Unlike almost every other kind of microscope, atomic-force microscopes (AFMs) don’t use any kind of optical beam to image their subjects. Instead, they physically detect the subject’s surface with a tiny probe, repeating this thousands of times to build up a height map of the subject, sometimes with a resolution below a single nanometer. [Ben Krasnow] got to use an AFM in an investigation of one of his projects, and shared some unusual uses of it in his latest video.
Generally, LiFePO4 (LFP) batteries are quite safe and stable, but it’s still possible for something to go wrong, even something catastrophic, like the battery management system (BMS) developing a direct short. This is one of the tests required to be certified for the UL 2054 standard that targets household and portable battery safety. In a recent series of videos, [Will Prowse] demonstrates how a series of commercial batteries pass these tests, and how some still fail.
When light reflects off a surface, not all of it reflects off at the same wavelength; some photons impart a portion of their energy to raising the vibrational energy of the surface’s molecules, and are thus scattered away at a lower energy and longer wavelength. This is called Raman scattering, and the precise wavelength shifts are characteristic of the particular molecule being illuminated. It can therefore be used in Raman spectroscopy to identify molecules; these spectrometers are normally elaborate, expensive instruments, but [Allegedly Science] was able to build a simple system with surprising sensitivity.
They specialise in using the Web MIDI interface to allow browser control of an instrument. This might typically be done with a USB to MIDI interface, but in this lies a problem. The 8-bit microprocessor on a 1983 synth has problems keeping up with the rapid-fire data that spews relentlessly from the supercomputer-grade machine controlling it, and bad things happen as a result.
Expensive MIDI interfaces have a buffer built in, but a better solution lies in the Web MIDI code itself. They detail how to use the Web MIDI API’s built-in packet scheduler to slow things down a little and let your Yamaha DX7 chill a bit.
If you’re building a homelab rig, you could just use off-the-shelf hardware in standard cases and slap it all in a rack like the normies do. Or, you could follow the example of [Justin Garrison] and build a more oddball setup.
This particular homelab is, at its heart, built from familiar components. There are two Raspberry Pi 5s, two Raspberry Pi 4s, a GMKtec NucBox M6 Mini with an ASUS GeForce RT 2060 GPU, a LattePanda IOTA, an NVidia DGX Spark, and an HP Z4 G4 mini PC. These machines are all laced together with a TP-Link LS108GB PoE switch. [Justin] has the mini PC running the control plane components, with the rig as a whole running Talos and Kubernetes workloads. What makes this build particularly appealing, though, is the aesthetics of the rig. [Justin] documents how he hacked this hardware to fit into a bunch of old Linksys router cases, which provides a pleasant early 2000s look to the build. This included a bit of hackery to get status LEDs flickering as they should be. [Justin] also took the time to make the power buttons accessible.
If you want to stunt on your friends with a rad homelab, you either have to go for maximum power, or maximum style. This build would be the latter. Video after the break.
Valve has always designed hacker-friendly hardware, and in that spirit, [NaKyle Wright] released Inkterface, a design for an E-ink faceplate to fit the recently released Steam Machine. As far as projects go, this one is meticulously documented, so give it a peek.
The system uses a selection of components that include a 5.83″ E-ink panel and driver board, a small lithium-polymer battery, and an ESP32-based controller board. [NaKyle] used a Feather V2 and display from Adafruit, so you might be in for some GPIO changes if you go with a different board. A cleverly-designed 3D printed frame and bezel hold everything just so, creating a snug assembly with minimal wiring hassles.
A small service can be easily configured to control how the display updates.
The faceplate is wireless and self-contained, attaching with the help of four magnets. On the software side, the host machine communicates over Bluetooth, and a service takes care of pushing updates. An app for configuring and talking to the display will be available on Steam eventually, but in the meantime one can install that part manually.
[NaKyle]’s bill of materials calls for specific components, but the underlying design is very modular. Should one wish to make hardware or component changes, alterations to the 3D printed parts might be needed as well. Fortunately, [NaKyle] includes the .step files alongside the .stl models. We love to see that, because it makes tweaking or customizing so much more accessible. A homebrewed version of this E-ink panel might be just the thing to complement a homebrewed Steam machine.
Be sure to also check out the repository of Steam hardware, which contains drawings and 3D models of the Steam Deck and Steam Controller, useful for designing holders or custom brackets or whatever else one may need.
We all know the e-ink persistent displays, as they’re cheap and plentiful enough to have become ubiquitous in applications such as supermarket price labels. But we don’t often see some of the other technologies that almost did the same thing. The BBC Archive has a report from 1986 showing one of them, a prototype display from STC.
E-ink relies on flipping the arrangement of black and white particles in its pixels, while this one has a fluid in which the molecules are aligned to let light through, or dispersed randomly, at which point they block light. Frustratingly, we aren’t told what the liquid is, but we are given what might be the reason that we’ve never seen one. The activation voltage is rather high at 200 volts. It’s still a fascinating glimpse of something we might have had, with some tasty early-PC-era portables along the way.
The BBC archive has served up quite a bit of retro goodness over time, and we’ve certainly featured one or two of them over time. A recent one was this demonstration of email via a flight to Amsterdam, from the same year as today’s display.