The LFO has four wave forms (sine, triangle, square and sawtooth), it's frequency can be voltage controlled and the LFO has a reset input.
Voltage level ranges: -4V to +4V for triangle, sine and square and 0-8V for sawtooth. Frequency range without CV influence: 0.0005Hz to ~200Hz
The VCA has a linear curve and can be used as a voltage controlled attenuator or as a voltage controlled polarizer.
The delay has to be considered an attack-only envelope with a linear characteristic which is fired when receiving a gate at the "delay reset" input. The delay time (or the attack time to be precise) can be controlled manually or with a voltage.
and now to the combined use: The LFO's triangle output is normalized to the VCA's signal input. the "delay" envelope output is normalized to the CV input if the VCA. If now the delay receives a gate the attack envelope is fired, the rising voltage slowly opens the VCA and thus the LFO's amplitude is rising. Voilá, we have a delayed LFO which we can use for tremolos when connected to another VCA or for vibrato when connected to VCO pitch or for whatever you like.
LFO: frequency CV input; waveform outputs for sine, triangle, square, sawtooth.
VCA: signal input, signal output, CV input
delay: reset input, delay time CV input, delay output
3U Eurorack module, 8HP wide, 60mm deep
current draw: 20mA @ +12V and 40 mA @ -12V