That's such a pity. Building a simple AM radio receiver was a simplest and coolest electronics project to do with kids.
You need two transistors, a ferrite coil and a small set of simpler elements. And it is so simple you can actually explain what every part of the circuit does.
And then the reward... Once built you could listen to BBC regardless of where you are in Europe. My kids just LOVED IT, no Netflix K-Drama replaces this experience. My daughter was listening to BBC on her radio every night going to sleep.
mpweiher 14 hours ago [-]
We did that in my physics high school class.
Then we took away components until we had virtually nothing left, a diode I think(?), and still we had some signal.
Turns out there was a transmitter on the top of the hill the school was also on.
Fun times.
HPsquared 6 hours ago [-]
With enough power anything is possible... If you put random vegetation directly on the radio mast (NOT recommended!), it makes sound directly-
Yes, I did exactly this in England 30 or so years ago. It was one of the suggestions in an electronics kit for children, the one with springs to connect the components together.
raverbashing 18 hours ago [-]
Look at this fancy pants needing a transistor for that /s
(but yes I do miss those simpler days - but I guess the basics now is making an Arduino flash an LED)
jimnotgym 22 hours ago [-]
I'm very sad to see this go.
I was listening to DAB in the car, not so far from here last weekend, and it kept cutting out. Whereas you could get LW everywhere!
I developed a love of cricket on Test Match Special from a very young age. A tiny inexpensive radio could get it anywhere. I actually never minded the interruptions from the Shipping Forecast, the real reason they kept this service up for so long. I know there are many ways to get a forecast now, none of which is as reliable as radio 4.
gorgoiler 19 hours ago [-]
Some things in life happen for the very last time and we never realize it. Where were you when Jim Maxwell interrupted the test match coverage, for the final time, to declare that “listeners on long wave will now hear the shipp-ing four-cairst”? :)
With apologies to Affabeck Lauder
WarOnPrivacy 7 hours ago [-]
> when Jim Maxwell interrupted the test match coverage for the final time...
Jim Maxwell has thrown to the shipping forecast for the last time
-- July 31, 2023
Digital radio was always going to be crap, it doesn't degrade gradually as signal gets worse
They should have just put all the money into a better 4G network and ran radio through that.
cogman10 14 hours ago [-]
> it doesn't degrade gradually as signal gets worse
That has a lot more to do with the dated implementation and less to do with digital radio. There are a number of digital broadcasting techniques which can minimize and compensate for noise, including a slight delay with a signal correction and fault tolerant codecs.
DAB was implemented using the old MPEG2 audio codec. DAB+ uses the now 15 year old codec HE-AAC which isn't really designed to handle corruption. Opus handles loss a lot better (see their examples https://opus-codec.org/examples/ )
bestham 11 hours ago [-]
> DAB was implemented using the old MPEG2 audio codec.
No, it was MPEG 1 layer 2 often at 192 kbps. Later they switched to HE-AAC with DAB+.
dotwaffle 10 hours ago [-]
DAB+ uses EEP (and RS) which was deliberately chosen to give better signal quality all the way to the point of losing reception. Old DAB used UEP which degrades faster, but instead of having no signal, it went to a muddier / warbling kind of sound that characterised early DAB receivers.
And technically while some people do call it MPEG2, it's actually MP2, also known as MPEG-1 Audio Layer 2, an audio codec in the same family as MP3 (MPEG-1 Audio Layer 3).
I imagine that today they'd probably use something like Opus and a fountain code or similar, yes... But you can't expect everyone to replace their radio every 10-15 years ;)
cogman10 9 hours ago [-]
> I imagine that today they'd probably use something like Opus and a fountain code or similar, yes... But you can't expect everyone to replace their radio every 10-15 years ;)
Certainly not, which is why I believe DAB (no plus) is still floating around. And I'm not really suggesting that they made a bad choice.
I'm mostly pushing back on the notion that digital means all or nothing audio. If broadcast audio stays alive (which it may not) then I hope the next standard is opus, fountain codes, and QAM-64 or similar so we can stuff a bunch of bits into error correction while still having graceful degradation, better than analog, when the signal degrades.
dotwaffle 9 hours ago [-]
I could be wrong, but I think DAB uses DQPSK (which can be thought of as a special version of QAM 4 if you squint a bit) and not anything like the higher QAM constellations because it's deliberately designed for mobile (road, train etc) where you don't have a steady signal, it can vary a lot with motion, so QAM 64 wouldn't really be possible.
Though I did a quick check and apparently DRM+ uses QAM-16, so perhaps my knowledge is far too out of date :S
cogman10 9 hours ago [-]
LTE and 5g both use QAM 256 and higher. Wifi 7 can use QAM 4096 (though not a lot of motion there).
dotwaffle 7 hours ago [-]
That's a good point about LTE/5G. Thanks!
fredoralive 18 hours ago [-]
Bit of hindsight bias there, DAB was first developed in the mid 1990s, ubiquitous fast wireless IP in everyone’s pockets is at least a decade, perhaps nearer to 20 years in the future. There are quite a few transitionary technologies that we needn’t have developed had we just waited for something better to come along (but without the R&D into some of them…).
(Also doesn’t analogue FM also kinda cut off fairly abruptly?)
mybrowsercache 17 hours ago [-]
FM stays listenable even with heavy distortions when you drive out of range and you can decide for yourself when you no longer tolerate the signal. Digital doesn’t give you warnings and just goes silent
dingaling 14 hours ago [-]
In my experience DAB goes painfully 'squawky' and squeaky before finally cutting out, it's unbearable in headphones.
This video gives a good example of the signal breaking down from 00:38
Which either recovers or doesn’t. The gap between fully recovered and indecodavle is tiny.
hulitu 14 hours ago [-]
> Not playing distorted, noisy signals is a feature I greatly appreciate
Haha. The DAB+ signals are compressed as much as possible.
guenthert 14 hours ago [-]
Some more than others. E.g. Deutschlandfunk Kultur is broadcasted in decent quality, as is NDR3. Klassik Radio fares poorer, but that's due to the bandwidth allocated to them.
Comparison here is FM, not FLAC.
gosub100 11 hours ago [-]
Especially so with digital public TV. its absolutely unusable. and now they can't stand that people want to share sports broadcasts, so they are updating it again to add encryption. I can't believe anyone watches it.
expedition32 18 hours ago [-]
I have a DAB radio and it gets constant interference. Meanwhile FM is stable. In the same set up.
Really soured me on this digital radio technology.
yakkers 5 hours ago [-]
At the very least, I wish Digital Radio Mondiale won out over DAB. It’s designed to use the existing long, medium and short-wave bands and can even co-exist with an AM broadcast. I imagine digital radio would work quite well with the propagation characteristics of the mediumwave (and longwave) broadcast band.
There’s also DRM+ for the VHF band, including the FM broadcast band.
One-to-one communications and broadcast communications are different. Perhaps every 4G tower could broadcast the news on a special data channel, but it would be a separate system from the main 4G data channel.
jhoechtl 8 hours ago [-]
They do its called 5G broadcast. No, this doesn't require point to point connections.
arprocter 10 hours ago [-]
Funny you mention the cricket
In the HBO miniseries Generation Kill the marines are tuned into the beeb long wave to get news updates, and there's a cricket score read out in the first episode
> The process by which a Trident submarine commander would determine if the British government continues to function includes, among other checks, establishing whether BBC Radio 4 continues broadcasting [on long wave]
> Submarines on patrol were reported to have briefly gone on nuclear alert in 2004 when Radio 4 went off the air for 15 minutes due to a power cut.
bilegeek 1 days ago [-]
IMO, when the last LW transmitter shuts down, the whole band needs to be reallocated to hams. Realistic small-ish antennas are shockingly doable with a capacitance hat, loading coil, and counterpoise.
RobotToaster 17 hours ago [-]
Best we can do is privatisation and selling it to a party donor.
xattt 15 hours ago [-]
LW-HFT all the wayyyyy!
- some cryptobro
/s
ErroneousBosh 9 hours ago [-]
That'd be quite a challenge!
From a quick Google I see that HFT carries out trades in an average of 700ns, which is close to the cycle time of a 150kHz carrier, so you'd have to come up with some really clever phase modulation scheme that could carry meaningful data in *one single cycle*.
You're definitely going down the SDR route for that.
WorldMaker 5 hours ago [-]
It's still technically "high frequency", just in terms of sound rather than trade volume. Also if it's some cryptobro's pet project it probably needs time to settle on some blockchain ledger, so extra reason to find a new meaning for "high frequency" like sound wave cycle to confuse the marketing on the project.
yakkers 1 days ago [-]
There’s still a lot of utility stations in the LF/longwave band. Particularly time signals (WWVB in the US, ALS162 in France, DCF77 in Germany, JJY in Japan, etc.) and NDB beacons.
At least in VK/Australia, there’s the 2200 meter band, but it’s quite limited (1W power limit, CW/digital only, 135.7–137.8 kHz).
At the same time, as much as I don’t want the AM broadcast band to die, I’d love an amateur band in the lower/middle part of MF/MW.
bilegeek 24 hours ago [-]
> There’s still a lot of utility stations in the LF/longwave band. Particularly time signals (WWVB in the US, ALS162 in France, DCF77 in Germany, JJY in Japan, etc.)
I meant just the broadcast band 148.5-283.5 kHz. (Though I'd love if 2200m and 630m were just a bit wider.)
> and NDB beacons.
Good point[1]. So 148.5-200 kHz in ITU Region 2 (and keep LowFER allowances on 160-190kHz as a consolation prize.)
In the UK we have 2200m but it's 1W *ERP*, so you're probably running a good couple of kW to get there with any practicable aerial.
We've also got a chunk just off the bottom of MW around 475kHz, which ought to be good for long-range night-time communications. It's licenced for CW, QRSS, and narrow-band digital modes.
pfdietz 14 hours ago [-]
> Particularly time signals
Doesn't GPS utterly replace this?
mrob 14 hours ago [-]
Longwave penetrates buildings better than GPS and is harder to jam.
rafski123 14 hours ago [-]
Many wall clocks and wrist watches (Casio WaveCeptors) plus cars set their times from radio.
ballooney 12 hours ago [-]
In no way whatsoever, for low power devices.
LeoPanthera 19 hours ago [-]
"Longwave" has no universally agreed defintion, but good news, amateur radio already has usage of 135.7 kHz to 137.8 kHz.
Building equipment that works on frequencies this low, and avoiding natural interference, can be extremely difficult.
ErroneousBosh 9 hours ago [-]
Building aerials that work efficiently at 136kHz is difficult (although I have a croft that's approximately long enough for a half-wave dipole in NW Scotland, close to the sea for a good groundplane).
Actually generating the signal you could do with a moderately expensive USB soundcard, directly synthesizing it with simple VST-like plugin. Mad to think about, really.
toxik 20 hours ago [-]
I hate to rain on your parade, but a lot of interests want the low-frequency spectrum. It will absolutely never be allocated to amateur radio.
K0balt 15 hours ago [-]
What are they wanting to build? It’s hard to put much information on lower frequencies, afaik?
wartywhoa23 14 hours ago [-]
I bet it will have to do with the military, almost inevitably.
hylaride 12 hours ago [-]
With the risks to GPS becoming more acute, many jurisdictions are seriously entertaining bringing back a modern version of LORAN.
There's also high frequency firms that want to muscle their way into shortwave frequencies as they can have lower latency between trading sites (eg NYC and Chicago) since the physical infra isn't a direct link as the crow flies (as well as the speed of light being slowed in fiber optic lines). They've even restarted some microwave links, as they don't necessarily need a lot of bandwidth, just latency.
K0balt 10 hours ago [-]
LORAN was actually pretty awesome.
ErroneousBosh 9 hours ago [-]
It's not really much use for anything. What "interests" would you think are interested in it?
microgpt 17 hours ago [-]
I thought hams already had plenty of bands. Is there not one in this range?
aeonik 16 hours ago [-]
There is a very small slice that amateur radio gets in this band, in theory it would be nice to have a bigger slice, but honestly, building antennas for this band to transmit anything worthwhile would be pretty hard.
My 7 Mhz antenna (HF, 40m band) is 67 feet long, and goes across by whole house.
The smallest antenna you could get away with for LF would be hundreds to thousands of feet long.
You might be able to go smaller if you enjoy suffering. Though, there are some pretty creative antenna designs that defy logic.
microgpt 15 hours ago [-]
Does stapling it to your neighbours' fence lines and painting it like the wood count as creative?
I wonder if you can couple to your local distribution grid, and not get arrested.
aeonik 11 hours ago [-]
I just string the antenna across my attic.
Coupling into my power upstairs is a bit of a problem sometimes though.
Pirating power is something I've heard that happens, but I looked it up, and couldn't find an actual cited example of someone doing it via induction.
Plenty of people doing it via extension cords and device tampering though.
ErroneousBosh 9 hours ago [-]
> Coupling into my power upstairs is a bit of a problem sometimes though.
I haven't worked with my end-fed on 40m for a couple of years. We've recently all had our crappy old aluminium-cored BT lines replaced with shiny new fibre though, so this time I am unlikely to lift the coveted Worked All DSLAMs trophy ;-)
dotwaffle 10 hours ago [-]
Before Radio 4 LW was renumbered in 1988, it was 200kHz. And before the early 70s it was referred to as it's wavelength... 1500m :P
The witness of the conspiracy practice in me says that the opposite is more likely to happen in the world whose govenments strive to limit its ineterconnectedness and turn it into a set of isolated anclaves not unlike Orwell's Eurasia, Eastasia and Oceania.
The next logical step in that direction would be cracking down on HAM, not liberalization of it.
"valves" being british for vacuum tubes (though there's an entire generation of scifi where future computers are built around miniaturized valves even among american authors for some reason, Asimov in particular)
UncleOxidant 1 days ago [-]
List of longwave radio broadcasters - including those that have shut down. The shutdown list is much longer than those remaining (only 7 remaining).
Apparently, public longwave radio broadcasters were never a thing in the Western Hemisphere. Too bad.
_whiteCaps_ 1 days ago [-]
Seems like everyone's shutting down radio services. CHU and Weather radio in Canada too :(
mschuster91 1 days ago [-]
These transmitters consume insane amounts of power. Per Wikipedia, that's 500 kW of rated transmission power for this one [1], so probably a solid megawatt of grid power input.
At 30 ct/kWh, that's 300€ per hour, 7200€ per day and about 2.6 million € a year - for a customer base that is only decreasing.
And by the virtue of shortwave propagation, it could be heard across the world. For the past month and a half (from when the news of its impending shutdown was revealed) I was regularly picking it up in Australia right up until the bitter end.
ggm 1 days ago [-]
Wave skip? (Naieve question)
yakkers 1 days ago [-]
HF propagates through skywave (most reliably from 5-30MHz), which is where the signal bounces off the ionosphere.
In the MF (AM broadcast) band, you can observe this at night - in Australia I can pick up the 50kW Melbourne ABC station (public broadcaster) at 774kHz with a good radio, just about across the entire country.
In the LF (longwave) band, the earth’s surface and the ionosphere start to behave more like a waveguide than skywave. This is actually more reliable/consistent than even HF, but you need massive transmitting antennas due to the large wavelengths involved.
HF also generally wins for distance covered per watt - despite the massive power of Radio 4 longwave, I’d have no chance of hearing it reach Australia.
jhoechtl 8 hours ago [-]
Everyone is talking about the massive power of Radio 4 - it wasn't. Radio poland or algeria have much stronger LW broadcast.
yakkers 6 hours ago [-]
It’s still quite a lot of power for AM (amplitude modulation) broadcast on any band.
If Radio 4 was on shortwave with 500kW transmitters, I probably would have been able to listen in on my radio at home in Australia, no UK-located KiwiSDR required.
Japan used to have a 500kW transmitter on 774kHz (mediumwave/AM broadcast band) for NHK Radio 2, and when the local broadcaster on 774 kHz went off air at midnight for scheduled maintenance, I could pick it up on my car’s stereo quite easily.
Is that emitted power, consumed power, or effective radiated power? Without knowing that, your power calculations have no meaning.
Radio stations are usually measured by the last of those: Effective radiated power.
You can have a radio station with a 50,000 watt ERP, but running only a 2,500 watt transmitter.
For FM radio stations, it's all about the height of the transmitter above average terrain. For AM, it's about the ground conductivity and frequency.
I once worked at a 1,000-watt AM station that had a signal much larger and clearer signal than the 5,000-watt AM station a few miles away.
I'm not a radio engineer, but I'm sure there are plenty on HN who can correct and clarify what I've written.
BuildTheRobots 1 days ago [-]
Also bear in mind that Droitwitch is radiating 3 different services. Talk Sport (1053 kHz), Radio 4 (198 kHz) and Radio Five Live (693 kHz).
My suspicion is that this means an exciter and a stack of amps per service, which then go through a two stage combiner and out to the antenna. There might even be a pair of exciters and amps per service depending on redundancy.
The combiners (certainly for FM/DAB/TV services) also cause cumulative attenuation as the signal gets combined each time, so even if all 3 are radiating at the same power, the first in the chain might need twice as much amplification to make up for losses.
I believe they're still using a pair of Marconi B6042 transmitters (250kW each, in parallel) to provide at least one of the services.
fredoralive 19 hours ago [-]
As far as I know the medium wave services aren’t transmitted from the same antenna as Radio 4 LW, they have separate antenna, albeit with one of them (5 Live) doubling up as one of the support towers for the large long wave T antenna slung between the two large towers on site. Although I suspect the plan would be to move 5 Live to the currently unused Absolute / Virgin antenna eventually so they can demolish the long wave setup.
BuildTheRobots 17 hours ago [-]
You're absolutely right and I was flagrantly wrong - Droitwich does use different antennas for the different LW and MF services (though still has to combine the output of two transmitters for the same service to increase the power and offer redundancy).
I was very much getting myself confused with some of their other transmission sites where they take multiple DAB or DTV services, modulate, amplify and combine them and then broadcast through the same antenna.
mschuster91 1 days ago [-]
> Is that emitted power, consumed power, or effective radiated power?
I can't edit my previous comment (which incorrectly implied that the 3 stations at Droitwitch are going out of the same antenna), but I've done more research and have more information.
Droitwitch LW's antenna uses a T-aerial suspended between two 210m steel masts acting as massive capacitive top-loaded vertical monopole. The signal isn't beamed or shaped, it propagates omnidirectionally and this style of antenna offers _0 dB_ of ERP increase.
Even worse, they're transmitting AM, so the power output dynamically increases with the volume of the analogue audio being transmitted. If you cut off the input to Droitwitch, it'd still be putting out a 500kW carrier wave. When audio is applied the amplitude of the carrier is modulated, so for peak loudness (someone shouting or the loudest spike in music) it can take an extra 50% power to create the upper and lower sidebands - at peak, the Vapotron tubes could be putting out a combined 750kW.
The amplification stage is only ~70% efficient as well, so at peak power it's possible that the site is pulling nearly 1MW from the grid.
--
Compared to a modern UHF DTV transmitter station the differences are wild. The big transmitter near me is putting out 6* DTV MUX's at 174kW ERP each, but that's through a 15dBd UHF array at the top of the mast which gives an obscene amount of gain.
- Mains draw at the wall ~150kW (including cooling and ancillary systems).
- Total TPO (RF energy leaving the cabs) from each of the six transmitters is only ~52kW combined (8.7kW each)
- Output of the combiners after losses of ~0.5dB is ~46kW. We can expect another ~1.5dB of attenuation after forcing it up 300m of waveguide to the top of the tower so we're now sat at a "mere" ~33kW of RF energy going into the bottom of our antenna.
- 33kW with a +15dBd gain gets us to an ERP from the antenna of 1.044 MW.
--------------
Note: Numbers compiled from public sources. All mistakes and misunderstandings are mine. Whilst I do work in a tangentially related industry this is completely out of my area of expertise - in the same way that working as a cleaner at an aeroplane does not mean one knows how to fly or maintain a plane.
dotwaffle 10 hours ago [-]
> so for peak loudness (someone shouting or the loudest spike in music) it can take an extra 50% power to create the upper and lower sidebands
Some people save energy by turning their appliances off at the plug rather than leaving them on standby. Clearly Radio 4 chose to avoid having Brian Blessed on too frequently instead ;)
mschuster91 12 hours ago [-]
Your math looks reasonable but eh, it's 34 °C indoors and 38 °C outdoors...
PunchyHamster 15 hours ago [-]
You'd have to calculate it by watt per area covered; FM ones are of lower power but you just need more of them coz they have lower range.
It’s funny that at just the phrase ‘Long Wave’ my mind jumps back the “long wave radio Atlantic 252”.
I miss the days of jingles.
nickcw 1 days ago [-]
The Droitwich transmitter used to transmit on exactly 200 kHz which I always thought was very cool, but it moved to 198 kHz in 1988 to better harmonize with European stations.
The program was mostly the same as BBC Radio 4 but it used to diverge at certain times of day. I used to be woken up at 5am every day by my parents clock radio with the farming news which was very dull, but easy to sleep through.
mark-r 1 days ago [-]
Thanks for mentioning the actual frequency. The article says "long wave" many times without specifying what it actually means.
LeoPanthera 1 days ago [-]
"Longwave", usually written without a space, is an informal and not well-defined term for radio frequencies lower than the AM broadcast band, which in Europe is known as "medium wave".
In the USA there have never been commercial longwave stations, though various WWV time signals are broadcast in that band.
reaperducer 1 days ago [-]
It was my father's morning alarm, too. But he was a couple of thousand miles away in New York state.
That, and Atlantic 252 (I believe now long gone) were what he woke up to every morning.
gavinward 1 days ago [-]
Despite the name I would not have guessed you could pick up Atlantic 252 in the US. The quality of it wasn't great for listening to music.
"Although the transmitter was in Ireland, the signal's reach meant that it was often looked upon as a "UK national station". Reception reports were received from such locations as Berlin, Finland, Ibiza and Moscow."
danielabinav160 18 hours ago [-]
LW is still a fallback when internet and mobile go down simultaneously. Quietly important.
petilon 11 hours ago [-]
> Terrestrial television will surely follow
I hope not. I am saving $80 per month by recording over-the-air TV using Tivo. I only want the major networks, and recording them over the air is free. Tivo DVR is great for OTA and their service is still active but sadly they have stopped selling their DVR.
KaiserPro 15 hours ago [-]
There is precisely one thing that keeps 198LW online: economy seven.
I'm sad to hear the service has gone off the air. I was a constant listener to BBC Radio 4 on 198 kHz growing up in Dublin. It was a valuable window onto the world.
Listening to the last transmission there, I note that the continuity announcer, (the Irish) Al Ryan, signed off with 'oíche mhaith', i.e. 'goodnight' in Irish. A nice nod, I think, to all the former LW listeners in Ireland.
nenadg 16 hours ago [-]
They can pry long wave radio from my cold dead hands
One can listen to the live closure broadcast via this WebSDR website, by tuning it to AM 198 kHz.
"You are listening to 198 kHz longwave. BBC Radio 4 is no longer available on this frequency. However, you can find Radio 4 many other ways. You can find BBC Radio 4 online, via BBC Sounds. Radio 4 is available on DAB digital radio and through your digital television, including freely. Radio 4 is also available via FM radio, on 92 to 95 MHz and 103 to 105 MHz. Plus, you can listen via your smart speaker: just say 'play Radio 4'. Information on how to listen can be found on the BBC website, at bbc.co.uk/reception."
asdefghyk 20 hours ago [-]
Side Note -
VLF ( Very Low Frequency ) signals (3-30 kHz) propagate via surface wave or skywave, offering stable communication for submarines through saltwater.
That is too bad, you would think these could be kept active for historical purposes. But seems these services are all being turned off even though I heard a few were very useful in this day and age.
cjs_ac 1 days ago [-]
IIRC, their operation relies on enormous vacuum tubes that the BBC can’t get replacements for any more.
RachelF 1 days ago [-]
In some way it is short-sited, as radio is a good backup medium for global communications in case the entire Internet ever goes down.
Vacuum tubes also aren't vulnerable to nuclear weapon electro-magnetic pulses.
However, other than ham radio enthusiasts I guess no one listens to analogue radio anymore.
phire 20 hours ago [-]
This transmitter doesn't really have the range for reliable global communication, it's optimised for covering the UK. For the global communication usecase, there are other networks of military transmitters (DHFCS) that are much better suited for the job, and they aren't being shut down any time soon.
What it did provide was a simple but reliable way to maintain emergency broadcast to general public within Britain. And it probably should have been kept online just for that reason.
microgpt 17 hours ago [-]
Except nobody has a radio any more, certainly not one that receives LF. People have cellphones, and cellphones have a mandatory feature that lets the government display a message on everyone's screen, usually accompanied by loud and scary beeping. That's the new emergency broadcast mechanism. It's not as simple, but at least people actually see it.
hdgvhicv 19 hours ago [-]
Very few radios can pick up long wave now. My car certainly won’t.
Even when they can most people
Wouldn’t have a clue to listen to it.
There’s a reason LW isn’t critical national infrastructure.
jasonjayr 1 days ago [-]
I got my RTL-SDR to see what I could listen to, and by the time I tuned in, nearly all the short wave stations I could tune to were just broadcasting evangelical religious stuff, or other crazy conspiracy stuff. It's remarkable that these powerful stations spend most of their broadcast day transmitting that content.
a57721 7 hours ago [-]
Most international broadcasters have left the shortwave band quite some time ago, unfortunately. I think it is still easy to find BBC, China Radio International, Romanian radio, Radio Havana Cuba, but the list is relatively short (compared to 20 years ago).
In the US, WRMI sells its air time to anyone at low prices. It's mostly religious stuff but there are some regular music shows too, I think.
pessimizer 1 days ago [-]
They still broadcast on FM.
dingaling 22 hours ago [-]
... on a patchwork off different frequencies across the UK due to the poor propagation of VHF
fredoralive 18 hours ago [-]
Doesn’t RDS mostly solve that for the most common case where frequency changes becomes an issue (car radios).
KaiserPro 15 hours ago [-]
Yup, and DAB also still works.
K0balt 15 hours ago [-]
Umm mostly. IMHO DAB is a failure, at least for vehicles.
hdgvhicv 14 hours ago [-]
I listen almost exclusively on dab in the car. It auto fails to FM but it’s rare I go somewhere where that happens.
K0balt 14 hours ago [-]
It’s probably highly variable depending on location and the quality of your radio/antenna. It’s useless where I am.
jstanley 1 days ago [-]
It's hard to believe that civilisation has lost the ability to build longwave radio transmitters.
microgpt 17 hours ago [-]
It's like the moon rocket. At any time we could have restarted that program from scratch and run it again, but what would the point be? We don't have the direct ability to make one but we have the ability to gain the ability to make one.
If we did regain the capability it would probably be solid-state.
jstanley 15 hours ago [-]
I don't think it's like that at all. I bet you could build a perfectly serviceable replacement at home without needing to spin up any special manufacturing equipment, using off-the-shelf components.
For that matter I'd be somewhat surprised if you can't simply buy a ready-made replacement.
microgpt 15 hours ago [-]
A 500kW LF amplifier? Things do have to be designed to their individual requirements, you can't just buy a car stereo amp and turn it up to 1000.
Thanks for sharing this, it surely blows the theory about the lost art of building powerful transmitters out of the water.
gerdesj 1 days ago [-]
We do spend out quite a lot here in the UK for the BBC. They could easily dump a couple of expensive presenters and use the savings for vacuum tubes, if that is what is needed.
No idea where vacuum tubes were invented but I'm sure the BBC could find someone to make them.
andyjohnson0 19 hours ago [-]
> No idea where vacuum tubes were invented but I'm sure the BBC could find someone to make them.
The BBC has just cut its budget by £500 million, in an apparent attempt to limit the damage from the latest charter renewal process - which determines its funding. The new director general (ie ceo) is an ex-Google person, and they seem to be pivoting to become a social media content provider. So I'm pretty sure that spending licence fee money on making vacuum tubes to broadcast a signal that nobody under forty listens to wouldnt get past a value for money test.
(I like the BBC and its radio output, and I'm one of those weirdos who still pays the licence fee despite never watching tv or any of the stuff that the licence fee is required for. But it is becoming increasingly lost to me: focussed on triviality and politically cowed. Sadly, I no longer expect it to last.)
microgpt 17 hours ago [-]
I thought the license fee was a tax. You have to pay it, except in extremely specific scenarios that are basically just the bureaucracy's way of saying it's technically optional even though it isn't. AFAIK you have to own no devices capable of receiving BBC broadcasts - this includes most phones and computers since they broadcast on the internet.
Symbiote 16 hours ago [-]
You only need the license if you watch live TV (on any service) or use BBC iPlayer.
If you only watch DVDs, or stream movies etc, you don't need a license
microgpt 14 hours ago [-]
When did they change it from if you could watch to if you actually watch?
rgblambda 10 hours ago [-]
Technically the rule never changed. If a licence inspector sees a TV connected to an ariel socket then you're breaking the law.
But there's virtually no inspections any more. There were a lot of bad newspaper headlines about poor single mothers going to prison for getting caught (and refusing to pay the fine, but that bit usually got left out), so enforcement basically ended.
Symbiote 14 hours ago [-]
In about 2008 it was OK, my flatmate let the "TV licencing" people in to see a TV connected only to games consoles and a DVD player.
microgpt 17 hours ago [-]
These aren't just any vacuum tubes. They are each the size of a small fridge, and extremely specialized for use in radio broadcasting.
ErroneousBosh 9 hours ago [-]
> They could easily dump a couple of expensive presenters and use the savings for vacuum tubes, if that is what is needed.
I bet they're kicking themselves over not just renewing Jeremy Clarkson's contract.
TylerE 19 hours ago [-]
I'm sure they could, but sourcing people willing to manufacture heavily equipment/processing intensive speciality products for tiny runs will be MINDBLOWINGLY expensive.
This isn't about the little tubes that go in a guitar amp... we're talking about tubes that may well be too large for a single person to lift.
What's more, everyone who knew how to build things is either dead or in a retirement home. You'd have to re-engineer much of it from scratch.
microgpt 17 hours ago [-]
At least you already have some working tubes to start from. Some guy did it with Nixie tubes, of course those are a lot smaller.
TylerE 16 hours ago [-]
Exactly - and look what those cost despite being produced in relative quantity. Now scale up to something that's 1000 times the size with 1/1000th the production volume. Wouldn't surprise me if the per-tube cost was in the millions.
Nixies are also cold cathode, low current devices. Radio broadcast tubes can be handling tens or even hundreds of thousands of watts.
rgblambda 10 hours ago [-]
It's actually a private company that operates the transmitters. The BBC have been paying for access until now.
FerretFred 13 hours ago [-]
That's a real shame given the distance LW could travel: I wonder what they're going to use the frequency band for? I've tried using DAB on so many occasions and thrown it out in disgust.
> Given these factors, investing in upgrading the LW equipment is not considered a cost-effective solution for licence fee-funded services
And that's another problem - maybe the Government should step in and set up a proper Civil Defence-style warning/information system - we may well need it in a few years - it's a shame our official National Broadcaster can't fulfill the role.
binaryturtle 1 days ago [-]
As long we still have DCF77…
ransom1538 17 hours ago [-]
Why would humans need to communicate on channels bots cannot control?
microgpt 17 hours ago [-]
Why do you think bots don't control the mass media, of which longwave is just one outlet? Go to the website of any outlet that has longwave, read the AI nonsense there, realize they're transmitting the same on longwave.
librasteve 7 hours ago [-]
goodbye old friend
downrightmike 1 days ago [-]
I wonder how many of the Van Allen radiation belts is held up by this
mybrowsercache 17 hours ago [-]
Listened to this in Denmark in the car just yesterday. It usually sounded awful but was the only English language news source in the car, so I’m going to miss it. Since the BBC sold the transmitters and rented them back, let’s hope we don’t get US-style right wing talk radio as a replacement.
At the moment they are running a goodbye loop, so you can still hear something.
At least there’s Radio Caroline still on 648kHz AM, so there will be a British voice still on the air.
You need two transistors, a ferrite coil and a small set of simpler elements. And it is so simple you can actually explain what every part of the circuit does.
And then the reward... Once built you could listen to BBC regardless of where you are in Europe. My kids just LOVED IT, no Netflix K-Drama replaces this experience. My daughter was listening to BBC on her radio every night going to sleep.
Then we took away components until we had virtually nothing left, a diode I think(?), and still we had some signal.
Turns out there was a transmitter on the top of the hill the school was also on.
Fun times.
https://youtu.be/b9UO9tn4MpI
[0] https://en.wikipedia.org/wiki/Crystal_detector
(but yes I do miss those simpler days - but I guess the basics now is making an Arduino flash an LED)
I was listening to DAB in the car, not so far from here last weekend, and it kept cutting out. Whereas you could get LW everywhere!
I developed a love of cricket on Test Match Special from a very young age. A tiny inexpensive radio could get it anywhere. I actually never minded the interruptions from the Shipping Forecast, the real reason they kept this service up for so long. I know there are many ways to get a forecast now, none of which is as reliable as radio 4.
With apologies to Affabeck Lauder
Thank you :)
That has a lot more to do with the dated implementation and less to do with digital radio. There are a number of digital broadcasting techniques which can minimize and compensate for noise, including a slight delay with a signal correction and fault tolerant codecs.
DAB was implemented using the old MPEG2 audio codec. DAB+ uses the now 15 year old codec HE-AAC which isn't really designed to handle corruption. Opus handles loss a lot better (see their examples https://opus-codec.org/examples/ )
And technically while some people do call it MPEG2, it's actually MP2, also known as MPEG-1 Audio Layer 2, an audio codec in the same family as MP3 (MPEG-1 Audio Layer 3).
I imagine that today they'd probably use something like Opus and a fountain code or similar, yes... But you can't expect everyone to replace their radio every 10-15 years ;)
Certainly not, which is why I believe DAB (no plus) is still floating around. And I'm not really suggesting that they made a bad choice.
I'm mostly pushing back on the notion that digital means all or nothing audio. If broadcast audio stays alive (which it may not) then I hope the next standard is opus, fountain codes, and QAM-64 or similar so we can stuff a bunch of bits into error correction while still having graceful degradation, better than analog, when the signal degrades.
Though I did a quick check and apparently DRM+ uses QAM-16, so perhaps my knowledge is far too out of date :S
(Also doesn’t analogue FM also kinda cut off fairly abruptly?)
This video gives a good example of the signal breaking down from 00:38
https://www.youtube.com/watch?v=B-ihmXOy1h4
At the same quality dab is still perfectly long after fm becomes gabled. It then vanishes.
The problem with dab in early days was the lower strength, the poor quality decoding, and the lower bitratr than should be been used for the codec.
Haha. The DAB+ signals are compressed as much as possible.
Comparison here is FM, not FLAC.
Really soured me on this digital radio technology.
There’s also DRM+ for the VHF band, including the FM broadcast band.
https://en.wikipedia.org/wiki/Digital_Radio_Mondiale
In the HBO miniseries Generation Kill the marines are tuned into the beeb long wave to get news updates, and there's a cricket score read out in the first episode
https://www.reddit.com/r/generationkill/comments/6o2w2s/epis...
https://www.forcesnews.com/services/navy/nuclear-promise-let...
> The process by which a Trident submarine commander would determine if the British government continues to function includes, among other checks, establishing whether BBC Radio 4 continues broadcasting [on long wave]
> Submarines on patrol were reported to have briefly gone on nuclear alert in 2004 when Radio 4 went off the air for 15 minutes due to a power cut.
- some cryptobro
/s
From a quick Google I see that HFT carries out trades in an average of 700ns, which is close to the cycle time of a 150kHz carrier, so you'd have to come up with some really clever phase modulation scheme that could carry meaningful data in *one single cycle*.
You're definitely going down the SDR route for that.
At least in VK/Australia, there’s the 2200 meter band, but it’s quite limited (1W power limit, CW/digital only, 135.7–137.8 kHz).
At the same time, as much as I don’t want the AM broadcast band to die, I’d love an amateur band in the lower/middle part of MF/MW.
I meant just the broadcast band 148.5-283.5 kHz. (Though I'd love if 2200m and 630m were just a bit wider.)
> and NDB beacons.
Good point[1]. So 148.5-200 kHz in ITU Region 2 (and keep LowFER allowances on 160-190kHz as a consolation prize.)
[1]https://www.dxinfocentre.com/ndb.htm
We've also got a chunk just off the bottom of MW around 475kHz, which ought to be good for long-range night-time communications. It's licenced for CW, QRSS, and narrow-band digital modes.
Doesn't GPS utterly replace this?
Building equipment that works on frequencies this low, and avoiding natural interference, can be extremely difficult.
Actually generating the signal you could do with a moderately expensive USB soundcard, directly synthesizing it with simple VST-like plugin. Mad to think about, really.
There's also high frequency firms that want to muscle their way into shortwave frequencies as they can have lower latency between trading sites (eg NYC and Chicago) since the physical infra isn't a direct link as the crow flies (as well as the speed of light being slowed in fiber optic lines). They've even restarted some microwave links, as they don't necessarily need a lot of bandwidth, just latency.
My 7 Mhz antenna (HF, 40m band) is 67 feet long, and goes across by whole house.
The smallest antenna you could get away with for LF would be hundreds to thousands of feet long.
You might be able to go smaller if you enjoy suffering. Though, there are some pretty creative antenna designs that defy logic.
I wonder if you can couple to your local distribution grid, and not get arrested.
Coupling into my power upstairs is a bit of a problem sometimes though.
Pirating power is something I've heard that happens, but I looked it up, and couldn't find an actual cited example of someone doing it via induction.
Plenty of people doing it via extension cords and device tampering though.
I haven't worked with my end-fed on 40m for a couple of years. We've recently all had our crappy old aluminium-cored BT lines replaced with shiny new fibre though, so this time I am unlikely to lift the coveted Worked All DSLAMs trophy ;-)
The next logical step in that direction would be cracking down on HAM, not liberalization of it.
We'll see.
Or
(Links from https://garfnet.org.uk/cms/tables/radio-frequencies/internet... )For about a year now, BBC has been aggressively geoblocking other radios.
https://en.wikipedia.org/wiki/Letters_of_last_resort#:~:text...
from: https://www.radiorewind.co.uk/radio1/droitwich.htm
https://i0.wp.com/www.richardmudhar.com/blog/wp-content/uplo...
https://en.wikipedia.org/wiki/List_of_longwave_radio_broadca...
Rather defensive press release thing from the BBC: https://www.bbc.com/mediacentre/articles/2026/radio-4-broadc...
https://en.wikipedia.org/wiki/List_of_longwave_radio_broadca...
Seven stations remain; they're in Algeria, Mongolia (x3), Morocco, Poland, Romania.
Apparently, public longwave radio broadcasters were never a thing in the Western Hemisphere. Too bad.
At 30 ct/kWh, that's 300€ per hour, 7200€ per day and about 2.6 million € a year - for a customer base that is only decreasing.
[1] https://en.wikipedia.org/wiki/Droitwich_Transmitting_Station
And by the virtue of shortwave propagation, it could be heard across the world. For the past month and a half (from when the news of its impending shutdown was revealed) I was regularly picking it up in Australia right up until the bitter end.
In the MF (AM broadcast) band, you can observe this at night - in Australia I can pick up the 50kW Melbourne ABC station (public broadcaster) at 774kHz with a good radio, just about across the entire country.
In the LF (longwave) band, the earth’s surface and the ionosphere start to behave more like a waveguide than skywave. This is actually more reliable/consistent than even HF, but you need massive transmitting antennas due to the large wavelengths involved.
HF also generally wins for distance covered per watt - despite the massive power of Radio 4 longwave, I’d have no chance of hearing it reach Australia.
If Radio 4 was on shortwave with 500kW transmitters, I probably would have been able to listen in on my radio at home in Australia, no UK-located KiwiSDR required.
Japan used to have a 500kW transmitter on 774kHz (mediumwave/AM broadcast band) for NHK Radio 2, and when the local broadcaster on 774 kHz went off air at midnight for scheduled maintenance, I could pick it up on my car’s stereo quite easily.
Bounce off ionosphere
Radio stations are usually measured by the last of those: Effective radiated power.
You can have a radio station with a 50,000 watt ERP, but running only a 2,500 watt transmitter.
For FM radio stations, it's all about the height of the transmitter above average terrain. For AM, it's about the ground conductivity and frequency.
I once worked at a 1,000-watt AM station that had a signal much larger and clearer signal than the 5,000-watt AM station a few miles away.
I'm not a radio engineer, but I'm sure there are plenty on HN who can correct and clarify what I've written.
My suspicion is that this means an exciter and a stack of amps per service, which then go through a two stage combiner and out to the antenna. There might even be a pair of exciters and amps per service depending on redundancy.
The combiners (certainly for FM/DAB/TV services) also cause cumulative attenuation as the signal gets combined each time, so even if all 3 are radiating at the same power, the first in the chain might need twice as much amplification to make up for losses.
edit: MB21 (of course) has some fantastic technical info about Droitwitch: https://tx.mb21.co.uk/gallery/gallerypage.php?txid=1454&page... and there's some great pics here, too: https://www.radiorewind.co.uk/radio1/droitwich.htm
I believe they're still using a pair of Marconi B6042 transmitters (250kW each, in parallel) to provide at least one of the services.
I was very much getting myself confused with some of their other transmission sites where they take multiple DAB or DTV services, modulate, amplify and combine them and then broadcast through the same antenna.
Going by [1], emitted power.
[1] https://www.bbceng.info/Operations/transmitter_ops/Reminisce...
Droitwitch LW's antenna uses a T-aerial suspended between two 210m steel masts acting as massive capacitive top-loaded vertical monopole. The signal isn't beamed or shaped, it propagates omnidirectionally and this style of antenna offers _0 dB_ of ERP increase.
Even worse, they're transmitting AM, so the power output dynamically increases with the volume of the analogue audio being transmitted. If you cut off the input to Droitwitch, it'd still be putting out a 500kW carrier wave. When audio is applied the amplitude of the carrier is modulated, so for peak loudness (someone shouting or the loudest spike in music) it can take an extra 50% power to create the upper and lower sidebands - at peak, the Vapotron tubes could be putting out a combined 750kW.
The amplification stage is only ~70% efficient as well, so at peak power it's possible that the site is pulling nearly 1MW from the grid.
--
Compared to a modern UHF DTV transmitter station the differences are wild. The big transmitter near me is putting out 6* DTV MUX's at 174kW ERP each, but that's through a 15dBd UHF array at the top of the mast which gives an obscene amount of gain.
- Mains draw at the wall ~150kW (including cooling and ancillary systems).
- Total TPO (RF energy leaving the cabs) from each of the six transmitters is only ~52kW combined (8.7kW each)
- Output of the combiners after losses of ~0.5dB is ~46kW. We can expect another ~1.5dB of attenuation after forcing it up 300m of waveguide to the top of the tower so we're now sat at a "mere" ~33kW of RF energy going into the bottom of our antenna.
- 33kW with a +15dBd gain gets us to an ERP from the antenna of 1.044 MW.
--------------
Note: Numbers compiled from public sources. All mistakes and misunderstandings are mine. Whilst I do work in a tangentially related industry this is completely out of my area of expertise - in the same way that working as a cleaner at an aeroplane does not mean one knows how to fly or maintain a plane.
Some people save energy by turning their appliances off at the plug rather than leaving them on standby. Clearly Radio 4 chose to avoid having Brian Blessed on too frequently instead ;)
I miss the days of jingles.
The program was mostly the same as BBC Radio 4 but it used to diverge at certain times of day. I used to be woken up at 5am every day by my parents clock radio with the farming news which was very dull, but easy to sleep through.
In the USA there have never been commercial longwave stations, though various WWV time signals are broadcast in that band.
That, and Atlantic 252 (I believe now long gone) were what he woke up to every morning.
https://en.wikipedia.org/wiki/Atlantic_252
"Although the transmitter was in Ireland, the signal's reach meant that it was often looked upon as a "UK national station". Reception reports were received from such locations as Berlin, Finland, Ibiza and Moscow."
I hope not. I am saving $80 per month by recording over-the-air TV using Tivo. I only want the major networks, and recording them over the air is free. Tivo DVR is great for OTA and their service is still active but sadly they have stopped selling their DVR.
I think the reason why its been left on so long is that it took so long to migrate to digital meters https://tradehelp.gdhv.co.uk/support/solutions/articles/7900...
I am also annoyed that I missed the last signal.
Listening to the last transmission there, I note that the continuity announcer, (the Irish) Al Ryan, signed off with 'oíche mhaith', i.e. 'goodnight' in Irish. A nice nod, I think, to all the former LW listeners in Ireland.
One can listen to the live closure broadcast via this WebSDR website, by tuning it to AM 198 kHz.
"You are listening to 198 kHz longwave. BBC Radio 4 is no longer available on this frequency. However, you can find Radio 4 many other ways. You can find BBC Radio 4 online, via BBC Sounds. Radio 4 is available on DAB digital radio and through your digital television, including freely. Radio 4 is also available via FM radio, on 92 to 95 MHz and 103 to 105 MHz. Plus, you can listen via your smart speaker: just say 'play Radio 4'. Information on how to listen can be found on the BBC website, at bbc.co.uk/reception."
Vacuum tubes also aren't vulnerable to nuclear weapon electro-magnetic pulses.
However, other than ham radio enthusiasts I guess no one listens to analogue radio anymore.
What it did provide was a simple but reliable way to maintain emergency broadcast to general public within Britain. And it probably should have been kept online just for that reason.
Even when they can most people Wouldn’t have a clue to listen to it.
There’s a reason LW isn’t critical national infrastructure.
In the US, WRMI sells its air time to anyone at low prices. It's mostly religious stuff but there are some regular music shows too, I think.
If we did regain the capability it would probably be solid-state.
For that matter I'd be somewhat surprised if you can't simply buy a ready-made replacement.
No idea where vacuum tubes were invented but I'm sure the BBC could find someone to make them.
The BBC has just cut its budget by £500 million, in an apparent attempt to limit the damage from the latest charter renewal process - which determines its funding. The new director general (ie ceo) is an ex-Google person, and they seem to be pivoting to become a social media content provider. So I'm pretty sure that spending licence fee money on making vacuum tubes to broadcast a signal that nobody under forty listens to wouldnt get past a value for money test.
(I like the BBC and its radio output, and I'm one of those weirdos who still pays the licence fee despite never watching tv or any of the stuff that the licence fee is required for. But it is becoming increasingly lost to me: focussed on triviality and politically cowed. Sadly, I no longer expect it to last.)
If you only watch DVDs, or stream movies etc, you don't need a license
But there's virtually no inspections any more. There were a lot of bad newspaper headlines about poor single mothers going to prison for getting caught (and refusing to pay the fine, but that bit usually got left out), so enforcement basically ended.
I bet they're kicking themselves over not just renewing Jeremy Clarkson's contract.
This isn't about the little tubes that go in a guitar amp... we're talking about tubes that may well be too large for a single person to lift.
What's more, everyone who knew how to build things is either dead or in a retirement home. You'd have to re-engineer much of it from scratch.
Nixies are also cold cathode, low current devices. Radio broadcast tubes can be handling tens or even hundreds of thousands of watts.
> Given these factors, investing in upgrading the LW equipment is not considered a cost-effective solution for licence fee-funded services
And that's another problem - maybe the Government should step in and set up a proper Civil Defence-style warning/information system - we may well need it in a few years - it's a shame our official National Broadcaster can't fulfill the role.
At the moment they are running a goodbye loop, so you can still hear something.
At least there’s Radio Caroline still on 648kHz AM, so there will be a British voice still on the air.