In the penultimate instalment of this long-running series, we delve deeper into what can be achieved with just a few delays and some creative routing...
As explained last month, synthesizing the sound of an acoustic piano is difficult, but it can be done reasonably realistically, as the 1986-vintage Roland JX10 shows. We find out how Roland managed it...
Having come up last month with a reasonably realistic cymbal patch, it's time to take the principles of synthesizing metallic percussion one stage further, and produce bell sounds. But there's more to this than you might think...
Last month, we revealed just how hideously complex the sound-producing mechanism of the snare drum can be. Nevertheless, synthesizing the sound is not as hard as it seems, as we find out with the aid of a Roland SH101...
Having proved that subtractive synthesis of an acoustic guitar is completely impractical, Gordon Reid tries his hand at the electric variety, and deconstructs some past attempts to emulate the sound via analogue means.
Gordon Reid concludes his attempts to adapt an idealised analogue brass patch so that it can be programmed on real synths. This month, he looks at the Roland SH101 and ARP Axxe.
In this month's instalment of his series on the basics of subtractive synthesis, Gordon Reid considers the magic ingredient that makes all the other elements sound interesting...
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?
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.