<- C I ->

buzz, gbuzz

     ar   buzz      xamp, xcps, knh, ifn[, iphs]
     ar   gbuzz     xamp, xcps, knh, klh, kr, ifn[, iphs]
Output is a set of harmonically related cosine partials.

INITIALIZATION

ifn - table number of a stored function containing (for buzz) a sine wave, or (for gbuzz) a cosine wave. In either case a large table of at least 8192 points is recommended.

iphs (optional) - initial phase of the fundamental frequency, expressed as a fraction of a cycle (0 to 1). A negative value will cause phase initialization to be skipped. The default value is zero

PERFORMANCE

These units generate an additive set of harmonically related cosine partials of fundamental frequency xcps, and whose amplitudes are scaled so their summation peak equals xamp. The selection and strength of partials is determined by the following control parameters:

knh - total number of harmonics requested. Must be positive.

klh - lowest harmonic present. Can be positive, zero or negative. In gbuzz the set of partials can begin at any partial number and proceeds upwards; if klh is negative, all partials below zero will reflect as positive partials without phase change (since cosine is an even function), and will add constructively to any positive partials in the set.

kr - specifies the multiplier in the series of amplitude coefficients. This is a power series: if the klhth partial has a strength coefficient of A, the (klh + n)th partial will have a coefficient of A * (kr ** n), i.e. strength values trace an exponential curve. kr may be positive, zero or negative, and is not restricted to integers.

buzz and gbuzz are useful as complex sound sources in subtractive synthesis. buzz is a special case of the more general gbuzz in which klh = kr = 1; it thus produces a set of knh equal-strength harmonic partials, beginning with the fundamental. (This is a band-limited pulse train; if the partials extend to the Nyquist, i.e. knh = int (sr / 2 / fundamental freq.), the result is a real pulse train of amplitude xamp.) Although both knh and klh may be varied during performance, their internal values are necessarily integer and may cause "pops" due to discontinuities in the output; kr, however, can be varied during performance to good effect. Both buzz and gbuzz can be amplitude- and/or frequency-modulated by either control or audio signals.

N.B. These two units have their analogs in GEN11, in which the same set of cosines can be stored in a function table for sampling by an oscillator. Although computationally more efficient, the stored pulse train has a fixed spectral content, not a time-varying one as above.

<- C I ->
Prepared from the MIT Media Lab Csound Manual, PJN, Nov 1994.