Assembled FPC PCB panels of the project

Give Your Thinkpad X1 Nano An Internal USB Port

June 2, 2024 by 16 Comments

How hard could it be to add an extra USB port inside your laptop? As [Joshua Stein] shows, it can be decently hard, but you will have fun along the way. His journey involves a Thinkpad X1 Nano, and his tech setup means it’d be most comfortable for him to have a USB port inside its case, for a Logitech mouse’s USB receiver. It wasn’t smooth sailing all throughout, but the end result is no doubt beautifully executed.

M.2 B-key, A-key and E-key slots have USB 2.0 available on them – you’d think that’s perfect for such a receiver, and there’s even plug and play adapters for this on places like eBay. Unfortunately, none of these, as Lenovo implements wireless card whitelists to this day. Tinkering with the whitelist on [Joshua]’s laptop resulted in BIOS digital signature check failures, and the USB-connected fingerprint reader was ultimately chosen as the most viable path.

Initially, he’s tested the fingerprint reader with an FPC breakout, having the USB connection work – many a hacker would stop here, pulling a few bodge wires from the breakout. [Joshua], however, raised the bar, creating a flexible PCB that would pull the fingerprint connector signals to a spot in the case where the USB receiver could fit neatly, with a 5 V step-up on the board, too.

[Joshua] tops it off by showing a 3D-printed spacer that goes into now-vacant spot where the fingerprint reader used to be. This mod is not open-source as far as we can see, but it’s definitely an inspiration. Want to put even more USB devices inside your laptop? Perhaps a tiny USB hub would help, in line with the EEE PC mods that aimed to stuff the tiny laptop with the largest amount of USB devices possible.

Why Your Old Phone Sounded The Way It Did

June 2, 2024 by 26 Comments

The mobile phone may be sweeping away the traditional wired phone, but that doesn’t change the fascinating history and technology of the older device. At [This Museum Is Not Obsolete] they have a fully functional mechanical telephone exchange as one of their exhibits, and they’ve published a video examining the various sounds it’s capable of making.

When a voice synthesiser was the stuff of science fiction, exchange status couldn’t be communicated by anything but a set of different tones. If you’ve ever encountered a mechanical exchange you’ll recognise the harsh-sounding low-frequency dial tone, and the various sets of beeps denoting different call status. These were produced with a set of oscillators being switched in and out by shaped cams, and the bank of these on their exchange is most of the subject of this video. The common ones such as the engaged tone and the dial tone are explained, but also some we’d never heard such as the one signifying the exchange as out of capacity.

We may never own a mechanical exchange of our own, but we’re glad that someone does and is sharing it with us. You can see the video below the break.

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Hands-On With The Electromagnetic Field 2024 Badge

June 1, 2024 by 11 Comments

With every large event in our circles comes a badge, and Electromagnetic Field 2024 is no exception. We’ve told you about the Tildagon when it was announced, it’s a hexagonal badge designed with provision for user-created “Hexpansions”, which can be picked up at future camps. The idea of this badge is to make something with a lifetime beyond the one camp, and we’re interested to have received our badge. It’s unusual for a hacker camp badge in that it costs a little extra rather than just coming with the ticket. Continue reading “Hands-On With The Electromagnetic Field 2024 Badge”

Use That One Port For High-Speed FPGA Data Export

June 1, 2024 by 10 Comments

There’s a good few options for exporting data out of FPGAs, like Ethernet, USB2, or USB3. Many FPGAs have a HDMI (or rather, sparkling DVI) port as well, and [Steve Markgraf] brings us the hsdaoh project — High-Speed Data Acquisition Over HDMI, using USB3 capture cards based on the Macrosilicon MS2130 chipset to get the data from the FPGA right to your PC.

Current FPGA-side implementation is designed for Sipeed Tang chips and the GOWIN toolchain, but it should be portable to an open-source toolchain in the future. Make sure you’re using a USB3 capture card with a MS2130 chipset, load the test code into your FPGA, run the userspace capture side, and you’re ready to add this interface to your FPGA project! It’s well worth it, too – during testing, [Steve] has got data transfer speeds up to 180 MB/s, without the USB3 complexity.

As a test, [Steve] shows us an RX-only SDR project using this interface, with respectable amounts of bandwidth. The presentation goes a fair bit into the low-level details of the protocol, from HDMI fundamentals, to manipulating the MS2130 registers in a way that disables all video conversion; do watch the recording, or at least skim the slides! Oh, and if you don’t own a capture card yet, you really should, as it makes for a wonderful Raspberry Pi hacking companion in times of need.

A small internet radio in 3D-printed case with a knob and an OLED screen.

GlobeTune Will Widen Your Musical Horizons

June 1, 2024 by 12 Comments

Are you tired of the same old music, but can’t afford any new tunes, even if they’re on dead formats? Boy, do we know that feeling. Here’s what you do: build yourself a GlobeTune music player, and you’ll never want for new music again.

The idea is simple, really. Just turn what we assume is a nice, clicky knob, and after a bit of static (which is a great touch!), you get a new, random radio station from somewhere around the globe. [Alexis D.] originally built this as a way to listen to and discover new music while disconnecting from the digital world, and we think it’s a great idea.

[Alexis D.] has production in mind, so after a Raspberry Pi Zero W prototype, they set about redesigning it around the ESP32. The current status seems to be hardware complete, software forthcoming. [Alexis D.] says that a crowdfunding campaign is in the works, but that the project will be open-sourced once in an acceptable state. So stay tuned!

Speaking of dead-ish formats, here’s an Internet radio in a cassette form factor.

Internals of the Blu-ray player, showing both the blu-ray drive and the custom PCBs

An Ingenious Blu-Ray Mini-Disk Player

June 1, 2024 by 13 Comments

[befi] brings us a project as impressive as it is reminiscent of older times, a Blu-Ray mini disk player. Easily fitting inside a pocket like a 8 cm CD player would, this is a labour of love and, thanks to [befi]’s skills both in electronics and in using a dremel tool.

A BluRay drive was taken apart, for a start, and a lot of case parts were cut off; somehow, [befi] made it fit within an exceptionally tiny footprint, getting new structural parts printed instead, to a new size. The space savings let him put a fully custom F1C100S-powered board with a number of unique features, from a USB-SATA chip to talk to the BluRay drive, to USB pathway control for making sure the player can do USB gadget mode when desired.

There’s an OLED screen on the side, buttons for controlling the playback, power and battery management – this player is built to a high standard, ready for day-to-day use as your companion, in the world where leaving your smartphone as uninvolved in your life as possible is a surprisingly wise decision. As a fun aside, did you know that while 8 cm CDs and DVDs existed, 8 cm BluRay drives never made it to market? If you’re wondering how is it that [befi] has disks to play in this device, yes, he’s used a dremel here too.

Everything is open-sourced – 3D print files, the F1C100S board, and the Buildroot distribution complete with all the custom software used. If you want to build such a player, and we wouldn’t be surprised if you were, there’s more than enough resources for you to go off. And, if you’re thinking of building something else in a similar way, the Buildroot image will be hugely helpful.

Want some entertainment instead? Watch the video embedded below, the build journey is full of things you never knew you wanted to learn. This player is definitely a shining star on the dark path that is Blu-Ray, given that our most popular articles on Blu-Ray are about its problems.

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Screenshot of Microsoft Flight Simulator with the Dune expansion, and in the top right corner, the mod's author is shown using their phone with an attached gamepad for controlling a Dune ornithopter.

Take Control Of MS Flight Sim With Your Smartphone

June 1, 2024 by 3 Comments

Anyone with more than a passing interest in flight simulators will eventually want to upgrade their experience with a HOTAS (Hands On Throttle-And-Stick) setup that has buttons and switches for controlling your virtual aircraft’s assorted systems, which are well supported by games such as Microsoft Flight Simulator (MSFS). But a traditional HOTAS system can be a bit of an investment, so you might want to thank [Vaibhav Sharma] for the virtualHOTAS project that brings a configurable HOTAS interface to your phone — just in time to try out that Dune expansion for MSFS.

The phone’s orientation sensors are used as a joystick, and on the screen, there’s both sliders and buttons you can use as in-game controls. On the back-end there’s a Python program on the computer which exposes a webserver that the phone connects to, translating sensor and press data without the need for an app. This works wonderfully in MSFS, as [Vaibhav] shows us in the video below. What’s more, if you get tired of the touchscreen-and-accelerometer controls, you can even connect a generic smartphone-designed game controller platform, to have its commands and movements be translated to your PC too!

All the code is open source, and with the way this project operates, it will likely work as a general-purpose interface for other projects of yours. Whether you might want to build an accessibility controller from its codebase, use it for your robot platform, maybe simply repurpose this project for any other game, [Vaibhav]’s creation is yet another reminder that we’re carrying a sensor-packed platform, and it might just help you build a peripheral you didn’t know you needed.

Don’t have a phone handy? Perhaps an Xbox controller could work with just a few 3D printed upgrades, or you could stock up on buttons and build your own joystick from scratch. Oh, and keeping HOTAS principles in mind can be pretty helpful — you might get to redesign the venerable computer mouse, for instance!

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