Radio Hacks

1329 Articles

A Parts Bin Cyberdeck Built For Satellite Hacking

March 12, 2023 by 10 Comments

While there’s little in the way of hard rules dictating what constitutes a cyberdeck, one popular opinion is that it should be a piecemeal affair — a custom rig built up of whatever high-tech detritus the intrepid hacker can get their hands on, whether it be through trades or the time-honored tradition of dumpster diving. It should also be functional, and ideally, capable of some feats which would be difficult to accomplish with a garden variety laptop.

If you’re looking for an example that embraces these concepts to the fullest, look no further than the Spacedeck built by [saveitforparts]. Combining a touch screen all-in-one computer pulled from a police cruiser in the early 2000s, an RTL-SDR, and the contents of several parts bins, the rig is designed to work in conjunction with his growing collection of motorized satellite dishes to sniff out signals from space.

As you can see in the build video below, the design for this mobile satellite hacking station was originally very different, featuring considerably more modern hardware with all the buzzword interfaces and protocols you’d expect. But [saveitforparts] couldn’t get all the parts talking satisfactorily, so he went in the closet and dug out one of the surplus police terminals he’d picked up a while back.

He didn’t have the appropriate connector to power the machine up, but by cracking open the case and tracing out the wires, he figured out where he needed to inject the 12 V to get it spun up. From there he installed a new Mini PCI WiFi adapter, loaded up an era-appropriate build of Linux, and got the standard software-defined radio tools up and running.

What really sets this build apart are the two custom panels. The top one offers access to the various ports on the computer, as well as provides a sort of switchboard that connects the RTL-SDR to various onboard filters. The lower panel includes the hardware and controls necessary to aim different styles of motorized satellite dishes, as well as a USB hub and connector that leads into a commercial satellite meter tucked into the case.

At the end of the video [saveitforparts] demonstrates the various capabilities of the Spacedeck, such as the ability to pull in imagery from weather satellites. Considering the sort of satellite sniffing we’ve seen him pull off in the past, we have no doubt this machine is going to be listening in on some interesting transmissions before too long.

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Pulling Data From HDMI RF Leakage

March 7, 2023 by 25 Comments

A long-running story in the world of electronic security has been the reconstruction of on-screen data using RF interference from monitors or televisions. From British TV detector vans half a century ago to 1980s scare stories about espionage, it was certainly easy enough to detect an analogue CRT with nothing more than an AM broadcast radio receiver. But can this still be done in the digital age? It’s something [Windytan] has looked into, as she reconstructs images using leakage from HDMI cables.

The tale starts with a mystery RF noise, soon identified as not unlike the scanning frequencies of a video signal. Plotting the noise intensities while treating the supposed scanning frequencies as video synchronization yields a shadowy version of her Raspberry Pi desktop, so she’s on to something. It’s important to note that this isn’t a video signal she’s receiving, but the noise associated with the bit transitions in an uncompressed digital video stream, so she quickly concludes that trying to resolve color would be futile.

It does however leave the tantalizing possibility of using this as a medium to wirelessly export data from a compromised machine, and it’s down this route she goes. She finally arrives on a scheme of encoding data as lines of individual colors that look like interference patterns over a desktop, and from there can send and retrieve files. It works for digital audio streams, and as shown in the video below, even an MJPEG video stream, hidden in the noise from a video signal. That’s impressive work, by any standard!

We covered those BBC detector vans in detail a while back.

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What’s Going To Happen To Legacy Broadcast Bands When The Lights Go Out?

March 6, 2023 by 215 Comments

Our smartphones have become our constant companions over the last decade, and it’s often said that they have been such a success because they’ve absorbed the features of so many of the other devices we used to carry. PDA? Check. Pager? Check. Flashlight? Check. Camera? Check. MP3 player? Of course, and the list goes on. But alongside all that portable tech there’s a wider effect on less portable technology, and it’s one that even has a social aspect to it as well. In simple terms, there’s a generational divide that the smartphone has brought into focus, between older people who consume media in ways born in the analogue age, and younger people for whom their media experience is customized and definitely non-linear.

The Kids Just Don’t Listen To The Radio Any More

A 1957 American family watching TV
We’re guessing this is no longer a scene played out in many homes. Evert F. Baumgardner, Public domain.

The effect of this has been to see a slow erosion of the once-mighty reach of radio and TV broadcasters, and with that loss of listenership has come less of a need for the older technologies they relied on. Which leaves a fascinating question here at Hackaday, what is going to happen to all that spectrum? Indeed, there’s a deeper question behind all that, is lower frequency spectrum even that valuable any more?

In the old days, we had analogue TV in several-MHz-wide channels spread across a large part of the UHF bands and some smaller chunks of VHF. Among that we had 20 MHz of FM broadcasting around the 100 MHz mark, and disregarding shortwave, then a MHz of AM down around 1 MHz. Europeans got a bonus band down there too: we’ve got Long Wave, over 100 kHz of AM goodness roughly centered around 200 kHz.

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Review Of The YARD Stick One Radio Dongle

March 5, 2023 by 20 Comments

When it comes to SDR, you can usually find cheap products that receive and expensive products that can also transmit. The YARD Stick One bucks that trend. It can send and receive from 300 MHz to 928 MHz, thanks to the onboard TI CC1111 chip. [Wim Ton] on Elektor put the device through its paces. While the frequency range isn’t as broad as some devices, the price is right at about $99. YARD, by the way, stands for Yet Another RF Dongle.

The frequency range isn’t as cut and dry as it might seem. According to the product’s home page: “official operating frequencies: 300 MHz – 348 MHz, 391 MHz – 464 MHz, and 782 MHz – 928 MHz; unofficial operating frequencies: 281 MHz – 361 MHz, 378 MHz – 481 MHz, and 749 MHz – 962 MHz.” The unofficial operating frequencies are not supported by the chip but appear to work in practice.

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Inspect The RF Realm With Augmented Reality

March 4, 2023 by 10 Comments

Intellectually, we all know that we exist in a complex soup of RF energy. Cellular, WiFi, TV, public service radio, radar, ISM-band transmissions from everything from thermometers to garage door openers — it’s all around us. It would be great to see these transmissions, but alas, most of us don’t come from the factory with the correct equipment.

Luckily, aftermarket accessories like RadioFieldAR by [Manahiyo] make it possible to visualize RF signals. As the name suggests, this is an augmented reality system that lets you inspect the RF world around you. The core of the system is a tinySA, a pocket-sized spectrum analyzer that acts as a broadband receiver. A special antenna is connected to the tinySA; unfortunately, there are no specifics on the antenna other than it needs to have a label with an image of the Earth attached to it, for antenna tracking purposes. The tinySA is connected to an Android phone — one that supports Google’s ARCore — by a USB OTG cable, and a special app on the phone runs the show.

By slowly moving the antenna around in the field of view of the phone’s camera, a heat map of signal strength at a particular frequency is slowly built up. The video below shows it in action, and the results are pretty cool. If you don’t have a tinySA, fear not — [Manahiyo] has a version of the app that supports a plain old RTL-SDR dongle too. That should make it easy for just about anyone to try this out.

And if you’re feeling deja vu about this, you’re probably remembering the [Manahiyo]’s VR spectrum analyzer, upon which this project is based.

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Showing balloon rising up, not too far from the ground, with one of the FOSDEM buildings and sky in the background

FOSDEM Sees Surprise Pico Balloon Event

March 4, 2023 by 23 Comments

At any vaguely-related conferences, groups of hackers sometimes come together to create an impact, and sometimes that impact is swinging something into an airspace of a neighboring country. [deadprogram] tells us that such a thing happened at FOSDEM, where a small group of hackers came together (Nitter) to assemble, program and launch a pico balloon they named TinyGlobo 1, which then flew all the way to France!

This balloon is built around a RP2040, and the firmware is written in TinyGo, a version of Go language for microcontroller use. As is fitting for a hacker group, both the hardware and software are open source. Don’t expect custom PCBs though, as it’s a thoroughly protoboarded build. But a few off-the-shelf modules will get you the same hardware that just flew a 400km route! For build experiences, there’s also a few tweets from the people involved, and a launch video, also embedded below.

This reminds us of the Supercon 2022 balloon story — darn copycats! If you’re interested in the more Earthly details of this year’s FOSDEM open source development conference, check out our recent coverage.

Antenna Hidden In Holiday Lights Skirts HOA Rules

February 27, 2023 by 87 Comments

For all their supposed benefits, homeowner’s associations (HOAs) have a reputation of quickly turning otherwise quaint neighborhoods into a sort of Stanford prison experiment, as those who get even the slightest amount of power often abuse it. Arbitrary rules and enforcement abound about house color, landscaping, parking, and if you’ve ever operated a radio, antennas. While the FCC (at least as far as the US is concerned) does say that HOAs aren’t permitted to restrict the use of antennas, if you don’t want to get on anyone’s bad side you’ll want to put up an antenna like this one which is disguised as a set of HOA-friendly holiday lights.

For this build, a long wire is hidden along with a strand of otherwise plain-looking lights. While this might seem straightforward at first, there are a few things that need to be changed on the lighting string in order to make both the antenna and the disguise work. First, the leads on each bulb were removed to to prevent any coupling from the antenna into the lighting string. Clipping the leads turns what is essentially a long wire that might resonate with the antenna’s frequency into many short sections of wire which won’t have this problem. This also solves the problem of accidentally illuminating any bulbs when transmitting, as the RF energy from the antenna could otherwise transfer into the lighting string and draw attention from the aforementioned HOA.

Tests of this antenna seemed to show surprising promise while it was on the ground, but when the string and antenna was attached to the roof fascia the performance dropped slightly, presumably because of either the metal drip edge or the gutters. Still, the antenna’s creator [Bob] aka [HOA Ham] had excellent success with this, making clear contacts with other ham radio operators hundreds of miles away. We’ve shared another of [Bob]’s HOA-friendly builds below as well which hides the HF antenna in the roof’s ridge vent, and if you’re looking for other interesting antenna builds take a look at this one which uses a unique transformer to get wide-band performance out of an otherwise short HF antenna.

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