Instruments and Effects

ManualsBrandsApple ManualsOtherLOGIC STUDIO

351

352

353

354

355

356

357

358

359

360

Table Of Contents

Logic Studio Instruments and Effects

Chapter 22 EVB3 355

Additive Synthesis With Drawbars

The Hammond B3 is the classic drawbar organ. As with an acoustic pipe organ, the

registers (drawbars, or stops on a pipe organ) can be pulled out, in order to engage

them. But in contrast to a pipe organ, the B3 allows seamless mixing of any drawbar

registers. The more you drag the drawbars down, the louder they will become.

Despite characteristics such as key clicks, intonation undulations, distortions, and

crosstalk (all of which the EVB3 emulates), playing a single note, with a single register,

results in a pure sine tone. Mixing harmonic sine tones results in more complex spectra;

this is known as additive synthesis. Organs—even acoustic pipe organs—can be

regarded as additive synthesizers. There are, however, several limitations that need to

be considered before viewing the instrument in this way. These limitations, on the

other hand, constitute the character of any real musical instrument, loaded with charm.

The naming of the drawbars derives from the length of organ pipes, measured in feet

('). This naming convention is still used with electronic musical instruments. Halving the

length of a pipe doubles its frequency. Doubling the frequency means nothing other

than: one octave up.

The lowest register, 16' (far left, brown drawbar), and the higher octaves 8', 4', 2', and 1'

(white drawbars) can be freely mixed, in any combination. 16' is commonly described as

the sub-octave. With the sub-octave regarded as the fundamental, the octave above 8'

is the second partial, 4' the fourth, 2' the eighth and 1' the sixteenth partial.

With the 5 1/3' register—the second brown drawbar—you can add the third partial.

This is the fifth above the 8'. Basically, the drawbars are arranged by pitch, with one

exception. The second drawbar (5 1/3') sounds a fifth higher than the third drawbar.

See the “Residual Effect” on page 356, for an explanation.

2/3' gives the sixth, 1 3/5' the tenth and 1

1/3' the twelfth partial. So the

electromechanical tone-wheel organ gives you the partials 1 (16'), 2 (8'), 3 (5 1/3'), 4 (4'),

6 (2 2/3'), 8 (2'), 10 (1 3/5'), 12 (1 1/3') and 16 (1'). As you can see, the harmonic spectrum

is nowhere near complete. That’s the reason why overdrive distortion effects are so

popular with electromechanical tone-wheel organs—they enrich the harmonic spectra

by generating more partials.

Note: The term partial is basically the same as harmonic, but they are counted in a

slightly different way. The fundamental is considered the first partial. Its octave, twice

the frequency, is the second partial, but is known as the first harmonic. The fifth partial

oscillates at five times the frequency of the fundamental. The fifth partial is known as

the fourth harmonic, because with harmonics, the fundamental is not counted (which

makes the term harmonic less practical to use).