North Coast News https://northcoastsynthesis.com/news/ News and updates from North Coast Synthesis Ltd. en-us mskala@northcoastsynthesis.com (Matthew Skala) Wed, 28 Feb 2024 00:00:00 -0500 60 Outrunning the Noise Bear https://northcoastsynthesis.com/news/outrunning-the-noise-bear/?pk_campaign=rss Somewhere in the far North, in fact on the North Coast, the Tenderfoot module was new in town, and a grizzled old A-110-1 was showing him around. As they passed the Rack Brute Saloon, the old timer warned the newcomer about the Noise Bear. READ MORE

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outrunning-the-noise-bear@northcoastsynthesis.com/news Wed, 28 Feb 2024 00:00:00 -0500
Smith chart by projection https://northcoastsynthesis.com/news/smith-chart-by-projection/?pk_campaign=rss I want to use a Smith chart in an upcoming article here, but it occurs to me that most readers probably aren't familiar with them. Smith charts don't come up very often in audio, being mostly an RF thing. So as with complex numbers, I'm posting this separate article to introduce Smith charts, and then I can refer back to it when I use them later. READ MORE

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smith-chart-by-projection@northcoastsynthesis.com/news Fri, 16 Feb 2024 00:00:00 -0500
Why you need complex numbers https://northcoastsynthesis.com/news/why-you-need-complex-numbers/?pk_campaign=rss I plan to use complex numbers in an upcoming article, and I thought I'd better post some introductory material about them first. Of course, there are many introductions to complex numbers on the Net already and there may not be much new I can say; so rather than focusing on what complex numbers are, which you can find almost anywhere, I thought I'd come in from a different direction and talk about why you should care about them. READ MORE

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why-you-need-complex-numbers@northcoastsynthesis.com/news Mon, 12 Feb 2024 00:00:00 -0500
Build your own commercial module part 4: manufacturing https://northcoastsynthesis.com/news/byocm-4-manufacturing/?pk_campaign=rss I've written a lot about module design because from my point of view, that's the fun part. It's tempting to sit down with pen and paper, draw some schematics and sketches, maybe even build out some of those circuits on the breadboard, and then think you're close to having completed your very own commercial modules. If you have a workable design, then in one sense, you are close to being "finished." But in another important sense, it means you're just ready to start doing the real work: because with a finished design, then you still face the question of how to produce modules to that design in commercial quantities, and get people to pay you for those modules. READ MORE

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byocm-4-manufacturing@northcoastsynthesis.com/news Mon, 29 Jan 2024 00:00:00 -0500
Build your own commercial module part 3: firmware and documentation https://northcoastsynthesis.com/news/byocm-3-firmware-and-documentation/?pk_campaign=rss There's a lot more to a commercial module design than just the physical module that you can touch. If, as is the case with many new designs, the module includes any kind of computer, microcontroller, or other programmable device, then you need to have the program for that device. Usually, the program will be called firmware - software that becomes part of the hardware. Even a module without a conventionally programmable CPU in it may need something like an FPGA bit stream. Even a basically analog design may have some programmable aspect. For instance, my Leapfrog VCF design was originally intended to be programmable for different filter curves by substituting different resistor values on one of the three circuit boards. Creating this intangible programming information is part of creating the module, but also separable from the main task of circuit design. READ MORE

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byocm-3-firmware-and-documentation@northcoastsynthesis.com/news Thu, 28 Dec 2023 00:00:00 -0500
Build your own commercial module part 2: design and development https://northcoastsynthesis.com/news/byocm-2-design-and-development/?pk_campaign=rss Once you have a clear idea of what commercial module you're trying to build, the design concept as described in the first part of this article series, you face the task of turning that concept into a design as such: an electronic circuit with all the details specified so that it can be manufactured on a commercial basis, with all the necessary side items like the layout of a printed circuit board, information on where to get all the parts, physical shapes of things like panels, and so on. This kind of design work is critically important to the success of the product, but it also demands a lot of technological skill, so it's often the stage where it makes sense to bring in a consultant to help. READ MORE

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byocm-2-design-and-development@northcoastsynthesis.com/news Thu, 30 Nov 2023 00:00:00 -0500
Build your own commercial module part 1: the design concept https://northcoastsynthesis.com/news/byocm-1-design-concept/?pk_campaign=rss There's a pretty natural progression in the modular synthesizer hobby (the addiction, if you prefer). People start out buying commercial modules; maybe they go through a few rounds of selling off modules that they find just aren't quite right; eventually, they come to the idea of wanting to build their own modules with exactly the features they want; and although doing DIY just for oneself is a viable hobby too, many hobbyists want to take the next step, of going pro and building and selling their own commercial modules. READ MORE

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byocm-1-design-concept@northcoastsynthesis.com/news Thu, 23 Nov 2023 00:00:00 -0500
Delta-sigma DACs and CODECs https://northcoastsynthesis.com/news/delta-sigma-dacs-and-codecs/?pk_campaign=rss In the first part of this three-part series on DACs and bit counts, I described what it means to have a certain number of bits in terms of voltage accuracy and signal to noise ratio. Then in the second part I described some ways that DACs are built, basically out of resistors and switches. There are a lot of details along the way, but the big picture in both articles is that you can't really have a DAC with more than about 16 bits. Past that point, the cost of actually building it increases rapidly and the possible benefit drops away. For control voltage generation, the level of absolute voltage accuracy is often closer to 12 bits. READ MORE

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delta-sigma-dacs-and-codecs@northcoastsynthesis.com/news Thu, 16 Nov 2023 00:00:00 -0500
DACs, resistors, and switches https://northcoastsynthesis.com/news/dacs-resistors-and-switches/?pk_campaign=rss In the previous entry, on DACs and bit count, I talked about the relation between how many bits a DAC has and how accurate its voltage can possibly be, both at the limits of modern technology (liquid-helium-cooled superconducting Josephson references) and in the abstract for theoretically perfect DACs. In this entry, let's look at the details of some more realistic DAC designs that would actually be used in Eurorack modules. READ MORE

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dacs-resistors-and-switches@northcoastsynthesis.com/news Wed, 15 Nov 2023 00:00:00 -0500
DACs and bit count https://northcoastsynthesis.com/news/dacs-and-bit-count/?pk_campaign=rss The connections between modules in a modular synthesizer are made with analog voltages, both for audio and control signals. Many popular modules use digital processing internally, but they need to convert to and from analog voltages to communicate with other modules. Even a non-modular synth that might use entirely digital signalling internally, has to convert those signals to analog at some point in order to drive a speaker. So digital to analog converters (DACs), and the corresponding analog to digital converters (ADCs), are important in synthesizers and people say and think many things about them, not all of which are correct. READ MORE

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dacs-and-bit-count@northcoastsynthesis.com/news Tue, 14 Nov 2023 00:00:00 -0500
Inrush current and measuring it https://northcoastsynthesis.com/news/inrush-current-and-measuring-it/?pk_campaign=rss Sometimes I get questions about what the questioners call the "inrush current" of North Coast Synthesis modules. I think people who ask about this are usually hoping I can give them a single number in answer - "The inrush current of X module is Y number of milliamps" - and then they'll be able to compare it against some specification of a power supply and know whether it'll be safe to connect that module to that power supply, or compare it against other modules to decide which one is better and which one to buy. Maybe they think it would make sense to compile a spreadsheet or start a "List of module inrush currents 2023" forum thread. Unfortunately, inrush current isn't as simple as that. No simple answers are possible, and attempting to reduce the matter to a bare number per module is counterproductive. Let's look at the issues in more detail. READ MORE

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inrush-current-and-measuring-it@northcoastsynthesis.com/news Wed, 18 Oct 2023 00:00:00 -0400
Dispensations https://northcoastsynthesis.com/news/dispensations/?pk_campaign=rss The MSK 015 Quad VCA is an important milestone for North Coast Synthesis because it's the last missing piece for building a complete synthesizer: with this module and the rest of the North Coast line, it's possible to make music without needing any modules from other manufacturers. Partly to celebrate the release, and partly because I needed some better audio demos to post in the storefront, I spent most of June writing and recording music with my own modules. READ MORE

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dispensations@northcoastsynthesis.com/news Thu, 06 Jul 2023 00:00:00 -0400
What\'s your soldering success rate? https://northcoastsynthesis.com/news/whats-your-soldering-success-rate/?pk_campaign=rss Soldering mistakes are by far the most common thing to go wrong in do-it-yourself electronics. It seems like I spend most of my tech-support time gently urging customers with failed kit builds to re-check their soldering, and when I have problems in my own builds, those also usually turn out to be soldering-related. Everybody, myself included, tends to think of failed components as a likely cause of problems, and we spend a lot of time doing differential diagnosis to figure out which components might have failed; but then once the problem is narrowed down to a single component, the actual issue usually turns out to be a bad solder joint on that component, not the component itself. The real point of the debugging is often just to figure out which solder joints to look at more closely. READ MORE

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whats-your-soldering-success-rate@northcoastsynthesis.com/news Sat, 13 May 2023 00:00:00 -0400
MSK 015 release https://northcoastsynthesis.com/news/msk-015-release/?pk_campaign=rss FOR IMMEDIATE RELEASE READ MORE

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msk-015-release@northcoastsynthesis.com/news Tue, 02 May 2023 00:00:00 -0400
More about DC coupling https://northcoastsynthesis.com/news/more-about-dc-coupling/?pk_campaign=rss Operational amplifiers ("op amps") are popular analog building blocks, especially in synthesizer electronics, because it's easy to analyse what they do to voltages. The first rule of op amp analysis is that (in negative feedback configurations, and when this is possible) the amplifier moves its output voltage in order to make its input voltages equal. That is useful in building circuits to manipulate DC voltages. READ MORE

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more-about-dc-coupling@northcoastsynthesis.com/news Sun, 02 Apr 2023 00:00:00 -0400