Kritik sah

No, this isn’t another product from [PeriFractic]’s revived company, though we hope he’s taking notes. This is, in fact, a hack on the beloved 1530 Datasette, using the tape mechanism and case to create a portable audio device for your precious remaining mix tapes. Well, [Jan Derogee]’s precious mix tapes, at any rate; we aren’t the government, we don’t know if you have any tapes, mixed or otherwise. [Jan] started, obviously enough, with a Datasette, but they key was apparently to use a Made-in-Japan model–  the Made-in-Taiwan units are a later development and victims of the old Commodore’s infamous obsession with cost-cutting. The main difference is that the Japanese-built Datasettes have two sets of screws: one to hold the tape mechanism in place, and the other to hold two halves of the case together. The Taiwanese units make one set do double duty. Doubtless more was saved through streamlining assembly than the cost of four screws, bu...

Some of our esteemed readers were not yet out of diapers back in 2013 when Microsoft decided to put MSN Messenger out to pasture, but the memories that this instant messenger’s (IM) interface and notification sounds have left are hard to erase. This also includes some of the weirdest accessories that this IM spawned, such as the USB-connected i-Buddy. Recently [Rayly Retro] got his mittens on a new-in-box one to revive alongside an era-appropriate Windows 7 PC. What the i-Buddy gets you is the ability to light up the head in seven different colors, twist the torso and flap the butterfly wings, all of which can correspond to certain events in the MSN IM or for more general notifications, as set by software running on the connected PC. Interestingly, this i-Buddy is recognized by Windows as a USB HID, so no special driver is needed. A range of ways to program it exist too, including a .NET-based library from back when it was still being sold for around $20. Although the MSN Mess...

An old-style PC BIOS served the function of a bootloader in loading the operating system kernel, and of an API in providing a set of standard system calls through which software could interact with the hardware. Though it as been long-ago superseded by operating system level calls and UEFI bootloaders, it was a simple and easy-to-understand firmware for the PCs of the day. Microcontrollers usually don’t have anything quite like a BIOS because their software is more often compiled as-is without the need for one. But here’s [Rompass] who has bucked that trend, with a BIOS for the ESP32-C6 . Of course this isn’t the PC BIOS we all know, and you’ll not be running DOS on it. Instead it’s a subsystem that serves the purposes outlined above and provides an environment for dynamically loaded executables from RAM rather than an operating system kernel. The executables are compiled in the normal way for the ESP32, and can be loaded over the network if necessary. W...

Before the past year, many of us took computer memory for granted. It was one of the lower-cost parts of a PC build and was usually available in whatever quantity one desired. As its cost has skyrocketed, a lot of PC builders and other users of computers in general are taking a deeper look at memory, how much is really needed, and what its functions truly are. [Igor] is working on a drum sequencer project which needs a small amount of memory, and has built this dynamic RAM from discrete components. The first video goes into the construction of the memory array and how its addressed. It’s only eight bytes total, and using fairly large electrolytic capacitors to store data means that a gigabyte of this memory would take up well over a thousand acres, but it’s still enough memory for [Igor]’s needs. In addition to the capacitor, each bit uses a pair of diodes to determine if a read or write is occuring, and a set of transistors on the read and write busses to perform th...

While there is a time and place for wirelessly controlled devices, sometimes you want something you can just reach out and touch to interact with, no apps to install or devices to configure. In this case [John] wanted a lamp that was just that. Drawing inspiration from the rotary phone, he created the LightComposer . This small lamp, just a bit smaller than a hockey puck, uses a 3D printed enclosure and a straightforward PCB. It’s a very accessible project to recreate. The 3D prints are well thought out including a TPU ring on the bottom to keep the lamp from sliding around. The light source comes from 32 SK6812 LEDs, which are very similar to NeoPixels. An ATmega328P microcontroller powers the project and can easily be programmed using the Arduino IDE. A rotary encoder in the center, coupled to the top diffuser, lets you control LED brightness and color by turning it. The firmware also includes some fun hidden light-effect modes. Head over to [John]’s site for all the files needed ...

After recently publishing a few videos covering research into the poor adhesion between chopped carbon fiber (CCF) and the thermoplastic filaments as used with FDM 3D printing, some of the feedback received by [I built a thing] included the idea that the missing step to make CCF additives work was post-print annealing. Naturally this claim had to be investigated , both through the resulting physical characteristics as well as on a microscopic level in the same scanning electron microscope (SEM) as before. Post-annealing SEM scan, showing clear voids. (Credit: I built a thing, Youtube) Theories as to why annealing the parts would help here seem to focus on increased bonding and filling of voids in the printed CCF-infused material, while there are the typical worries with annealing such as parts warping and shrinking to also take into account as potential downsides of this treatment. For the sample materials PETG and PETG-CF, as well as PLA and PLA-CF filaments are used, with each fil...