Before I dive in to the nitty-gritty of the “how” and “why” of the Gothik Ring (GR) layout method, let me provide a little background and history on it’s genesis and development:
Years ago, when I first started to develop an interest in electronics, I naturally gravitated towards “Point-to-Point” (PtP) construction methods. The reason being, that it simply suited my personal sense of aesthetics. There have been many, many articles written on the superiority (or lack thereof) and advantages/disadvantages of each construction method, so I’m not going to take up that discussion at all. I will simply leave it at this: Although the GR method of PtP construction is my preference, I make no claim that it is in any way superior to any other way of building electronics. Furthermore, my personal position in the debate in general is that any method of construction can be as good as any other, if it is executed well.
Back to my interest in PtP and how it applies to a layout strategy that does not rely on a specific construction type… Naturally, I did a great deal of research on what makes “good” PtP vs. “bad”, and more importantly, what constitutes “really, REALLY good”. I stumbled upon a site that really got me thinking. In particular, the statement that “Really, really good PTP construction will have the components arranged in almost a star pattern, all of them leading radially away from the socket.”
At the time, I was involved with a group of fellow guitar amp enthusiasts, and collectively, we called ourselves the “Gothik Amplifiers Consortium”. The first two members were an incredibly inventive and gifted designer named Iain Williams (hope you stop by to say hello Iain!) and yours truly. The name “Gothik” came from Iain’s personal “brand” that he produced amplifiers under. We have since become effectively defunct, although we can all contact each other easily enough.
At any rate, Iain and I started passing some ideas back and forth on how to achieve this layout goal. The result was the Gothik Ring.
In my next post, I’ll explain the technical rationale behind it, and provide examples of how it can be used in theory and in practice.