Fairfield Circuitry Randy's Revenge
by Fairfield Circuitry
Prices may incl. VAT *
Last refresh Jun/22/2019 09:47 AM
This product has been played/demoed in store, used to make promotional materials, or returned in great condition. It may be missing its original packaging or inserts or show very slight signs of use. This item is backed with the same return policy and satisfaction guarantee as a new product, making it a risk free purchase. Fairfield Circuitry Randy's Revenge Ring Mod At its finest, in a considerably small package, powered by your typical 9V power supply, all analogue, hand stamped, pure sine wave oscillator, low-pass filtered with a touch of class and apparently musical. These are the requirements of warp speed space travel; a regular occurrence when dealing with Randy's hardware. The lower oscillator frequencies create rich trem/vibe effects, excruciatingly slow or chopped up rhythmic flavours. As the frequency goes up, thick bells, tuned intervals, low-fidelity synth-like effects are only the beginning. Experimenting with the low-pass filter cutoff frequency and the dry/wet mix will yield tones as strange or subtle as desired. Featuring expanded control voltage (CV) capabilities that allow for interactions beyond the simple stacking of effects, Randy can be used to control and be controlled by other CV capable devices. The stereo CV is switch-programmable for use with an expression pedal or as a 2-channel CV port. Both the oscillator and low-pass filter frequency are voltage-controllable. The internal oscillator is also available as an output, turning Randy into a stand-alone voltage-controlled oscillator (VCO). Fairfield Circuitry Randy's Revenge Ring Mod Features: All analogue circuitry Pure sine wave oscillator Expanded control voltage capabilities 9 volt operation True bypass
Latest products for Price Comparison
* The prices and shipping costs may have changed since the last update. It is technically not possible to update the prices in real time. The time of purchase on the Website of the seller is used as the reference.