into a reduction in coverage area of 100 times, i.e. the coverage in stereo is only a hundredth of the coverage area achieved by the same transmitter in mono (ignoring topographical issues such as terrain and buildings).

Why is there so much difference? The answer lies in the bandwidth which a stereo signal occupies compared to a mono signal. The audio bandwidth of an FM transmission lies in the range of 30 Hz to 15000 Hz (15 kHz). However the way that a stereo signal is generated expands this bandwidth to 53000 Hz (53 kHz). (Don't get this confused with the RF bandwidth of the signal which is 180 kHz for mono and 256 kHz for stereo).

fmspectrumHow does the audio bandwidth extend to 53 kHz? Well the mono signal which is made by adding the left (L) and right (R) channels together - expressed as L+R - is transmitted as usual so that the resulting signal is compatible with mono receivers. The difference between the left and right channel (L-R) is amplitude modulated onto a carrier at 38000 Hz (38kHz). This produces a signal which occupies the audio frequencies from 23 to 53 kHz - above the standard audio range and thus inaudible on a mono receiver.

A 'pilot' tone which is a low-level tone at 19000 Hz (19kHz) is also added to this signal and then the whole lot is sent to the FM transmitter. In a stereo receiver the presence of the pilot tone triggers the stereo decoder to recover the original signals. The left channel is reproduced by adding the mono to the stereo difference signal (L+R+L-R=2L) and the right channel is produced by subtracting the difference signal from the mono signal (L+R-(L-R)=L+R-L+R=2R).

The noise received by an FM receiver increases as the square of the bandwidth of the modulated/demodulated signal and as such the increase in noise (i.e. the decrease in signal to noise) for a stereo signal is (53/15)² or 12.5 times. Some of this increase is counterbalanced by 'pre-emphasis' where higher audio frequencies are enhanced before transmission and then reduced at the receiver, reducing the effect of some of the noise. The resulting improvement leaves a difference of the factor of 10 mentioned above.

hisssThe question of whether to broadcast in stereo for a low-power RSL (or indeed a pirate!) FM station is therefore a question of quality and coverage. If you have a high site and can expect that most of the listeners you wish to target will receive a good strong signal, stereo is great. If not (which is usually the case), using mono ensures your coverage is maximised. Of course, in fringe stereo areas where the signal becomes 'hissy' the listeners could always switch to mono, but how many people actually know that this solves the problem, let alone know where the mono/stereo switch on their receiver is?!

There are some pirate stations who transmit only the pilot tone so that the stereo 'light' on receivers comes on, which looks nice, but don't actually transmit in stereo. This is the worst possible case, as all it will serve to do is reduce the coverage, without giving any additional benefit to the listeners!
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iTrip iNterferencesignal strength
Monday 19 February, 2007, 04:47 - Licensed
i tripSo you've bought your iTrip, micro FM transmitter, AirPlay, PodFreq or similar and plugged it into your iPod or PSP and managed to get it to transmit somewhere in the FM band. You even manage to find a clear FM frequency at home where you don't suffer interference from local radio transmitters (or your neighbours' iTrips!) Then you decide to go on a road trip and you take it into your car. Driving around the UK you soon find that the FM frequency that was clear at home is home to a neighbouring radio station and that as you drive along, reception of your iTrip is blighted by interference from local radio stations (how dare they!)

What you need is a frequency somewhere in the FM band that is clear of licensed stations so that you can drive up and down the country without ever suffering interference or having to re-tune your iTrip. Dream on! There are only nine frequencies in the mainland UK which are not used by high powered local (or national) radio stations, these being 87.5, 87.6, 87.7, 87.8, 87.9, 88.0, 105.0, 105.5 and 108.0 MHz. If you include pirate radio stations on the list, there are virtually no clear frequencies at all - Shine on 87.9, Point Blank on 108.0 and UK's Finest on 87.5 being good examples of stations that occupy these seemingly clear channels. However to get clear, interference-free reception it's wise to have at least 200 kHz between you and any other station. Pirates aside, this means that 88.0, 105.0, 105.5 and 108.0 are out leaving only 87.5 - 87.9 MHz. This 'clear' spectrum is not, however, unused: 87.7 and 87.8 MHz are the most common frequencies for low-power FM stations, either short term (RSL) stations, or the new wave of community radio stations.

So what to do? Well excluding one or two pirates, using 87.5 MHz is a fairly safe bet, unless you happen to live in a major city where pirates are prevalent or near a long-term RSL or community station on 87.7. But what about elsewhere on the FM dial? Are there any 'cold-spots' where there is a smaller likelihood of coming across an interfering station.

The main BBC sub-bands (88.1 - 90.2 for Radio 2, 90.3 - 92.4 for Radio 3, 92.5 - 94.6 for Radio 4, and Radio Scotland and 97.7 - 99.8 MHz for Radio 1) are pretty chocker-block and many of the transmitters are very high power (250 kW is not totally uncommon) so they are not a good place to look. The other BBC sub-bands, 94.7 - 96.0 and 103.5 - 104.9 MHz or thereabouts, used for BBC local radio, or BBC Radio 4 in Scotland, BBC Wales and BBC Cymru and are also shared with independent local radio (ILR) in places, are pretty busy too. Not doing too well so far... However, an analysis of the ILR bands (96.1 - 97.6 and 99.9 - 103.4 MHz and 105.0 to 107.9) shows some interesting anomolies.

961 976mhz

In the lower of these two bands, the frequency 96.8 is only used twice (though it is home to a whacking 250kW BBC Cymru transmission in Wales) and 96.1 and 97.3 are only used 3 times.

999 1034mhz

In the range 99.9 to 103.4, 99.9, 100.6 and 102.1 MHz are only used once (though the band 99.9 to 102.0 is repleat with very high powered Classic FM transmitters) and there are several frequencies only used twice across the UK. Finally, in the range 105.0 to 107.9, the frequencies 105.0 and 105.5 MHz are not used at all, and the frequencies 105.1, 105.3, 105.9, and 106.5 MHz are only used once.

1050 1079mhz

Although this analysis is based on slightly old data (2005) published by Ofcom it does tend to suggest that in addition to 87.5, there are other frequencies which might provide relatively interference free iTrip usage across the UK without needing to re-tune. Unless your local station happens to be one one of these frequencies (or one adjacent to it), I would suggest 99.9, 105.0 (or 105.1) and 106.5 MHz as possible alternatives.
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