Monthly Archives: October 2020

RTL SDR Blog V3 HF reception

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I wanted to spend more time experimenting with HF before posting a follow-up about the RTL-SDR Blog V3 software defined radio. Due to shifting ionospheric conditions and such, a 5 minute snap evaluation is no evaluation at all. Here’s the scoop after really working with the V3.

Yes, the V3 does HF — with limitations. What it does, it does surprisingly well for $35 USD.

I configured the V3 with a nooelec 9:1 V2 balun (unun) and a 23 foot (7 meter) long-wire antenna. I did a number of experiments in grounding and eventually just went with the simplest solution: long-wire to the antenna input and no ground. Electrical ground (wall outlet) was unsatisfactory and cold water pipe didn’t produce any improvement. [More on these experiments some day.] I compared the V3 against my old Drake R8 communication receiver using both long-wire (23 feet) and Datong DA270 active dipole antennas. The old Datong DA270 is long in the tooth and I got slightly better results with the long wire. The Drake is in terrific shape for its age (25 years). Wish I could say the same for myself. 🙂

The V3 tunes in quite a few stations! It took a bit of time to find my way around SDR#, trying this feature (noise reduction) and that (audio filtering). Reception-wise, the Drake has the edge, but not by much. I can easily tune the stronger shortwave stations out of Asia, for example.

The SDR# spectrum display makes a good companion to the Drake. I could pick out the most likely candidates on the spectrum display, then turn to the Drake and dial them in. Using the V3, I could tune in some weaker stations like a Honolulu weather station and the U.S. Air Force High Frequency Global Communications System (HFGCS). You haven’t done nothin’ till you hear an EAM. 🙂 The SDR# memory feature made it easy to follow an HFGCS simulcast through its primary stations. I may stick with this productive workflow in the future.

The RTL-SDR blog documentation states the V3’s limitations clearly and accurately. The V3 has an analog-to-digital converter (ADC) that samples the baseband radio frequency (RF) signal directly. Quoting the data sheet and user’s guide:

The result is that 500 kHz to about 24 MHz can be received in direct sampling mode.

Direct sampling could be more sensitive than using an upconverter, but dynamic won’t be as good as with an upconverter. It can overload easily if you have strong signals since there is no gain control. And you will see aliasing of signals mirrored around 14.4 MHz due to the Nyquist theorem. But, direct sampling mode should at least give the majority of users a decent taste of what’s on HF. If you then find HF interesting, then you can consider upgrading to an upconverter like the SpyVerter (the SpyVerter is the only upconverter we know of that is compatible with our bias tee for easy operation, other upconverters require external power).

Note that [the V3] makes use of direct sampling and so aliasing will occur. The RTL-SDR samples at 28.8 MHz, thus you may see mirrors of strong signals from 0 – 14.4 MHz while tuning to 14.4 – 28.8 MHz and the other way around as well. To remove these images you need to use a low pass filter for 0 – 14.4 MHz, and a high pass filter for 14.4 – 28.8 MHz, or simply filter your band of interest.

I definitely saw and heard aliases. The best example is WWV at 15.0MHz. Yep, I could tune in 15.0MHz directly. But, what’s this strong signal in the 20 meter shortwave band at 13.8MHz? It’s a WWV alias. Hmmm, 15MHz is 600kHz above 14.4MHz and 13.8MHz is 600kHz below 14.4MHz. Not a coincidence? I also found aliases of strong medium wave AM broadcast stations up around 27 to 28MHz.

SDR# spectrum display: WWV and its alias
SDR# spectrum display: AM broadcast aliased near CB radio band

So, I would say that the V3 is quite a good low-cost HF receiver, especially in the range from 2 to 15MHz, where I spent most of my time. I have an AM band-stop filter on order and hope to attenuate the strong AM broadcast stations. I did a quick survey of local transmitters and discovered three powerful stations within a few miles of my location. All transmit several thousand watts or more — enough to be troublesome. In addition to the aliasing issue, the stations may be overloading the V3 and degrading its weak signal performance. [More on this some other time.]

I find RTL-SDR’s assessment of the V3’s HF capabilities to be fair and transparent. If you’re a serious radio hobbyist, I recommend an up-converter (e.e., the nooelec Ham It Up) or an upscale SDR like the SDRplay RSP1A/RSPdx or the AirSpy HF+. The upscale models cost more, but have better HF support (no aliases, better RF front-end, etc.)

I’m good with the nooelec baluns, by the way, and have purchased a second one for the Drake R8. Rather than buy another SDR, I’m going to spend time on antennas instead. As to workflow, I like getting an overview of the spectrum via SDR and then focusing through the Drake R8. I want to try and evaluate an AM band-stop filter, too. I will post results once I get more experience under my belt. If I didn’t have the Drake R8, I would probably look into an RSPdx or an HF+ as the next step.

Want more? Check out my short review of the nooelec Nano 2+ SDR.

Copyright © 2020 Paul J. Drongowski, N2OQT

RTL SDR Blog V3 Radio

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Based on my positive experience with the nooelec Nano 2+ software defined radio, I bought an RTL-SDR Blog V3 receiver bundle. I meant to write a quick review of the RTL-SDR Blog V3 (henceforth, the “V3”), but I wound up having too much fun with the new toys!

For $35USD, you get the USB receiver stick, a dipole antenna kit with telescoping elements, cables, a tripod and a suction mount. The V3 uses SMA connectors everywhere. In comparison, the nooelec Nano 2+ bundle includes a small magnetic mount telescoping antenna and uses tiny MCX connectors.

RTL SDR Blog V3 Software Defined Radio bundle

If you want to mix and match components between bundles, you will need adapters. SMA connecters thread onto each other and provide a more firm and reliable connections than MCX. On that basis, I give the V3 points.

Further points go to V3 for its build quality. The V3 is somewhat larger, but the electronics are mounted in a metal (shielded) case. The case is also the heat sink. If you want metal shielding in the nooelec line, you should purchase the nooelec Nano 3. Both the V3 and Nano 2+ run warm, so heat dissipation is important.

Both units make adequate low-cost VHF/UHF receivers when used with their respective bundled antenna system. If you’re most interested in broadcast FM or aircraft band, you can’t go wrong either way. I give the V3 points for the option of HF reception and the ability to tune antenna length for the radio band to be monitored. You can see the effect of tuning with your own eyes. Dial in a weather station, for example, and adjust the antenna elements. You’ll see the signal increase and decrease in strength as you change element length.

Tips: The V3 antenna system is a dipole, so you need to make both elements the same length. Divide the frequency (in MHz) into 468 to get the total antenna length (in feet). Then divide the total length by two to obtain the length of each element. Pop the cap on the central Y junction and find the element which is connected to the coax shield. Orient the shield-side element down towards the earth.

So far, the V3 is winning on points. Then consider HF. The V3 receiver is HF capable, but you will need to build or add an HF antenna. This is where life gets a little bit tricky. Short story — Yes, the V3 receives HF. I’ll save the longer story for a future blog post.

Bottom line. If you are only interested in VHF/UHF, then either unit will do the business. If you prefer a magnetic mount antenna, go with a nooelec Nano bundle. If you want to optimize tuning for a VHF/UHF band, then go with the V3 bundle. If you want to get your feet wet with HF and don’t want to spend a lot of money, then pick up the V3 bundle, a nooelec balun and at least 23 feet of wire.

Even though the V3 won this match-up, nooelec won my respect as a solid citizen. They make the Ham It Up HF up-converter which adds HF reception to a VHF/UHF only SDR. Based on my experience with the Nano 2+, I would give the Ham It Up a try without trepidation.

Most of all, have fun!

Copyright © 2020 Paul J. Drongowski, N2OQT