Arduino Hacks

3063 Articles

Retro Games On ArduinoCade Just Shouldn’t Be Possible

September 17, 2015 by 26 Comments

Making retro video games on today’s micro controllers brings many challenges, especially when using only the micro controller itself to handle the entire experience. Complex graphics, sound, game logic and input is taxing enough on the small chips, toss in NTSC color graphics and you have a whole different bear on your hands.

[rossum] set out making the Arduinocade retro game system using an overclocked Arduino Uno, and not much more. Supporting 4 voice sound and IR game controllers, the system also boasts 27 simultaneous colors all in software. These colors and the resolution feel like they’re impossible without a graphics chip to offload some of the work. While doing all of this the ATmega328p is also playing some faithful reproductions of classic arcade games.

The uses a couple of interesting tricks. Color is generated with NTSC color artifacts, where the screen is really black and white, but thanks to a delay or two in the signal generation the bits are out of phase from the reference “color burst” signal and appear on-screen as unique colors. This approach was used in the 8 bit Apple II personal computers to generate its colors, and also on the early IBM PC’s with CGA cards to drastically increase color depth. In this case, the chip is overclocked with a 28.6363 MHz crystal (a multiple of NTSC timing) and the SPI hardware leveraged to shift out all the necessary pixels. Check out how great it looks and sounds after the break.

It’s good to see an old trick on a new project and we are off to play some games!

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Automated Bubble Gun Just Because

September 16, 2015 by 12 Comments

After a recent trip to Disney Land, [Thomas] came home with an electric bubble gun. [Thomas] is a full-grown man. But since when did that stop us having fun blowing bubbles?? Obviously, a project was to be had using this fun little toy. So he decided to automate it.

So after taking some measurements with his trusty calipers, [Thomas] got on the computer and started designing an enclosure for the bubble gun using SolidWorks. It’s pretty simple. He designed it to hold the bubble gun in place, and allow him to attach a small RC servo motor in order to trigger the switch. Hooking that up to an Arduino Micro and he was now able to trigger it remotely.

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Debug An IKEA Lamp Hack, Win A Lamp Controller

September 14, 2015 by 61 Comments

[Limpkin], aka Hackaday alum [Mathieu Stephan], is at it again, converting an IKEA lamp into a visual wake-up light. He wants to build an alarm that can be remotely triggered, He’s basing this project around a combination of an ESP8266 that handles the communication and timing, and a pile of 10-watt RGB LEDs. However, he is having a problem: every time he initializes the PWM (pulse width modulation) signalling that will control the level of the LEDs, his ESP8266 dev board reboots. So, he’s offering an interesting bounty for the person who finds the issue: figure it out and he will send you the lamp. Well, the PCB and components, anyway: you’ll have to add your own IKEA lamp. It’s an interesting approach to debugging a hardware problem, so feel free to take a look. The full hardware and software details are on his GitHub repository.

Arduino Masters Ham Radio Digital Mode

September 13, 2015 by 26 Comments

[jmilldrum] really gets a lot of use out of his Si5351A breakout board. He’s a ham [NT7S], and the Si5351A can generate multiple square waves ranging from 8 kHz to 160 MHz, so it only stands to reason that it is going to be a useful tool for any RF hacker. His most recent exploit is to use the I2C-controllable chip to implement a Fast Simple QSO (FSQ) beacon with an Arduino.

FSQ is a relatively new digital mode that uses a form of low rate FSK to send text and images in a way that is robust under difficult RF propagation. There are 32 different tones used for symbols so common characters only require a single tone. No character takes more than two tones.

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Brewing Tea Too Stressful? 3D Print A Tea Steeper

September 13, 2015 by 29 Comments

When you want to relax with a nice hot cup of tea, the last thing you need is the stress of dunking the teabag in and out of the hot water, right? [Andylear] got tired of it and he has a 3D printer, so he set about solving the problem.

The solution uses a standard mini servo and the VarSpeedServo Arduino library. This library uses interrupts to control speed and position of up to 8 servos. All servos can operate at once and you can control both the position of the servo and the speed of the motion required to get it there. Commands can be asynchronous or you can wait for them to complete and you can even send sequences of commands to each servo.

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A Gramophone For Your Pebble Smart Watch

September 13, 2015 by 2 Comments

At a recent Pebble-themed hackathon, one of the teams created a pretty cool device called the TimeDock Sleepeasy.

It’s a gramophone inspired docking station for your Pebble Time smart watch. And it’s not just a 3D printed mount — nope, there’s an Arduino inside! The team’s plan from the beginning was to make an interactive docking station for the Pebble that would allow it to talk to you without actually pressing any buttons on the watch.

It was rather tricky getting the Arduino Uno talking to the Pebble, but once they figured it out they had a lot of options for interaction — they ended up using an ultrasound sensor so you can just wave your hand at the TimeDock and it would tell you the time.

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LED Ring Around The ESP8266

September 12, 2015 by 10 Comments

The world needs more blinky lights, and [Bertus Kruger] has created a neat way to make lights blink wirelessly. He has a footprint in the middle of the board for soldering the castellated ESP8266 module, and an LED ring around it to create the WiFi Pixel. It’s an LED ring that can be controlled over a WiFi connection. His design is based on a combination of the ubiquitous ESP8266 WiFi chip and a NeoPixel ring from AdaFruit, so there are already great examples of how to code and control the hardware. The project is still in progress, but he has released all of the details, including the Gerber files for the board and the Arduino code that the ESP8266 is running.

It’s a great start: add in battery support and you could have an awesome way to have portable LED blinky light rings. For those who want to try it out without building your own circuit boards, [Bertus] says that it could be built with an ESP8266 dev board and an Adafruit NeoPixel ring. Currently, he is running the device from USB, but there is no reason why it couldn’t be powered from a battery for some portable USB blinkiness.

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