[Davearneson] built a modern version of a classic synthesizer with his DIY Fairlight CMI. If there were a hall of fame for electronic instruments, the Fairlight CMI would be on it. An early sampling synth with a built-in sequencer, the Fairlight was a game changer. Everyone from A-ha to Hans Zimmer has used one. The striking thing about the Fairlight was the user interface. It used a light pen to select entries from text menus and to interact with the audio waveform.
The original Fairlight units sold for £18,000 and up, and this was in 1979. Surviving units are well outside the price range of the average musician. There is an alternative though – [Peter Vogel] has released an iOS app which emulates the Fairlight.
[Davearneson] had an old iPad 2 lying around. Too slow to run many of the latest apps, but just fast enough to run the Fairlight app. An iPad doesn’t exactly look like a classic instrument though. So he broke out the tools and created a case that looked the part.
The front of the case is made of framing mat board. The rest of the shell is wood. [Davearneson] used Plasti-Dip spray to replicate the texture of 1970’s plastics. The audio interface is a Griffon unit, which provides audio and MIDI connections. [Davearneson] extended the connections from the Griffon to the rear of the case, making for a clean interface.
The iPad doesn’t exactly support a light pen, so a rubber tipped stylus on a coil cord takes it place. The result is a device that looks and works like a Fairlight – but doesn’t need a steady diet of 8″ floppy discs to operate.
Interested in classic digital synthesizers that are a bit more budget friendly? Check out Al Williams’ article on the SID chip, or this 3D printed synth based upon the 4046 PLL chip.
Before there were samplers, romplers, Skrillex, FM synths, and all the other sounds that don’t fit into the trailer for the new Blade Runner movie, electronic music was simple. Voltage controlled oscillators, voltage controlled filters, and CV keyboards ruled the roost. We’ve gone over a lot of voltage controlled synths, but [Tommy] took it to the next level. He designed a small, minimum viable synth based around the VCO in an old 4046 PLL chip
For anyone who remembers [Elliot]’s Logic Noise series here on Hackaday, this type of circuit should be very familiar. The only thing in this synth is a few buttons, a variable resistor for each button, and the very popular VCO for an analog square wave synth.
The circuit for this synth is built in two halves. The biggest, and what probably took the most time designing, is the key bed. This is a one-octave keyboard that’s completely 3D printed. We’ve seen something like this before in one of the projects from the SupplyFrame Design Lab residents, though while that keyboard worked it was necessary for [Tim], the creator of that project, to find a company that could make custom key beds for him.
The rest of the circuit is just a piece of perf board and the 4046. This project is all wrapped up in a beautiful all-wood enclosure with 3D printed hinges, knobs, and a speaker grille. The sound is phenomenal, and exactly what you want from a tiny monophonic square wave synth. You can check out a video of that below.
Continue reading “3D Printing A Synthesizer”
Craft stores are often the source of odd inspiration. In the stained glass section, we’ve seen the copper foil, and even used it to prototype some RF circuits on the tops of shoeboxes. However, we could never get a good method for connecting ICs to the relatively thick foil. [Bryan Cera] did it though. His paperSynth uses some paper and cardboard for a substrate, copper foil, and an ATtiny CPU to make music. You can see the device in operation in the video, below.
The copper foil is sticky and it isn’t conductive on the back, so anywhere the foil is supposed to touch, you need a blob of solder. We wouldn’t trust the insulation by itself to cross wires, but with a bit of insulating material between–a piece of paper or electrical tape, for example–you could probably cross with impunity. For an RF circuit, you might even make low-value capacitors like that.
Continue reading “Copper Foil Makes Music–With a Little Help”
If you are a certain age, MOS6581 either means nothing to you, or it is a track from Carbon Based Lifeforms. However, if you were a Commodore computer fan 35 years ago, it was a MOS Technologies SID (Sound Interface Device). Think of it as a sound “card” for the computers of the day. Some would say that the chip — the power behind the Commodore 64’s sound system — was the sound card of its day. Compared to its contemporaries it had more in common with high-end electronic keyboards.
The Conversation has a great write up about how the chip was different, how it came to be, the bug in the silicon that allowed it to generate an extra voice, and how it spawned the chiptune genre of music. The post might not be as technical as we’d do here at Hackaday, but it does have oscilloscope videos (see below) and a good discussion of what it took to create music on the device.
Continue reading “The 35 Year Music Synthesizer that Spawned Chiptune”
Over on YouTube, [GumpherDM3] built one of the greatest musical projects we’ve seen in a long time. It’s an analog synthesizer that is one of a kind. It’s going to stay one of a kind, too: no one would ever want to copy this mess of wires and perfboard that was successfully turned into a complete musical instrument.
The design of this synth is what you would expect from something that draws its inspiration from semimodular synths such as the Minimoog and Korg MS20. There are four VCOs on this synth, two audio and two used for the LFOs. A four-pole low pass filter, VCA, and two envelope generators round out the purely analog portion of the build. There’s an arpeggiator in there too, which makes for a really great demo video (below).
Inside, this is a true analog synth with the VCOs, filter, and VCA built around the LM13700 transconductance amplifier. The build log shows these chips spread out around half a dozen breadboards before being plugged into sockets soldered to handwired perf board. This synth is a one of a kind instrument – no one would want to build this thing twice.
Additional features include an Arduino with a MIDI in port sending out CV signals to the analog part of the synth. This thing has everything you would expect from a modern take on an analog synthesizer, and it sounds good, too.
Continue reading “A Mess Of Wires Turned Into An Analog Synth”
It sounds a little like a Theremin and looks a lot like the contents of your scrap bin. But it’s a unique musical instrument called a modulin, and after a few teasers we finally have some details on how it was built.
Making music with marbles is how we first heard of [Martin] of the Swedish music group Wintergatan. He seems as passionate about making his own instruments as he is about the music itself, and we like that. The last time we saw one of his builds was this concert-ready music box, which he accompanied with an instrument he called a modulin. That video gave only a tantalizing look at this hacked together instrument, but the video below details it.
“Modulin” comes from the modular synthesizer units that create the waveforms and pressure-sensitive ribbon controller on the violin-like neck. The instrument has 10 Doepfer synthesizer modules mounted to a hacked-together frame of wood and connected by a forest of patch cables. [Martin]’s tour of the instrument is a good primer on how synthesizers synthesize – VCOs, VCAs, envelope generators, filters – it’s all there. We’re treated to a sample of the sounds a synthesizer can make, plus majestic and appropriately sci-fi sounding versions of Also sprach Zarathustra and the theme from Jurassic Park. And be sure to check out the other video for another possibly familiar tune.
This might be old hat to musicians, but for those of us to whom music is a mystery, such builds hold extra sway. Not only is [Martin] making music, he’s making the means to make music. We’re looking forward to hearing what’s next.
Continue reading “It’s a Synthesizer. It’s a Violin. It’s a Modulin”
Over the last few decades, audio synthesizers have been less and less real hardware and more and more emulations in software. Now that we have tiny powerful computers that merely sip down the watts, what’s the obvious conclusion? A six-voice polyphonic synthesizer built around the Raspberry Pi.
The exquisitely named ‘S³-6R’ synthesizer is a six-voice phase modulation synthesizer that outputs very high resolution (24-bit and 96 kHz) audio. It’s the product of R-MONO Lab, who have displayed interesting musical devices such as a recorder-based pipe organ in the past. This build is a bit more complex, offering up some amazing sounds, all generated on a Raspberry Pi 3.
While talk of oscillators and filters is great, what’s really interesting here is the keyboard itself. The S³-6R is using the Roland K-25m, a tiny MIDI keyboard meant to serve as a ‘dock’ of sorts for Roland’s recent re-releases of the classic Jupiter and Juno synths. Building a MIDI keyboard is not easy by any stretch of the imagination, and using this little keyboard dock is a cheap way to pipe MIDI notes into any project without a lot of fuss.
Below, you can check out the audio demos of the S³-6R. It’s a real synth and sounds great. We can only hope the software will be uploaded somewhere eventually.
Continue reading “A Six-Voice Synth Built On The Raspberry Pi”