Tagged: rtl2832

TechMinds: Testing the SDR++ Brown Fork with Built-In DSD and Remote KiwiSDR Support

Over on YouTube, Matt from Tech Minds has uploaded a video in which he demonstrates and tests an unofficial fork of the popular SDR++ software called "SDR++ Brown."

SDR++ Brown has some unique features such as the ability to connect to remote KiwiSDR WebSDRs directly within the UI, built-in FT8 and FT4 decoders with PSK reporter, a built-in DSD decoder allowing for DMR, P25 and NXDN to be decoded directly in the software, Hermes Lite 2 support, and various Android UI improvements for small screens.

Matt also notes a few bugs with the software, such as PSK Reporter and Multi-WebSDR waterfall display features being broken.

Over on X, Alexandre Rouma, creator of the original SDR++, has expressed concern about this fork. He notes that this is an unofficial fork that is not up to his standards and that support requests for SDR++ Brown should not be made to him. Instead, support requests should be made directly to the fork owner, Sanny Sanoff.

SDR Plus Plus - Brown Edition Adds New Features Including DSD!

RadioTransciptor: Real Time Radio Speech to Text Transcriptor using AI

Thank you to user theckid from our forums for submitting news about the release of his latest project called "RadioTranscriptor". RadioTranscriptor can be used for real-time speech-to-text transcription, which is especially useful when you want to log radio communications and create searchable text files. theckid writes:

I just released an open-source Python tool that does real-time radio transcription using OpenAI’s Whisper model. It uses voice activity detection to only transcribe when speech is actually happening — great for monitoring radio chatter or voice nets on HF/VHF/UHF.

It’s designed for use with SDRs (Software Defined Radios) where audio is routed into the script. It performs:

  • Live microphone or SDR audio monitoring
  • RMS-based voice activity detection (VAD)
  • Automatic transcription with Whisper
  • Timestamped logs saved per session
  • It’s perfect for:
  • Ham radio operators
  • Emergency scanners
  • Broadcast archiving
  • Signal analysis enthusiasts

The AI model used is Whisper by OpenAI. The software uses NVIDIA CUDA GPUs when available and defaults back to CPU if none are available.

RadioTranscriptor Block Diagram
RadioTranscriptor Block Diagram

Updates To NOAA-18 Decommissioning: NOAA-18 Has Now Shut Down

A few days ago, we posted news that NOAA-18 was to begin decommissioning steps effective immediately due to a recent transmitter failure. Multiple reports have now confirmed that NOAA-18 has indeed shut down as of 1740 UTC 06/06/2025.

The usaradioguy.com blog has further updates for those who are interested. The official notice from NOAA can also be found here. Interestingly, it appears that NOAA-18 will not be de-orbiting as it lacks the required propulsion system to do so. So it will remain in orbit as space debris.

A user using a hobbyist station in Sweden also captured the shutdown remotely during APT image reception, as shown in the image below.

Farewell and thanks for your long service NOAA-18!

The final NOAA-18 APT pass captured by SA2KNG in Sweden, and processed remotely by Thomas:douwes.co.uk
The final NOAA-18 APT pass captured by SA2KNG in Sweden, and processed remotely by Thomas:douwes.co.uk

 

RTL-SDR Blog V3/V4 USB-C Model Released For Sale

We're happy to announce that we have released a new USB-C version of the popular RTL-SDR Blog V3 and V4 dongles on our store at www.rtl-sdr.com/store!

Many members of the RTL-SDR community have been requesting a USB-C version for some time now. The dongle circuitry is identical to your favorite V3 and V4 models, but the USB-A plug has been replaced with a USB-C female plug instead.

The new V4c RTL-SDR Blog V4 with USB-C Plug
The new V4c RTL-SDR Blog V4 with USB-C Plug

Please note that you will need a USB-C cable to use the dongle (not included); however, we always recommend using a USB cable with the dongle anyway to avoid strain on your USB ports and to get the dongle further away from the RF-noisy PC. Also, please note that the dongle is still USB 2.0, as simply changing to a USB-C plug does not change the USB spec.

So far, we have only produced a small batch of these USB-C dongles as a trial to test the market. If they prove popular, we will increase the number of dongles manufactured. 

For now, we are only shipping these new units worldwide from our warehouse in China. They can be purchased at www.rtl-sdr.com/store. Amazon USA will be stocked with a few hundred of these dongles within about a month. 

Hackaday Supercon 2024: Tracking Down Radio Transmissions

Talks from the Hackaday Supercon 2024 conference have recently been uploaded to YouTube, and one interesting talk by Justin McAllister and Nick Foster is about tracking down radio transmissions.

The talk focuses on using SDR hardware such as the RX888, RTL-SDR, and Airspy devices combined with directional antennas for radio direction finding. Interestingly, they also discuss using ultrasonic microphones to find power line noise from bad transformers or insulators. The talk also focuses on ensuring that your SDRs receive real signals and what noise might look like on the spectrum.

This talk provides a comprehensive guide to identifying and locating radio transmitters. Learn about practical techniques, common tools, and methodologies from decades of combined experience finding, squashing, and mitigating against radio frequency interference.

Supercon 2024: Justin McAllister and Nick Foster - How to Track Down Radio Transmissions

SkyRoof: New Ham Satellite Tracking and SDR Receiver Software

Recently VE3NEA has released a new Windows program called "SkyRoof". SkyRoof is both a satellite tracking and SDR receiver program. It supports the RTL-SDR as well as Airspy and SDRplay devices.

The software is designed for tracking and receiving ham radio satellites, and it can provide detailed information about all ham satellites, tracking them in real time, and provide pass prediction. It also shows a skymap and SDR waterfall display. The receiver software supports demodulation of SSB/CW/FM, and it automatically compensates for doppler. It can also interface with antenna rotators that support hamlib.

SkyRoof Satellite Tracking and SDR Receiver Software Screenshot
SkyRoof Satellite Tracking and SDR Receiver Software Screenshot

Over on YouTube Johnson's Techworld has also recently uploaded a video showing him testing out Skyroof, which may be of interest to some.

Brief review of SkyRoof, the latest satellite tracking software!

AEDA: Crowd Sourced RTL-SDR Spectrum Analysis and TDoA Direction Finding Platform

Recentlywe've seen posts on X about a new service called "AEDA" (Advanced Electromagnetic Detection Application). This crowd-sourced web service utilizes RTL-SDR dongles as the RF reception hardware. The software can use multiple RTL-SDRs distributed around a city area for spectrum analysis and TDoA (Time Difference of Arrival) radio direction finding.

The service uses RTL-SDR dongles connected to Raspberry Pis as RF monitoring hardware. In the web UI, a user can initiate a spectrum scan using any of the distributed RTL-SDR nodes available to them. It can also automatically detect popular modulation types such as WBFM, NBFM, DMR, and P25.

A user can also initiate a TDoA scan to localize the source of a particular signal. This requires at least three RTL-SDR nodes to be distributed with good geometry around the signal source. The service synchronizes time via external wideband noise-like signals such as TV signals, cell towers, and DAB, so one of these signals must be available to be received by all RTL-SDRs used in the TDoA calculation.

For now, the service and features appear to be free. However, it looks like they will monetize the platform in the future by renting the crowdsourced RTL-SDR nodes to companies and persons that need to do band studies, radiolocation, and interference detection. They also hope to pay node owners for any time the nodes are rented.

More information about the AEDA service is available on their documentation page.

AEDA Scan with Modulation Detection
AEDA Scan with Modulation Detection
AEDA TDoA Hyberbolas from Three Distributed RTL-SDRs

NOAA18 to Begin Decommissioning Steps Immediately

In April, we posted news that the NOAA satellites would be classed as 'end-of-life' on June 16, 2025. According to the statements, the satellites were expected to remain in orbit and continue transmitting data that radio hobbyists could use, but no attempts would be made to rectify failures.

However, recent news from Carl Reinmann's usaradioguy.com blog has indicated that NOAA 18 will begin decommissioning steps immediately on June 3, 2025. The steps involve disabling batteries and transmitters, depleting remaining propellants, transitioning data and operations, and finally deorbiting, or moving the satellite to a safer orbit.

NOAA-18 may have been chosen to be decommissioned earlier than NOAA-15 and NOAA-19 as the S-band downlink transmitter failed last month, resulting in severe image degradation. The satellite has also been running on backup gyros since 2017, and has suffered various transmitter and sensor failures over the years. 

NOAA-18