Showing posts with label EI7GL. Show all posts
Showing posts with label EI7GL. Show all posts

Wednesday, January 3, 2024

Blog stats for 2023...


Before we get too far into 2024, I had a quick look back at the traffic to the blog in 2023. As can be seen from the chart above, the average number of pageviews in 2023 was about 20,000 per month

I should note that pageviews doesn't mean the actual number of people. If you were to visit the site every day then you'd generate 365 pageviews for the year. I'd guess very few people visit every day and 20,000 is still a significant amount of traffic for a blog about amateur radio and radio technology in general.

The volume of traffic during the year fluctuated quite a lot during the year and that is reflected in the number of times I posted...

2023 (110)
December (14)
November (12)
October (5)
September (1)
June (1)
May (3)
April (3)
March (15)
February (23)
January (33)

I put up posts nearly every day back in January and February, once every two days in March and then I hardly posted anything for months. This had an obvious impact on the level of traffic to the blog.

When I post every few days, the blog gets about 600-800 pageviews per day. If I don't post anything then the daily traffic drops to about 200-300 pageviews per day.

The thing is that the blog is just a hobby for me. It's not a job and if the site gets a lot of hits then great but it's not my reason for posting. I generally blog about things I find of interest regardless of how popular it might be to others.

Each post could take about two hours to prepare and sometimes longer. If I don't find the subject of interest then I don't bother.


How it works... The process for generating a blog post works like this...

  1. I see something that is of interest to me. I can see that the news item isn't reaching a large audience / should get more publicity / wasn't fully explained.
  2. I then generate a blog post about the news item of interest and include maps, diagrams and an explanation if necessary.
  3. The blog post can take around 2 hours to generate, sometimes longer.
  4. Links to the blog post then go out on social media so more people can notice it.
Missing posts... As for the lack of posts from April to October...


I get distracted! šŸ˜‚ I'm off doing other things with my time.

Staying in the loop of the usual news sources takes time and it can take a while to even get back into the routine again.

Traffic Sources... I guess it would be natural to assume that most of the traffic to the site comes from Ireland but that's not the case. These are the largest countries by traffic by country during the year...

United States 63.1K
United Kingdom 13.9K
Germany 13K
Netherlands 10.6K
Ireland 8.37K
Italy 6.36K
France 4.75K
Canada 2.37K


The chart above shows the number of posts per year on the blog. 2022 and 2023 were pretty modest with about 110 posts each for the year. Still though, the traffic for 2023 seems pretty healthy compared to previous years despite the lower number of posts.


Social Media... As for the social media channels...

The EI7GL Facebook page now has 551 followers.

The Twitter / X account has 1429 followers.

The Instagram account has 310 followers.

In conclusion... It would be easy to make a New Year's resolution and say I'll post more this year but I know it will be harder once the evenings get longer. I have a few plans for the blog which I'll cover in a separate post which might change things a bit. I know whatever I do, I'll have to find it interesting to keep my focus.

Monday, July 9, 2018

Big opening across the Atlantic on 28 MHz & 50 MHz...Sun 8th July 2018

There was another big opening across the Atlantic on Sunday the 8th of July with signals on 28 MHz and 50 MHz.

This is what I heard on FT8 on 28 MHz with some signals being heard into the early hours of the 9th.


The most north-westerly signal was from a station in Colorado and according to the PSK reporter website, I was the only person in Europe to hear him.

Looking at the FT8 reception reports for Tom EI4DQ, I could see 50 MHz was also open. As Tom is only a few kms east of me, it's interesting to see what he is hearing on 50 MHz compared to what I am hearing on 28 MHz.

I noticed one strange difference though.

In the afternoon, I was hardly hearing anything on 28 MHz while Tom was hearing North America on 50 MHz. This is a 15 minute snapshot of what we were both hearing at a point in the afternoon.


The difference was so great that it prompted me to check the VSWR on my 10 metre antenna to make sure everything was ok... which it was. It seems that the 28 MHz band was open from the Netherlands to USA at the time and I was in the skip zone. The conditions were fine, it was just that I was in the wrong location for the North American signals to be heard on 28 MHz.

Later in the evening, we were both hearing much the same on each respective band. A 15 minute snapshot is shown below...


It's just another reminder that you need to be careful making assumptions about propagation. Just because you don't hear something on 28 MHz, it doesn't mean the band isn't open. It could well be that you are in the skip zone for a while.

This day was also remarkable for another reason. Someone in the north of Ireland managed to pick up a Canadian radio station on 88 MHz! That was without doubt the best DX of the day.

Thursday, April 19, 2018

Long distance reception of a Spanish station on Medium Wave during daylight hours

Since I did a previous scan of the Medium Wave band in March, I have found several other very weak signals buried in the noise. One of these however is just about audible and can be heard in the middle of the day. I built a very basic loop aerial with some wire would around a cardboard box (30 x 45 cms) and tuned it with a variable capacitor. The result was that I can now ID two of the signals.


The signal on 855 kHz was Radio Nacional 50kw transmitter near Santander on the north coast of Spain, a distance of 992 kms or 616 miles. As can be seen from the map above, the path is almost completely over the ocean.

The aerial mast in Spain is just 300m or so from the water while I am 10 kms from the south coast of Ireland.

Radio mast near Santander
The other signal heard was from the test DRM transmitter of France Blue (8kw) on 1071 kHz near Brest, a distance of 500 kms or 310 miles.

I was wondering if the signals were possibly sky wave but I don't think so. They are there in the middle of the day every day and they are really steady like you might expect from a ground wave signal.

The radio used was a very basic Sony radio which was indoors. The loop aerial was just sitting on top of it.


992 kms seems like a remarkable distance for a ground wave signal on the medium band. There are plenty of much closer transmitters in the UK that I can't hear but the sea path to Spain seems to be making all the difference.

Tuesday, April 17, 2018

Night time scan of the Medium Wave band during April 2018

Following on from the day time scan of the Medium Wave band that I did back in March 2018, I have spent the last four weeks listening to the band at night. As before, I was using basic domestic radios at my house near Cork City on the south coast of Ireland.


I used the Silvercrest above which is a very basic and not so sensitive receiver to find a signal using the digital frequency readout. I would then use the more sensitive analogue Sony radio below to listen to the signal properly so I could identify it.


All of the signals were heard roughly 2-4 hours after sunset... approx 9pm to 1am local time. As you might expect, a lot more signals were heard during the hours of darkness and the full list is shown at the bottom of the page.

Some stats and figures....

a) Spain...A total of 109 different signals were heard and roughly 50% of those were from Spain. With the sea path to the south from Ireland, it was probably no suprise that the Spanish signals were so strong and numerous on the band.

b) Gaps....Tuning from 531 kHz to 1602 kHz, there were 35 channels where no signal was heard. It's not that there was no signal there, it's just that I couldn't hear one. In some cases, very strong signals tended to block out the adjacent channels.

c) Countries......The countries with the highest number of stations heard were Spain and the UK. The only signal heard from Eastern Europe was Radio Free Europe in Lithuania.

Italy...Some stations in the north-west of the country were heard at about 1400kms.
Algeria & Tunisia....Some high power stations were heard here along the north African coast at roughly 2000kms.
Portugal...Not too many from there.
France....Two signals....a monster 1 megawatt transmitter in the south east (~1500kms) and a digital DRM (Digital Radio Mondiale) transmitter from a site near Brest in Brittany (~500kms). The DRM signal could be heard as a hissing signal with no obvious pattern.


Belgium and the Netherlands...Not too many from there.

UK...The UK signals were by far the most interesting ones to hear. Many were buried in the noise and were only identified by listening to a particular song and then checking online to see what they were playing. I found that the online feeds were often 20-30 seconds behind the live radio signal.

Strong English Stations.....In terms of strong signals that could be listened to at night, these were the strong ones....
810 BBC Radio Scotland Westerglen??
882 BBC Radio Wales 100 Washford, Somerset, England
909 BBC Radio 5 Live 50 Clevedon, Somerset
1053 TalkSport 500 Droitwich, SW of Birmingham
1089 Talk Sport 2 Washford
1215 Absolute Radio 100 Washford, Somerset, England
1341 BBC Radio Ulster 100 Lisnagarvey, Belfast
1368 Manx Radio 20 Isle of Man

These were what I would call acceptable quality. Most of the others had too much interference with them to really listen to. I found it interesting in how on a band full of signals, I could only find seven English speaking stations that were worth listening to at night.

Interference...This biggest issue when trying to listen to some of the UK stations was the level of noise and interference. In many cases, there was a strong Spanish station on the same frequency and it was a case of rotating the radio and nulling out the Spanish station using the directional properties of the internal ferrite rod aerial. On one occasion, I could hear a Spanish station perfectly clear, I'd rotate the radio by 90 degrees and there was a perfectly clear English station on the same frequency.

Echo......Some of the UK and Spanish stations are using the same frequency multiple times in their respective countries. It probably sounds fine in the targeted service area but outside the service area, it results in a loud echo which makes it difficult to listen to.

2 second echo......This was an interesting one. There are two Smooth Radio transmitters listed on 1557 kHz.

1557 Smooth Radio 0.76 Northampton
1557 Smooth Radio 0.5 Southampton

It was impossible to identify which one I was hearing until I realised that I was actually hearing both of them with a two second delay between them! I'm not sure which one was first but I was certainly hearing both of them.

In conclusion...... It was interesting to do a detailed scan of the medium wave band to get a feel for what it is like currently. It is something I would have done many many years ago when I first started listening on radio.

What's pretty obvious is that a lot of stations in Central and Eastern Europe have now closed down their medium wave transmitters and have moved to VHF and digital. Looking at the various frequency listings and from my own observations, Spain and the UK are the two main countries in Europe that still use the medium wave band in a big way.

In the past, I would have listened to the band using a long wire aerial... great for bringing in the weak signals but it can't discriminate between stations. With so many Spanish stations on the band, it is really important to have a directional aerial so that some stations can be nulled out.

I was also suprised as to just how well the internal ferrite rod aerial in the Sony radio performed as it pulled in some of the lower power stations in the UK, especially the ones under 1kw. Prior to this, I would have assumed that I would need a long wire to pull in the low power ones but that doesn't seem to be the case.

The full list of station heard is below...

Friday, February 17, 2017

Award Cert for the Wild Atlantic Way Award

On Friday the 17th of February 2017, I worked EI11WAW on 80m cw and this was the last one that I needed for the Wild Atlantic Way Award.


According to the awards manager Dave EI6AL, over 70 certificates have been issued at this stage and this was the first one to an EI station.

It's also the first one that has been endorsed for all contacts on CW as this wasn't available up to now. The other endorsements available from now on will be for SSB and Digital.

These are the bands that I used to contact the 9 WAW stations...

EI11WAW...CW...80m
EI22WAW...CW...20m
EI33WAW...CW...80m
EI44WAW...CW...80m
EI55WAW...CW...20m & 40m
EI66WAW...CW...80m
EI77WAW...CW...17m, 20m, 40m & 80m
EI88WAW...CW...20m
EI99WAW...CW...20m, 30m & 80m

What has been interesting about looking for these stations on the HF bands over the last 7 weeks is that I actually learnt something about propagation.

1) I had assumed that I could work EI stations on 80m at almost any time. That wasn't the case. With a low solar flux and the daytime critical frequency only getting up as high as 5.5 MHz, the MUF at night dropped pretty low. This had the effect of creating a skip zone on 80m so that I couldn't work other EI stations that were too close.

2) I had assumed that working other EI stations on 20m or 17m would be very difficult. I'm not sure if it was weak Sporadic-E or F2 backscatter but I could often hear the WAW stations on 14MHz and 18 MHz. The signals were pretty weak....down at a kind of level where a contact was possible on CW but not on SSB.

Overall, it looks like it is a very successful awards scheme and is certainly getting a lot of interest. If 70+ stations have already applied for the award after just 7 weeks, then surely that figure will be in the hundreds by the time the award scheme finishes at the end of 2017.

More info about the Wild Atlantic Way Award in this previous post.


Thursday, December 1, 2016

Bandscan on 145MHz during Nov 2016

I have been scanning and listening on 145MHz for most of November 2016 so I now have a reasonable idea as to what the level of activity on the band is like. As expected, the level of local activity is very low and is mainly confined to mobile stations calling through the various repeaters.

The only real activity period is after the IRTS news broadcasts on Monday and Tuesday evenings.

This is a map of the repeaters that I have heard on 145 MHz under flat conditions...


These are the frequencies I have heard most activity on  while listening to 145 MHz FM. The set up was pretty modest with just a home made half wave vertical antenna. The signals in Purple are those heard under lift conditions.

Freq. Station
145.400 ... Used as a net frequency near Waterford city
145.450 ... Used as a net frequency in South Tipperary
145.475 ... Packet type signals from the Chinese Satellite Kaituo 1B. Norad ID 40912.
145.525 ... Used as a net frequency in Wexford
145.600 ... FM repeater. GB3WR nr Bristol. IO81PH. CTCSS F 94.8Hz.
145.6325 ... FM repeater. GB3DN. North Devon repeater. IO70UW. CTCSS 77Hz.
145.650 ... FM repeater. EI2DBR. Devil's Bit Repeater, Tipperary. IO62BU. Southern Ireland Repeater Network.
145.675 ... FM repeater. EI2HHR. Helvick Head Repeater. IO62EC. Southern Ireland Repeater Network.
145.675 ... FM repeater. EI2CCR. Clermont Carn Repeater, Co.Louth. IO64UB.
145.675 ... SSB on downlink from transponder on Chinese satellite XW-2A. Norad ID 40903.
145.6875 ... Digital repeater. No positive ID. Might be GB3WE? Weston Super Mare. IO81MH.
145.700 ... FM repeater. EI2TKR. Truskmore Repeater. Sligo. IO54TI. CTCSS 77 Hz.
145.700 ... FM repeater. GB3AR. Carmarthen Repeater. IO73VC. 110.9Hz.
145.725 ... FM repeater. EI2TAG. Tountinna, Tipperary. Limerick repeater. IO52TU.
145.725 ... Beacon on Chinese satellite XW-2B. Norad ID 40911.
145.725 ... FM repeater. GB3NC. North Cornwall repeater nr St.Austell. IO70OJ. CTCSS 77Hz.
145.750 ... FM repeater. EI2MGR. Mullaghanish, Co.Cork. IO51KX.
145.7625 ... FM repeater. GB3PL. East Cornwall. IO70VM. CTCSS 77Hz. ID is 'GB3PL Amateur Radio Repeater'.
145.775 ... FM repeater. GB3WW. West Wales repeater. IO81CP. CTCSS F 94.8 Hz. 
145.775 ... FM repeater. GB3WT. West Tyrone. IO64JQ. Nr Omagh. CTCSS 110.9Hz.



While this list is unique to my location, it should give a general guide as to what can be heard if you are living near Cork. You may well hear other repeaters but this is a good list to start with and it's a guide on where to listen.

Saturday, November 19, 2016

Signals on 28 Mhz...Sat 19th Nov 2016

With the Solar Flux index down at 78, there isn't much in the way of F2 propagation at the moment. However, there was some Sporadic-E today.

In the morning, I heard the beacon on the Faroe Islands which is always interesting as it's to the North.

EI7GL-@ 28282.5 OK0EG/B 10:38 19 Nov JO70weIO51tu Czech Republic
EI7GL-@ 28237.4 LA5TEN/B 10:32 19 Nov JO59jpIO51tu Norway
EI7GL-@ 28235.0 OY6BEC/B 10:26 19 Nov IP62oaIO51tu Faroe Islands


I also left the rig on the WSPR frequency for a few hours and heard the following.....




It was one of the days where the casual observer might say the band was dead but there were weak signals there all the same. As you can see from the list, some of these were running less than 1 watt.

Interesting Sporadic-E conditions for this time of year. It also suggests that the new 10m vertical antenna is working just fine.