I’ve been following the development of the eSIM on this blog for 6 years now and in recent years, I’ve been downloading and testing eSIMs to see how the process actually works. However, all of that was for learning and educational purposes only. But now, finally, I’ve used an eSIM ‘for real’ to get me out of a slightly disconcerting situation.Continue reading Switching To eSIM in Slight Distress
Let’s continue where I left off in the previous post on the Speedify Internet backhaul bonding and redundancy software I installed on a Raspberry Pi, and have a closer look how throughput looks like in practice.Continue reading Multi-Path Backhaul with Speedify – Part 2
Every now and then I am at places at the fringe of the observable Internet where I only have slow, weak and unreliable connectivity. Typically, though, there are several of such networks to chose from, for example because network operators share towers. Wouldn’t it be great if one could combine those networks to get some more speed and reliability out of it? Until recently, I wasn’t aware of an easy way to do this. But then I noticed a world traveler on Twitch who regularly streams while driving, even at remote places. His solution: Combining Internet connectivity from a Starlink dish on his RV’s roof and two cellular connections with a software called Speedify on a Raspberry Pi. Hm, sounds like this is just what I need.Continue reading Multi-Path Backhaul with Speedify – Part 1 of 2
One thing I was pretty certain about when I bought my Starlink terminal was that I would put it in places where power would not be readily available. Maybe only a few meters away, but still, out of reach. As the Starlink router requires a 110/230V power source, a USB battery pack doesn’t work. And even if it did, most USB battery packs could not supply 55 watts on average and 70-80 watts during startup. So I was looking for another solution that could supply power for at least a few hours.Continue reading Power for Dishy: The Anker 521 Powerhouse
If you are in the business of looking at decodes of LTE or 5G signaling messages, you’ve probably been at the point when you wanted to copy and paste a part of that message into an email. The problem: More often than not, the parameters you are interested in are deeply nested in other parameters. 60 to 80 spaces in front of parameter lines are not out of the ordinary these days. Looks pretty ugly when copied and pasted and the result is often totally unreadable. So I was looking for a way to remove a specific number of spaces of all lines of a text file. Should be an easy Google search I thought, but the result was quite disappointing.Continue reading Removing Indentation from 3GPP Messages – ChatGPT vs. Google Search
In the previous post on using a Wi-Fi channel in the 2.4 GHz band connecting my Starlink terminal in a courtyard to an in-house receiver, I noticed that the 20 MHz channel was limiting my speed to around 60 Mbps. That’s far less than what Starlink supports and also far less than the roughly 100 Mbps that a 20 MHz 802.11n channel supports in the 2.4 GHz band on the IP layer (130 Mbps on the PHY). At first, I thought that there is little that can be done about it, as the channel is clearly power limited. Focusing the signal energy in a certain direction might help, but there are no antenna connectors on the Starlink Wi-Fi router to which I could connect directional antennas. But then I noticed an interesting effect when increasing the channel bandwidth.Continue reading Wi-Fi Bandwidth Vs. Range Vs. Throughput
And further I went into ‘terra incognita’ with Starlink, this time to a place which was quite challenging in terms of terrain. But again, looking at the bright side of it, it was the first time I had to experiment for a while to find a good spot to place ‘Dishy’.Continue reading Starlink – Part 14 – Dishy Among Trees and Hills
In the previous post, I had a look at the 5 GHz Wi-Fi of the Starlink router at close range for maximum throughput. In this post, I’ll have a look at the completely opposite scenario: How Starlink’s Wi-Fi performs when used to bridge a larger distance. This wasn’t actually a theoretical test, but the scenario I bought my Starlink terminal in the first place: Fast Internet connectivity in ‘underserved’ places. As you can see in the picture above, I put the satellite antenna itself in a courtyard, while the router and the 230V power supply (more about that in a follow up post) was in the car next to it.Continue reading Starlink – Part 13 – Local Wi-Fi on 2.4 GHz
Out of the box, a Starlink terminal comes with the satellite dish, affectionately called ‘Dishy’, and a Wi-Fi Router. As an Ethernet port is not part of the package and has to be ordered separately, Wi-Fi is the only default connectivity option. So how does that Wi-Fi Access Point perform?Continue reading Starlink – Part 12 – Local Wi-Fi on 5 GHz
How much of the sky can be obstructed for Starlink to still work without connectivity breaks (in Germany)? This has been one of the most important questions I had about Starlink before I could try it out on my own.
Here’s an image that shows an obstruction diagram, which the Starlink app on a smartphone produces after ‘Dishy’ has been up and running for about 6 hours. The blue sphere shows the parts of the sky that are visible, while the black area shows where obstacles are in the way. The red arrows were put into the image by me. For this image, the Starlink dish was at my rooftop, and the sky was blocked as follows:
1) About half the sky to the south was completely blocked by a near vertical part of roof, which is about 2.5m high (red arrow on the top left). Dishy was about 0.5m away and hence, this part of the roof pretty much obstructed half of the sky.
2) Towards the north, there was a solid obstacle about 1 meter away and about 1.5 meter high which is also shown nicely on the image (red arrow at the bottom.
3) And finally, there was another 1.5m high obstacle towards the west, also around 1m away from the antenna, which also blocked the sky.Continue reading Starlink – Part 11 – Obstruction Diagram