Gerrit and I were scoping out the Intel booth at Bay Area Maker Faire and we ran into Nolan Moore who was showing of his work to mash together a Nintendo Power Glove with an AR Drone quadcopter. Not only did it work, but the booth had a netted cage which Nolan had all to himself to show off his work. Check the video clip below for that.
The control scheme is pretty sweet, hold your hand flat (palm toward the ground) to hover, make a fist and tilt it in any direction to affect pitch and roll, point a finger up or down to affect altitude, and point straight and twist your hand for yaw control. We were talking with Nolan about these controls it sounded sketchy, but the demo proves it’s quite responsive.
The guts of the Power Glove have been completely removed (that’s a fun project log to browse through too!) and two new boards designed and fabbed to replace them. He started off in Eagle but ended up switching to KiCAD before sending the designs out for fabrication. I really enjoy the footprints he made to use the stock buttons from the wrist portion of the glove.
A Teensy LC pulls everything together, reading from an IMU on the board installed over the back of the hand, as well as from the flex sensors to measure what your fingers are up to. It parses these gestures and passes appropriate commands to an ESP8266 module. The AR Drone 2.0 is WiFi controlled, letting the ESP8266 act as the controller.
After scoring a non-functioning Gameboy in mint condition for $10, [Chad] decided it was time for a fun electronics project, so he ordered an LCD and bought a Pi Zero.
He started with a 3.5″ LCD off eBay for about $25, and got it running with the Pi Zero. It’s only 320×240 resolution, but hey, we’re recreating a Gameboy — not a smartphone. The next step was rather finicky: cutting up the case to fit the new components in.
Using a collection of files he whittled down the screen opening in the case to make room for the LCD, a few hours later and it looked surprisingly good.
From there he started laying out the components inside of the case, trying to figure out the best layout for everything to fit nicely. To power the unit he’s using a lithium ion battery from a Samsung Note which should give him some serious play-time. It fits right in where the game card is suppose to go.
To add some extra control functionality he’s added the game-pad buttons from a SNES onto the back where the battery door is, he’s also got a USB port on the side, a MicroSD card slot, and even a new audio pre-amp with potentiometer for controlling the speaker volume.
In case you can’t find a mint condition Gameboy case like [Chad] did, you could just print one from scratch
Continue reading “Gameboy Case Lives on With a Pi Zero”
[buildxyz] had no opposition to his kids playing video games, but wanted something that offered a bit more parental control, a larger game selection, and was maybe a little more contained than a modern game console.
So, in his multi-part build log, he goes through all the steps of making a Raspberry Pi into a kid friendly wall-mounted game console. The frame is made from Baltic Birch plywood, and the edges look cool when stained. The display is an old HP monitor, and the speakers are simple beige bricks from the thrift store. The controllers hook into a USB hub on the front. It’s not a complicated build, but it’s very well done.
The coolest feature, from the parent’s point of view, is the combination lock on the front. A rotary encoder surrounded by NeoPixels provides the input and feedback. Depending on the code [buildxyz] inputs his children can receive different periods of dopamine hits, and if he enters a special code for occasions like birthdays, unlimited play time becomes available.
We hope he’s prepared to have the only four year olds who can crack safes on the block. The build looks awesome, and there’s not really a commercial product out there to match it. Watch the video.
Continue reading “Why Buy Your Children a Game Console When You Can Build Them One?”
This is a hacking and gaming tour de force! [Seth Bling] executed a code injection hack in Super Mario World (SMW) that not only glitches the game, but re-programs it to play a stripped-down version of “Flappy Bird”. And he did this not with a set of JTAG probes, but by using the game’s own controller.
There are apparently a bunch of people working on hacking Super Mario World from within the game, and a number of these hacks use modified controllers to carry out the sequence of codes. The craziest thing about our hack here is that [Seth] did this entirely by hand. The complete notes are available here, but we’ll summarize the procedure for you. Or you can go watch the video below. It’s really incredible.
Continue reading “Hacking Flappy Bird By Playing Mario”
The GameCube controller is a favorite among the console enthusiasts new and old, and with Nintendo’s recent release of the Smash Bros. edition of this controller, this is a controller that has been in production for a very, very long time. [Garrett] likes using the GameCube controller on his PC, but this requires either a bulky USB adapter, or an off-brand GameCube ‘style’ controller that leaves something to be desired. Instead of compromising, [Garrett] turned his GameCube controller into a native USB device with a custom PCB and a bit of programming.
First, the hardware. [Garrett] turned to the ATtiny84. This chip is the big brother of the ubiquitous 8-pin ATtiny85. The design of the circuit board is just under a square inch and includes connections for the USB differential pairs, 5V, signal, and ground coming from the controller board.
The software stack includes the micronucleus bootloader for USB firmware updates and V-USB to handle the USB protocol. There are even a few additions inspired by [Garrett]’s earlier shinewave controller mod. This controller mod turns the GameCube controller into a glowing hot mess certain to distract your competitors while playing Super Smash Bros. It’s a great mod, and since [Garrett] kept the board easily solderable, it’s something that can be easily retrofitted into any GameCube controller.
[Russell Kramer] made our day today. We’re tremendous fans of minimalism in electronics design, dirty noise hacks, and that old NES light gun. He’s posted up a project that combines all three to make a light-gun controlled, VGA video display that makes bleepy-bloopy noises to boot. Check out the video below!
To appreciate this hack, you really need to read through the project logs in detail. Start with the VGA signal creation, for instance. The easiest way to go these days is to throw a microcontroller at the problem. But because he’s done that to death, [Russell] takes a step back thirty years and generates the sync pulses periodically with a relaxation oscillator and a binary counter IC. The rest of the build follows this aesthetic choice: everything is op amps and CMOS logic. The rainbow effect, for instance, is created from the audio signal through a three-stage, 120-degree phase-shift oscillator sent to the R, G, and B channels. Kudos!
The high-level overview is that the light intensity and position hitting the gun’s sensor is converted into a voltage that drives an audio-frequency oscillator. This audio output is then piped back into the video generator. Watching the video, it’s obvious that pointing the gun at different parts of the screen changes the pitch, but playing a given pitch is nearly impossible on this thing with all the feedback going on. [Russell] added a bit of more control into the system — when the gun’s trigger is pulled, it registers full-brightness regardless of the video input — but even so, we’d be hard-pressed to play “Mary Had a Little Lamb”.
But that’s not the point. The point is awesome, light-gun-waving noisy madness set to a responsive colorful video background. And that’s been achieved in spades!
Continue reading “NES Light Gun Turned (Video) Synthesizer”
Most people use the Super Mario Maker to, well, create Super Mario game levels. [Robin T] decided to try something a little different: building a working calculator. Several hundred hours later, he created the Cluttered Chaos Calculator, which definitely lives up to the name. What this Super Mario level contains is a 3-bit digital computer which can add two numbers between 0 and 7, all built from the various parts that the game offers. To use it, the player enters two numbers by jumping up in a grid, then they sit back and enjoy the ride as Mario is carried through the process, until it finally spits out the answer in a segment display.
It’s not going to be winning any supercomputer prizes, as it takes about two minutes to add the two digits. But it is still an incredibly impressive build, and shows what a dedicated hacker can do with a few simple tools and a spiny shell or two.
Continue reading “Calculator Built In Super Mario Level. Mamma Mia!”