aion Nereus Manuel - Sayfa 5

Müzik Ekipmanları aion Nereus için çevrimiçi göz atın veya pdf Manuel indirin. aion Nereus 10 sayfaları. Octave fuzz

BUILD NOTES

Setting the bias trimmer
The bias trimmer sets the voltage at the base of Q3. Assuming a 9.6V supply voltage, the trimmer's
range is 3.06V to 3.88V. We're not sure how Catalinbread determined the optimum setting, but in
the unit we traced, the trimmer was set to 21.5k (21% rotation), which would be 3.26V. Feel free to
experiment and see if you notice any significant difference, but otherwise just set it to that position and
forget about it.
Volume knob rotation
The original Octapussy has a knob labeled "Attenuation", which is nothing more than a reversed volume
knob that reduces the output as it's turned up. We have reversed this in the Nereus so it acts as a
traditional volume control.
Transistor substitutions
The Octapussy uses PN2222A transistors, which are a TO-92 version of the 2N2222A (TO-18 metal
can). This is a low/medium-gain NPN transistor that is almost identical to the 2N3904, which can be
substituted with no change in tone.
The "A" suffix designates higher maximum voltage and temperature, but the electrical properties are
otherwise is identical between the two versions. The non-"A" PN2222 is
available from Aion
FX.
Resistor substitutions
The original circuit used carbon composition resistors for R3 and R7. This type of resistor is notorious
for drifting over time. We measured these two resistors in the unit we traced and found that the 15k
resistor (R7) measured 17.1k, and the 150k resistor (R3) measured 159.8k. Both are 5% tolerance, but
R7 is 14% above nominal and R3 is +6.5%.
We do not recommend using carbon comp resistors when building this circuit, but if you want to
replicate the sound of the unit we traced, you can use a 17k metal film resistor for R7 and a 160k metal
film resistor for R3, which are the nearest precision values.
Electrolytic vs. film capacitors
The original Octapussy uses 2.2uF electrolytic capacitors for C9 and C10. We try to avoid electrolytics
in the signal path where possible, so the PCB layout uses non-polar film caps. However, if you do want to
use electrolytics as in the original, the polarity has been marked on the PCB. Otherwise, these polarity
marks can be ignored.
NEREUS OCTAVE FUZZ
5