The Raspberry Pi 3B+ As An SDR – Without The SDR!

We’ve become used to software-defined radio as the future of radio experimentation, and many of us will have some form of SDR hardware. From the $10 RTL USB sticks through to all-singing, all-dancing models at eye-watering prices, there is an SDR for everyone.

What about the idea of an SDR without any external hardware? Instead of plugging something into your Raspberry Pi, how about using the Pi itself, unmodified? That’s just what the Nexmon SDR project has achieved, and this has been made possible through clever use of the on-board Broadcom 802.11ac WiFi chip. The result is a TX-capable SDR, albeit one only capable of operating within the 2.4 GHz and 5 GHz spectrum used by WiFi.

The team had previously worked extensively with the chipset in the Nexus 5 phone, and the SDR extension was first available on that platform. Then along came the Raspberry Pi 3 B+ with a similar-enough WiFi chipset that the same hack was portable to that platform, et voilá: WiFi SDR on a Pi 3 B+.

If you’ve not looked at the Pi 3 B+ we’d like to direct you to our review. If you don’t have a Nexus 5 kicking around, and you’d like to do some WiFi-band SDR work, it’s looking like an amazing deal.

Via rtl-sdr.com.

32 thoughts on “The Raspberry Pi 3B+ As An SDR – Without The SDR!

  1. Getting raw I/Q access on low cost commodity chips is the holy grail in terms of hobbyist sdr.
    RTL-SDR is the best known example of it.
    This has some serious potential for making low cost wide band SDR transceivers even more available.

        1. A mixer capable of working at 2.4GHz is not a thing anyone can solder. To receive much lower frequencies, say the HF, one should also build a local oscillator working near 2.4GHz which would drift like crazy.

          1. Is that because the traces need to be critically measured and tuned… maybe even solder blobs spec’d out critically? Can the 2.4 and 5.8 be mixed and filtered to provide even broader range? I’m guessing some sort of relay circuit would be needed also.

        2. Digikey just mailed me a brochure that notes an Analog Devices LTC5553 and maybe use that with a LTC5594. That system would have to be hacked into for use though would make a wide band SDR system if you can make the PCB board. The evaluation boards however are outrageous in price compared to the chips… or at least on my budget.

      1. Wideband as in tons of MSPS. RTL-SDR is only 2.4MHz wide, compared to 61.44MHz wide for LimeSDR.
        Or 48kHz/192kHz for common soundcard transceivers.
        I could have been clearer.

        Adding a HackRF style converter in front of it would fix that.
        And that is something that might get done if something similar is doable with USB versions.
        SDIO and other weirder embedded stuff is a bit meh for making a general purpose SDR.

        1. I reply to you and the other comment I’d like to point out that you can’t compare bandwidth from one end of the spectrum to another and use the same unit, that is MHz, obviously a megahertz at 27MHz for example is much wider than a MHz at 5 GHz in percentage. And if you go shortwave it would become even more illustrative.

    1. Does anyone have block diagrams of the processes and also for the open source analyzers?

      https://www.vistumbler.net/
      https://github.com/libremesh/spectrum-analyzer-packages
      https://github.com/VREMSoftwareDevelopment/WiFiAnalyzer

      I’m wondering where the gaps are in making a more interactive SDR interface to visualize transmission, transmit and not only receive.

      Might be right in my face obvious and I am overthinking.

      I still haven’t hacked a router with OpenWRT yet or really even coded any communications applications. This is on my to do list and am wondering what is already opensource that can provide leads into the transmission processes and then modify those processes for communications in areas where there are free channel regions available to use… or even just outside those regions for use.

      Might be easier for the opensource communities to be able to visualize where the gaps are faster so to jump into the code or where to sniff out more if not deobfuscate on the market software to see the format of the code using block diagrams or a flow chart basically.

      1. I was just a few days ago looking into the more cost effective systems and their chips for the audio I/O interfaces like the highest SNR Creative Labs XFi Titatium HD card that is 122dB though looks like they use a PCM1794A which has a SNR or Dynamic Range of 132dB. The input sampling has some latency and is only 96kHz which seems can be 192kHz with the chip.

        I’m just now getting into the boards more and details of the circuits and chips comprehension and visualization in my mind… so seems I need to read up more on the signal qualities of the higher frequency chips since with mixing and filtering and VCO’s there are some interesting way more cost effective potential applications for SDR use with ultra low noise or low noise components and design (grounding & shielding) to lower the noise floor, increase the dynamic range and explore a high bandwidth.

        I’m still in the 90’s with the science, tech and engineering though. I feel like I’m in the 1700’s with my maths. :-|)

          1. I really do need to study those. I never was signed off on training since never needed to be trained on though have been aware of for half my life seems… ew… yeah… literally with an age reality check. I’m catching up on the range of higher level laws first before getting back into detailed regulations, protocols and standards. The Ten Commandments just isn’t cutting it now days. Get’s more trickier without knowing the lingo of the legal looking robbers.

  2. 2.4 GHz is quite simple. I had some success recycling the DRO from security alarms, at least to some extent.
    Also relevant (or was that resonant) the PCB is very simple. If you want to set it up as a local oscillator just run it at low power with a regulator inline with it. If anything the problem is you can’t tune these.
    For some applications its also possible to use the 2nd harmonic on a Sky LNB (eg SETI) as these are quite cheap now.

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out /  Change )

Google+ photo

You are commenting using your Google+ account. Log Out /  Change )

Twitter picture

You are commenting using your Twitter account. Log Out /  Change )

Facebook photo

You are commenting using your Facebook account. Log Out /  Change )

Connecting to %s

This site uses Akismet to reduce spam. Learn how your comment data is processed.