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Adapting an Old Rotary Dial for Digital Applications

13 Junio 2025 at 20:00
Mousa rotary dial and circuit

Today in old school nostalgia our tipster [Clint Jay] wrote in to let us know about this rotary dial.

If you’re a young whippersnapper you might never have seen a rotary dial. These things were commonly used on telephones back in the day, and they were notoriously slow to use. The way they work is that they generate a number of pulses corresponding to the number you want to dial in. One pulse for 1, two pulses for 2, and so on, up to nine pulses for 9, then ten pulses for 0.

We see circuits like this here at Hackaday from time to time. In fact, commonly we see them implemented as USB keyboards, such as in Rotary Dial Becomes USB Keyboard and Rotary Dialer Becomes Numeric Keypad.

One thing that makes this particular project different from the ones we’ve seen before is that it doesn’t require a microcontroller. That said, our hacker [Mousa] shows us how to interface this dial with an Arduino, along with sample code, if that’s something you’d like to do. The schematic for the project shows how to connect the rotary dial (salvaged from an old telephone) to both a 7-segment display and a collection of ten LEDs.

The project write-up includes links to the PCB design files. The guts of the project are a 4017 decade counter and a 4026 7-segment display adapter. Good, honest, old school digital logic.

Hacking T Cells to Treat Celiac Disease

12 Junio 2025 at 02:00

As there is no cure for celiac disease, people must stick to a gluten free diet to remain symptom-free. While this has become easier in recent years, scientists have found some promising results in mice for disabling the disease. [via ScienceAlert]

Since celiac is an auto-immune disorder, finding ways to alter the immune response to gluten is one area of investigation to alleviate the symptoms of the disease. Using a so-called “inverse vaccine,” researchers “engineered regulatory T cells (eTregs) modified to orthotopically express T cell receptors specific to gluten peptides could quiet gluten-reactive effector T cells.”

The reason these are called “inverse vaccines” is that, unlike a traditional vaccine that turns up the immune response to a given stimuli, this does the opposite. When the scientists tried the technique with transgenic mice, the mice exhibited resistance to the typical effects of the target gluten antigen and a related type on the digestive system. As with much research, there is still a lot of work to do, including testing resistance to other types of gluten and whether there are still long-term deleterious effects on true celiac digestive systems as the transgenic mice only had HLA-DQ2.5 reactivity.

If this sounds vaguely familiar, we covered “inverse vaccines” in more detail previously.

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