The heart of the Atari 2600 wasn’t the 6502 (or the 6507 for the pedants), it was the TIA chip. This is the chip responsible for drawing graphics on the display, racing the beam, and extremely limited support for sound generation. We haven’t seen many attempts of using the Atari 2600 for chiptunes, but that doesn’t mean it can’t be done. [John Sutley]’s Syndrum, a take on an Atari 2600 drum machine is nearly a work of art. It’s a custom cartridge for the wood-paneled Atari, and an impressive input device that turns this classic console into a beat machine
Did the Atari 2600 ever come with a drum machine cartridge? Maybe. Probably not. [John] originally built this project to experiment with the TIA chip, but found it was less tonal than a kazoo. That struck ‘Atari synthesizer’ off the list and replaced it with an ‘Atari drum machine’. There are two key parts of the build here, the first being a repurposed Asteroids cartridge that had the PROM replaced with a ZIF socket. This allows [John] to easily burn new code to an EEPROM, stuff it in the socket, and run it on the Atari. All the code was developed with batari Basic, a BASIC-inspired language that spits out .bin files for the Atari.
But running code on the Atari is just one half of this build. To do a drum machine, you somehow need to tell the Atari when to play each sound. Given the lack of expansion capabilities for the Atari, [John] turned to the controller port. The Syndrum uses Arduino Nano to bridge the DE9 controller connector to a MIDI port. Yes, it’s real MIDI, on a machine that could probably never do MIDI natively (although we’d love to see someone try).
Need a video of this mind-blowing hack in action? Here you go:
Continue reading “Racing the Beam and Dropping Some Beats”
In the 1980s, there was a synthesizer that you could play like a harmonica. This device was called the Millioniser 2000. It utilized HIP (Harmonica In Principle) technology. The Millioniser 2000 was a breath controller wrapped in chrome-colored plastic embossed with its logo in an odd, pre-vaporwave aesthetic, and connected to a gray and green sheet metal enclosure loaded up with DIN jacks. The Millioniser 2000 is absolutely the pinnacle of late 70s, early 80s design philosophy. If it were painted brown, the Universe would implode.
Because of the rarity and downright weirdness of a harmonica synthesizer from the 80s, prices on the used market are through the roof. Musicians are a weird bunch. However, this does give someone the opportunity to recreate this bizarre instrument, and that’s exactly what [John Lassen] did for his entry for the Hackaday Prize.
While this isn’t as complex as the Millioniser 2000, it does have the same basic user interface. There’s a pressure sensor that measures how much you’re blowing. There’s a slider to change which notes are played, and there are a few buttons to change parameters, like the MIDI channel, a midi controller, or a transpose function. The electronics, like so many of the entries to the Musical Instrument Challenge in the Hackaday Prize, are built around the Teensy and it’s incredible audio library.
In a field where components and systems are often known by sterile strings of characters that manufacturers assign or by cutesy names that are clearly products of the marketing department and their focus groups, having your name attached to an innovation is rare. Rarer still is the case where the mere mention of an otherwise obscure inventor’s name brings up a complete schematic in the listener’s mind.
Given how rarely such an honor is bestowed, we’d be forgiven to think that Sidney Darlington’s only contribution to electronics is the paired transistor he invented in the 1950s that bears his name to this day. His long career yielded so much more, from network synthesis theory to rocket guidance systems that would eventually take us to the Moon. The irony is that the Darlington pair that made his name known to generations of engineers and hobbyists was almost an afterthought, developed after a weekend of tinkering.
Continue reading “Sidney Darlington”
One of the more interesting hacks we’ve seen this year is [Carl]’s experimentations with making motors out of PCBs. Honestly, it’s surprising no one has done this before — a brushless motor is just some coils of wire and a few magnets; anyone can turn some coils into traces and make a 3D print that will hold a few magnets. This latest advancement is something else entirely. It’s a motor and an electronic speed controller all in one.
This project is a continuation of [Carl]’s PCB motor project, which started with him routing coils for a brushless motor as traces in a circuit board. Previously, we’ve seen [Carl]’s motor spinning on its own with the help of a small hobby ESC / motor controller meant for model planes and drones. This time, we’ve got something different. It’s an entire controller and motor, integrated into one single PCB.
This is a very, very small motor and ESC combo. The motor driver is a 3x3mm QFN package, and most of the other components are 0201. The main parts are a very tiny triple half-bridge motor driver and a PIC16F microcontroller. This PIC reads a hall sensor to detect the speed of the motor, and with just three pins — power, ground, and a PWM pin — this motor can spin at a set speed.
The future goals of this project are to make it work just like any other hobby ESC — just plug it into a servo controller and let ‘er rip. Since this motor with an integrated PCB requires only three connections, we’re looking at a great tool to add motion and rotation to any project. It’s fantastic, and we can’t wait to see something like this in robots, toys, and other home goods.
Continue reading “Putting a Motor Inside a Speed Controller”
Hacks are often born out of unfortunate circumstances. My unfortunate circumstance was a robbery– the back door of the remodel was kicked in, and a generator was carted off. Once the police report was filed and the door screwed shut, it was time to order cameras. Oh, and record the models and serial numbers of all my tools.
We’re going to use Power over Ethernet (POE) network cameras and a ZoneMinder install. ZoneMinder has a network trigger capability, and we’ll wire some magnetic switches to our network of PXE booting Pis, using those to inform the Zoneminder server of door opening events. Beyond that, many newer cameras support the Open Network Video Interface Forum (ONVIF) protocol and can do onboard motion detection. We’ll use the same script, running on the Pi, to forward those events as well.
Many of you have pointed out that Zoneminder isn’t the only option for open source camera management. MotionEyeOS, Pikrellcam, and Shinobi are all valid options. I’m most familiar with Zoneminder, even interviewing them on FLOSS Weekly, so that’s what I’m using. Perhaps at some point we can revisit this decision, and compare the existing video surveillance systems.
Continue reading “Hack My House: ZoneMinder’s Keeping an Eye on the Place”
We love seeing hardware and software from bygone eras getting a new lease on life through modern hacks, as longtime readers can surely attest to. Why leave this stuff to rot in a closet somewhere when it can be pushed into service today? Granted it might not always be the most efficient way to accomplish a task in the 21st century, but at least you’ll net some precious Internet Points for originality.
As a perfect example, take a look at this project which lets you read Slack messages through a Super Nintendo game. If your first thought was that such a thing would involve an unreasonable amount of effort and hoop jumping…then you would be correct. [Bertrand Fan] really had to think outside the box to make this one happen, and even admits a bit of imagination is required on the part of the end-user to use it. But it’s undeniably an original approach, so we hereby bestow the customary Internet Points unto him.
So how does this work, and where do the satellites come in? The key is in a fairly obscure Japanese SNES peripheral called the Satellaview, one of Nintendo’s early attempts at creating an online content delivery system for their consoles. Games designed with Satellaview support would be able to pull down new content from regular satellite broadcasts, not too bad for 1995. This means that if you have the hardware, and happen to own a satellite, you can push your own content into an unmodified SNES. No problem, right?
Alright, [Bertrand] didn’t really use a Satellaview modem plugged into an actual SNES. Plus we’re fairly sure he doesn’t have his own satellite network to broadcast Slack messages with anyway. But it turns out some SNES emulators have support for a virtual Satellaview modem, and there’s even software out there that will let you create new content “downloads” for the system’s included game: BS-X: The Story of The Town Whose Name Was Stolen. All he had to do was connect the dots.
[Bertrand] started by stripping the user interface out of SatellaWave, an open source tool for creating Satellaview content, so that it only need to be provided with an XML file of the content to be “downloaded” by the virtual satellite modem. Using the Slack API, he then came up with way to pull the last 10 messages from a server and push them into his modified version of SatellaWave. Each time somebody posts a new message his software kicks in to produce a new satellite download which automatically gets picked up by the SNES emulator and pops up in the game.
If this is still too practical for you, you can always go all in and run Slack on your Commodore 64.
Continue reading “Slack on the SNES via Satellite”
[Diode Gone Wild] and his cat decided to see how a $3 meter worked inside. The meter was marked as a DT-830B and he already had an older one of the same model, and he wondered how they could afford to sell it — including shipping — for $3. You can see a video of his testing, teardown, and reverse engineering below.
What was odd is that despite having the same model number, the size of the meter was a bit different. When he opened the case to install a battery, he noticed the board didn’t look like it had fuses or components appropriate for the rated voltages. He decided the missing parts might be under the board and tested the meter.
Continue reading “$3 Multimeter Teardown”