[Ben Hilburn] the president of the [GNU Radio Project] has recently started a new podcast called [Signals and Bits]. If you were unaware, GNU Radio is the defacto open source framework for implementing digital signal processing code. Without it, many SDR programs that we take for granted may have never been developed as it is responsible for a lot of community DSP knowledge and algorithm development.
This podcast is scheduled for a new release every Wednesday and will be composed in an interview style focusing on a multitude of topics from Software Defined Radio to Spectrum Enforcement, Radio Astronomy and so much more.
In the first episode Ben interviews Harold Giddings AKA Corrosive of [Signals Everywhere] where they discuss the state of Software-Defined radio and how he got started with radio communications having come from an IT/Computer Networking background.
Ben has already pre-recorded several episodes which will ensure great content is always just around the corner. Ben would love it if you could also send feedback his way over on the [Signals and Bits Twitter] page.
This week on the SignalsEverywhere YouTube channel, host Corrosive gives us a tutorial on common modulations that you'll see on your software defined radio. His tutorial covers Amplitude Modulation (AM), Frequency Modulation (FM), Single Side Band (SSB) and Conintuous Wave (CW) modulations. In the video he shows what they look like and how to select the correct mode and bandwidth settings in SDR#. Corrosive uses an Airspy in the video, but the same concepts are valid for any SDR, like the RTL-SDR.
If you're new to SDR then this is a great introductory video to watch and learn from.
AM FM SSB and CW | Common Modulation You'll See on SDR
Steve notes that to get the Limesdr Mini to run in SDR# he simply had to download and extract into the SDR# folder a front end plugin developed by Goran Radivojevic (YT7PWR). After adding the front end plugin XML definition, it can now be found in the SDR# device selection menu. This plugin should work for the standard LimeSDR as well.
We note that this is the same procedure for other SDRs too, such as the PlutoSDR. If you have an SDR not supported by default in SDR#, search for "[your_sdr] + SDR# front end plugin" on Google, and if you are lucky you might find something already exisiting.
Elektor is a popular electronics magazine and hobbyist kit store. Recently they have published a book titled "SDR Hands-on Book" written by Burkhard Kainka. The book is intended as a companion to their Arduino SDR shield kit, which is a low cost module that allows you to turn an Arduino into a 150 kHz to 30 MHz capable SDR. It is based on the G8JCFSDR, which is an RF front end downconverter that allows a PC soundcard to be used as an SDR analog to digital converter.
Kainka's book goes over introductory topics such as shortwave reception, explains signal to noise ratio and interference, different types of antennas, software, digital modes, SDR measurements, receiving and finally WSPR and QRP transmission. If you're interested Jan Buiting also recently reviewed the book on the Elektor website.
Elektor are currently running a promotion and are selling the book + Arduino shield for a reduced price of €49.90.
The New England Workshop on Software Defined Radio (NEWSDR) is a yearly conference that hosts multiple SDR related talks. Previously we posted a selection of our favorite 2018 talks which involved topics such as remote sensing of space with SDR, wireless deep learning and multi-objective SDR optimization.
This years NEWSDR event will been held on Jun 13 and 14 at the University of Massachusetts in Boston. They are currently offering pre-registration for free, and are looking for poster presentations.
This year is the 9th iteration of NEWSDR and it will be held at the University of Massachusetts Boston campus on June 13 and 14. Registration is free and we are also accepting submissions for poster presentations and elevator pitches. The event is an excellent networking opportunity and includes technical presentations as well as demonstrations from industry sponsors (Ettus/NI, MathWorks, Analog Devices, and MediaTek).
Over on his blog, DXer OH2-2192 was frustrated by lots of local electrical noise showing up on the HF bands on his Airspy + Spyverter SDR receiver. He discovered that the majority of the noise he was seeing was coming from the switch mode power supplies that power the electronic devices used in his setup. Switch mode power supplies are very common in the modern world, with almost every electronic device using one to efficiently convert wall AC into DC power. However, they convert power by rapidly switching on and off, and these on/off square wave pulses cause a lot of RF noise especially on the HF spectrum.
Over on the SignalsEverywhere YouTube channel, Corrosive has uploaded two new videos about the PlutoSDR. The PlutoSDR is a low cost (typically $99 - $149) RX/TX capable SDR with up to 56 MHz of bandwidth and 70 MHz to 6 GHz frequency range. It also has an onboard FPGA and ARM Cortex-A9 CPU.
By default the bandwidth and frequency range of the PlutoSDR is limited to only 20 MHz and 325 MHz - 3.8 GHz. A minor hack which requires some commands to be input via a terminal screen is required to unlock its full potential, and in the first video Corrosive runs through how this hack can be applied. He also shows an additional hack which unlocks a second CPU core which can be useful for increasing the available CPU power for apps running on the PlutoSDR's ARM processor.
In the second video Corrosive shows how to install the PlutoSDR SDR# plugin, which allows the PlutoSDR to run in SDR#. He then shows how to actually use the plugin to connect to the PlutoSDR.
Adalm Pluto SDR Tutorial: 70Mhz to 6Ghz and Dual Core CPU Modification
Adalm Pluto SDR Sharp Plugin Tutorial ~ [Infamous SDR# on Your Pluto]
As John notes, running SDR software from within a virtual machine essentially freezes a working version of your setup in a virtual image. It's then possible to put the image on a memory stick and take your entire working software setup with you and run it on another PC. Using a fixed image then also avoids problems with OS updates breaking things, as updates can be safely turned off on the virtual machine. Any damage from viruses is localized to the virtual machine only.
During his research John found many people who have been running Linux from within a virtual machine running on Windows, but not the reverse. Originally he tried running a Windows VM from within Windows, but he experienced crashes. Only when using Linux as the base OS was his Windows VM stable.
In his setup he runs Fedora 26 as the base Linux OS (although other Linux versions should also work), and Windows 7 in the Virtual Machine. He uses Oracle VirtualBox as the virtualization software. Once Windows 7 is installed on the Virtual Machine, setting up software like SDR# is as simple as going through our quickstart guide.