Having laid bare the inner workings of oscillators, contour generators and filters, Gordon Reid turns his attention to something which at first sight seems entirely self-evident. Can the humble voltage-controlled amplifier really hold any Synth Secrets?
With demand increase for original analogue synths, and the second-hand market drying up, more and more people are contemplating building their own. As Ken McBeth explains, all the necessary resources are available on-line...
Gordon Reid reveals some of the limitations of the 'classic' ADSR envelope with reference to a practical synthesis example, and explains some of the different types of envelopes found on 'classic' analogue synths, from AR envelopes right up to highly flexible digitally controlled EGs.
You press a key on your synth. It plays a note. That's it, right? Wrong. We explain the role of envelopes, gates, and triggers in this deceptively simple process.
As Parts 4 & 5 of Gordon Reid's series showed, even the simplest analogue filters mess with your sound in complicated ways. In this Part, he considers what happens when you make the design more sophisticated...
Gordon Reid continues his series on the theory of subtractive synthesis by delving deeper into the amazingly complex world of the analogue audio filter.
Having dealt last month with the concepts of envelopes, oscillators and LFOs, Gordon Reid moves on to the subject of filters, and the havoc they wreak on the signals that pass through them.
We move on from discussing the harmonic components of sound to explaining how they change over time, and some of the tools subtractive synths give you to emulate this process.
In Part 1 we explained how the tones of most real instruments can be reduced to patterns of harmonics, which can be generated using sine, saw, square or pulse waveforms. This month, we consider the sonic raw materials needed to imitate unpitched percussion.
The theremin is one of the oldest electric instruments around, and its distinctive sound is instantly recognisable. However, real ones are hard to find, and even harder to play. Sam Inglis tries to work out a way of cheating.
In Part 1 of this (63-part) series exploring the world of subtractive synthesis, Gordon Reid goes right back to basics. What are waveforms and harmonics, where do they come from, and how does the theory relate to what we actually hear?
In Part 1, we saw how manufacturers realised that putting DSP effects on synths made for great sales. Subsequently, they twigged that it was also a good idea to let us take them off again (selectively), and route and adjust them ourselves.
These days, a new synth without some form of DSP effects processing is almost unthinkable — but it wasn't always like that. Paul Wiffen traces the introduction of effects on synthesizers and looks at making the most of the early implementations.
Will physical modelling continue to be at the leading edge of synthesis, or are there other methods moving up on the inside tracks? Paul Wiffen winds up the Synth School series with a little crystal ball-gazing.
In the penultimate part of his series on synthesizer technology, Paul Wiffen turns his attention to the problem of emulating acoustic instruments in which the sound is produced by a string or reed, and amplified and modified by the body of the instrument.
Last month, Paul Wiffen looked at how virtual synthesis can emulate analogue synths whilst going beyond their hardware-based limitation. Now he looks at its applications for imitating and exceeding older instruments such as electric piano and organ.
Physical Modelling and Virtual Synthesis have been buzzwords for several years now, especially when it comes to imitating analogue synthesis. But what are their advantages and disadvantages, and how do they work? Paul Wiffen explains.
Paul Wiffen continues to examine transitional synthesis, covering the Wave Sequencing facility, first introduced on the innovative Korg Wavestation, and concluding with Emu's Z-plane technique, which may be regarded as bridging the gap between S&S and today's physical modelling.
Between the extremes of the broad brushstrokes of subtractive synthesis and the painstaking detail of additive, there have existed many hybrid styles of synthesis combining the speed of the former with the precision of the latter. Paul Wiffen traces the development of this middle ground through its successes and heroic failures.
The ball of S&S synthesis had been thrown, and most of the big names in synthesis caught it and ran with it, scoring some notable goals in the process. Paul Wiffen continues his chronicle of modern synthesis with a look at the state of play from the late '80s to the present day.