From Jeremy S Cook on Tindie blog:
Ted Yapo had a small problem. As an amateur atronomer and astrophotographer, he needed a way to mark his expensive equipment so that he wouldn’t trip over it in the dark. Glow-in-the-dark materials were out because of they only glow for a short time, and glow sticks were also less than ideal because of their single-use nature. Tritium light sources would be perfect, barring the small details that they’re radioactive, expensive, and in the US only a few uses are allowed, most are prohibited by law.
So Yapo instead came up with an LED light that can run for not 20 hours, or even 20 days, but 20 yearson a single CR2032 coin cell battery!
From Jac Goudsmit on Tindie:
Build a Replica of your favorite early 6502 Computer. Or Create Your Own.
For this week’s Hack Chat, we’re talking about trusting the autorouter. The autorouter is just a tool, and like any tool, it will do exactly what you tell it. The problem, therefore, is being smart enough to use the autorouter.
Our guest for this week’s Hack Chat is Ben Jordan, Director of Community Tools and Content at Altium. Ben is a Computer Systems engineer, with 25 years experience in board-level hardware and embedded systems design. He picked up a soldering iron at 8, and wrote some assembly at 12. He’s also an expert at using an autorouter successfully.
via Friday Hack Chat: Trusting The Autorouter — Hackaday
Need 100 square inches or more?
Our 2 Layer Medium Run service is $1 per square inch and ships in 15 calendar days or fewer:
$1 per square inch, 100 square inch minimum. You can have as many different designs as you want, as long as each design is ordered in a multiple of 10 boards.
For example, if you had two different 5 square inch designs, you could order 10 of each for a total cost of $100.
100 inches is just the minimum order. You can order as much as you’d like beyond that.
Fabrication time can vary for medium run orders, but boards will ship in 15 calendar days or fewer.
Medium Run orders cannot be expedited. For faster fabrications options, you may be interested in our 2 Layer Service or even faster 2 Layer Super Swift Service.
You can get a quote, approve a design, and pay for an order at OSH Park.
2 Layer PCB Specs
- 6 mil (0.1524mm) minimum trace width
- 6 mil (0.1524mm) minimum trace spacing
- 10 mil (0.2540mm) minimum drill
- 5 mil (0.127mm) annular ring
- PCB thickness of 1.6mm (.063”)
- 1oz copper on both sides (1.4mil, 35um)
- ENIG (gold) finish for superior soldering and environmental resistance.
- Solder resist and silkscreen on both sides.
- Minimum 15 mil (0.3810mm) keepout distance from traces to the board edge.
- PCB substrate is FR4 (170 Tg).
- PCB substrate is compatible with a lead-free process.
- The boards themselves are also lead free and RoHS compliant.
- PCB Substrate dielectric constant of 4.6 at 1MHz.
- Minimum 4 mil soldermask web.
- Maximum soldermask expansion, retraction, or shift is 3mil.
- Minimum 100 mil (2.54mm) width on internal cutouts. See our Slots page for further information.
- Manufactured in the United States.
- Castellations are allowed, but not officially supported.
- Non-plated slots smaller than 100 mil (2.54mm) are not officially supported.
- Plated slots and smaller slots are possible, but not officially supported. See our Slots page for more.
From Mark Smith on the Surf ‘n Circuits blog:
A few years ago, while managing the power management product line at work, I started an initiative with the development team to optimize new products by achieving ESE. ESE stands for Equations = Simulations = Experimentation. The idea is centered on the engineering goal of product design to verify that the systems design equations match the simulation results and ultimately the experimental results.
When these three items match, not only do you understand a system, but you have the best chance to optimize a better solution. I’ll have to say that in today’s mad dash to get new products out the door, achieving ESE is not always possible. But to break through the ordinary and have a chance for the extraordinary, I would say this is a requirement. Since this power supply is just a fun design for an upcoming nixie tube clock project of mine, I have the time to achieve ESE.
The updated schematic, BOM, Kicad Layout, and design files are located at Github:
surfncircuits has shared the board on OSH Park:
Here is a quick video showing six IN-4 Nixie tubes being powered by a 5v iPhone charger: