[JohnathonT] has a two-year-old who can’t reliably tell time just yet. Every morning, he gets up before the rooster crows and barges into his parents’ room, ready to face the day.
In an effort to catch a few more Zs, [JohnathonT] built a simple but sanity-saving clock that tells time in a visual, kid-friendly way. Sure, this is a simple build. But if a toddler is part of your reality, who has time to make one from logic gates? The hardware is what you’d expect to see: Arduino Nano, a DS1307 RTC, plus the LEDs and resistors. We think an RGB LED would be a nice way to mix up the standard stoplight hues a bit.
At a glance, little Mr. Rise and Shine can see if it’s time to spread cheer, or if he has to stay in his room and play a bit longer. At 6:00AM, the light powers on and glows red. At 6:50, it turns yellow for 10 minutes. At the first reasonable hour of the day, 7:00AM, it finally turns green. In reading the code, we noticed that it also goes red at 8:00PM for 45 minutes, which tells us it also functions as a go-to-sleep indicator.
When his son is a little older, maybe [JohnathonT] could build him a clock that associates colors with activities.
Like many of us, [Michael Portera] was an avid trading card collector as a kid. Also like many of us, life got in the way, and the collections sat ignored in boxes until our mothers threatened to get rid of them (or skipped the threat altogether and sold them at a garage sale for next to nothing).
[Michael] was recently reunited with his collection of Magic cards, which vary in value as much as baseball or any other kind of collectible card. Now that his Friday nights are otherwise occupied, he decided to sell them off. But first, he had to know how much they’re worth.
Manually sorting and pricing hundreds of cards would take longer than he’d like, so he built a sorter to automate the process. It takes a stack of MtG cards and uses servos and little tires to move them, one by one, into position. A short Python script runs the servos, tells a Raspi 3 camera take a picture of each one, and uploads it to Amazon AWS. Once the pictures are there, [Michael] uses a second script to grab the card title text from the picture and fetch the value through TCGPlayer’s pricing API.
This machine probably isn’t for purists or people with a bunch of originals and re-issues of the same card. We probably should have mentioned that he took out all the Black Lotuses and other obviously valuable cards first. Someone still has to assess the condition of each card, but at two seconds per card, it’s quite the time
twister saver. Time Walk past the break to see it in action.
Tired of using dice or scratch paper for your life counter? Summon some Nixie tubes and make a cooler one.
Continue reading “Automatic MtG Card Sorter Separates Rags from Riches”
What if you didn’t have to risk your life to disconnect the power during a catastrophic storm? That’s a question many people in Houston were asking themselves as they watched water from Hurricane Harvey and other storms surge through the streets, swell in the gutters, and flood their homes.
Among these Houstonians were engineering students [Jon] and [Cyrus Jyan]. They watched as homeowners fought to safely disconnect their homes from the power grid and said, it shouldn’t have to be this way. They designed the Flood Fault Circuit Interrupter to monitor target areas and disconnect the power automatically when a credible threat is detected.
The FFCI is built on top of existing protection schemes like GFCIs and Arc Fault Circuit Interrupters. It isn’t meant to replace them, but instead tie them together and turn them off based on input from float switches.
As floodwaters rise, an EEPROM does a lookup and compare to decide if the threat is enough to shut it down. If so, an alarm signal to a shunt trip breaker can either throw the whole system to OFF, or else switch over to an alternate power source. The system is built around a standard security panel and keypad interface that supports 12 V alarm output. We particularly like the float switch enclosures that allow water to enter while keeping out debris.
We were wondering what [Circuitbeard] has been up to lately. Turns out he’s been building a mini pinball cabinet to add to his arcade of self-built games.
[Circuitbeard] was forced to break out of his Raspi comfort zone this time. We’re glad he did because this is one impressive build. Finding the pinball emulation community lacking for Linux, he turned to the LattePanda, a tiny Windows 10 SBC with a built-in Arduino Leonardo. This was really the perfect board because he needed to support multiple displays with a minimum of fuss. That Leonardo comes in handy for converting button presses to key presses inside the Visual Pinball emulator.
The 3mm laser-cut plywood cabinet was designed entirely in Inkscape and sized around the two screens: a genuine 7″ LattePanda display for the playfield, and a 5″ HDMI for the back glass. The main box holds the Lattepanda, two Pimoroni mini speakers, and a fan to keep the board cool.
There’s a lot to like about this little cabinet thanks to [Circuitbeard]’s fantastic attention to detail, which you can see for yourself in the slew of pictures. Look closer at the coin drop—it’s really an illuminated button with a custom graphic. If you want to have a go at emulating this emulator, all the code is up on GitHub. Tilt past the break to watch some modern pinball wizardry in action, and then check out his mini Outrun machine.
If pinball emulators don’t score any points with you, here’s one that’s all wood and rubber bands.
Continue reading “Tiny Pinball Emulator is Hugely Impressive”
Are you putting ESP8266s in all your projects these days, whether they need one or not? We don’t blame you. These boards are cheap, tiny, oh and they have WiFi.
If you want to spend less time writing code and more time blinking RGB LEDs over Wi-Fi, then check out this ESP cookbook over on IO. [Turo Heikkinen] and team are writing a soup-to-nuts guide to these darlings of IoT. The cookbook leads off with pinouts and networking (of course) before moving into more intricate recipes involving popular sensors and displays.
This cookbook is funny, it’s helpful, and it’s really well-organized. We love that they used the details section to create a linked table of contents. The links all drive to a specific Instructions page where each group of code snippets and explanations can be found. It’s still a work in progress, so you might want to follow it for updates. We have a feeling they’re going to expand the dessert section next.
Love the ESP8266, but hate programming them in that wonky form factor? Here’s a handy programming jig you can build.
As you may have heard, the U.S. is in the grips of an opioid epidemic. Overdose deaths from heroin, oxycontin, and fentanyl have quadrupled since 1999. The key to detecting opioid overdose before it’s too late is in monitoring respiration. Opioids in particular cause depressed respiration, which is slow and ineffective breathing that’s inadequate for the gas exchange that keeps us alive. Depressed respiration becomes fatal unless the patient is given nalaxone, an antidote that works by blocking opioid receptors in the brain.
[Curt White] is developing an intra-oral device to prevent opioid overdose via early detection. It tracks a patient’s inhale/exhale rate and sends the data over Bluetooth to an open-source website. The tiny device uses an air pressure sensor, a humidity sensor, and a thermopile thermometer to accurately track a person’s full respiration waveform whether their mouth is open or closed. The brain is one of [Curt]’s hacked $35 activity trackers that we told you about a few days ago.
All of the hardware including the battery is embedded in a custom retainer made from thermoplastic. [Curt] used Tyvek and surgical tape to isolate the air pressure sensor. Both are waterproof and breathable, which means that air can get to the sensor, but not saliva. Hold your breath and click past the break to watch [Curt] demonstrate this amazing tool on himself.
Continue reading “Intra-Oral Device Detects Opioid Overdose”
Who has the fastest thumbs at Maker Faire UK? That’s the question [wellsey1972] sought to answer when he created this simple game using little more than two NeoPixel rings, two chunky arcade buttons, and a Trinket.
The idea is simple: each button push lights up one NeoPixel. The first one to fill up their ring is the winner, and is treated to a ring of flashing green lights. The loser, of course, gets flashing red. Both controllers are hard-wired to a box containing a Trinket, a custom PCB with pull-up resistors, and two sets of solderless terminals. [wellsey1972] smartly re-purposed a cat 5 cable for sleeker wiring.
He has a few ideas for the future, like going wireless, printing smaller controllers, and making winning more difficult via potentiometer. We humbly suggest that the loser be taunted by the cry of a sad tuba. Mash past the break for a brief demo.
If you like lights and simplicity but find this build less than challenging, try building a minimal secret maze game.
Continue reading “NeoPixel Game Rewards Button Mashing”