Hackaday editors Elliot Williams and Mike Szczys select our favorite hardware hacks of the past week. This episode is packed with DIY lab instruments, including a laser microscope, a Raspberry Pi spectrometer, and a stepper motor tester that can tell you what’s going on all the way down to the microsteps. We wax poetic about what modular hardware really means, fall in love with a couple of stock-ticker robots, and chat with special guest Tom Nardi about his experience at the VCF Swap Meet.
Take a look at the links below if you want to follow along, and as always, tell us what you think about this episode in the comments!
In the summer of 2012, honeybees swarmed the Pittsburgh airport, probably because the conditions are favorable there. Like many airports, the tarmac is surrounded by wild, wide-open fields that exist to contain the cacophony. And a couple of nearby creeks are dotted with plenty of forage-worthy wildflowers.
The relationship between honeybees and airports is a symbiotic one — the honey the bees produce is a litmus test for air pollution levels around the airport, which must fall within regulations. German airports have employed bees as ‘bio-detectives’ for over twenty years, and they give the honey away for free inside the terminal. It’s okay, though — analysis reveals that the hydrocarbon and heavy metal levels in the airport honey aren’t any higher than honey from non-industrial bees.
This week we’re starting off with a somber note, as Dan Kaminsky passed at only 42, of diabetic ketoacidosis. Dan made a name for himself by noticing a weakness in DNS response verification that could allow attackers to poison a target DNS resolver’s cache. A theoretical attack was known, where spoofed DNS responses could collide with requests, but Time-To-Live values meant that DNS requests only go out once per eight hours or so. The breakthrough was realizing that the TTL limitation could be bypassed by requesting bogus subdomains, and aiming the spoofed responses at those requests. This simple technique transformed a theoretical attack that would take 87 years to a very real 10 second attack. Check out the period video after the break, where Dan talked about his efforts in getting the problem fixed. Continue reading “This Week In Security: Dan Kaminsky, Banned From Kernel Development, Ransomware, And The Pentagon’s IPv4 Addresses”→
The ATMegaZero ESP32-S2 is currently being funded with a campaign on GroupGets, and it’s a microcontroller board modeled after the Raspberry Pi Zero’s form factor. That means instead of the embedded Linux system most of us know and love, it’s an ESP32-based development board with the same shape and 40-pin GPIO header as the Pi Zero. As a bonus, it has some neat features like a connector for inexpensive SSD1306 and SH1106-based OLED displays.
Being able to use existing accessories can go a long way towards easing a project’s creation, and leveraging that is one of the reasons for sharing the Pi Zero form factor. Ease of use is also one of the goals, so the boards will ship with CircuitPython (derived from MicroPython), and can also be used with the Arduino IDE.
If a microcontroller board using the Pi Zero form factor looks a bit familiar, you might be remembering the original ATMegaZero which was based on the Atmel ATMega32U4, but to get wireless communications one needed to attach a separate ESP8266 module. This newer board keeps the ATMegaZero name and footprint, but now uses the Espressif ESP32-S2 to provide all the necessary functions.
For many of us the passing of the floppy disk is unlamented, but there remains a corps of experimenters for whom the classic removable storage format still holds some fascination. The interface for a floppy drive might have required some complexity back in the days of 8-bit microcomputers, but even for today’s less accomplished microcontrollers it’s a surprisingly straightforward hardware prospect. [David Hansel] shows us this in style, with a floppy interface, software library, and even a rudimentary DOS, for the humble Arduino Uno.
The library provides functions to allow low level work with floppy disks, to read them sector by sector. In addition it incorporates the FatFS library for MS-DOS FAT file-level access, and finally the ArduDOS environment which allows browsing of files on a floppy. The pictures show a 3.5″ drive, but it also supports 5.25″ units and both DD and HD drives. We can see that it will be extremely useful to anyone working with retrocomputer software who is trying to retrieve old disks, and we look forward to seeing it incorporated in some retrocomputer projects.
With little more than four economical stepper motors, a Raspberry Pi Zero, and a 3D printer, [Thomas Barlow] made himself an awfully slick Smart Flip Clock that can display not only the time, but also weather data as well. This is done by adding a few extra graphics to some of the split-flaps, so numbers can also be used to indicate temperature and weather conditions succinctly. Displaying the time has to do without a colon (so 5:18 displays as 518), but being able to show temperature and weather conditions more than makes up for it.
32 degrees and a mix of sun and cloud
According to the project’s GitHub repository, it looks as though each split-flap has thirteen unique positions. The first ten are for numerals 0 through 9, and the rest are either blank, or used to make up a few different weather icons with different combinations. A Python script runs on the Raspberry Pi and retrieves weather data from OpenWeather, and the GPIO header drives the display via four geared stepper motors and driver boards. The rest of the hardware is 3D printed, and [Thomas] helpfully provides CAD models in STEP format alongside the STL files.
Old CRT computer enthusiast [x86VileR] recently tracked down an IBM 5153 monitor for which he had been searching several years. Unfortunately shipping a heavy glass CRT isn’t easy. In fact, it took [VileR] three tries to get a functioning monitor delivered intact and working. The first one seemed reasonably protected in its packaging, but arrived so banged up that the CRT had become dislodged inside the monitor and the neck broke off! The second attempt was packaged even better, and he was sure it would arrive problem-free. Alas, it too arrived all banged up and broken.
This one clearly had superior packaging, so I find it difficult to account for this truly stupendous level of damage. The most promising theory is that several people jumped on it simultaneously, just before the delivery truck ran it over. As my friend put it, it would’ve arrived in better shape if he had just smashed it himself before boxing it up.
Double-boxing appears to be the answer, although it might result in a box too large to ship depending on your courier’s rules. Short of building custom wooden crates, do you have any packing tips for shipping heavy and fragile items? Thanks to [J.R. Dahlman] for sending us the tip.
