Mad Professor Snow White Bass Handwired Auto Wah
Mad Professor Snow White Bass Handwired Auto Wah Pedal Hand Made in Finland
BJF DESIGN BASS AUTO WAH/ VOLTAGE CONTROL FILTER PEDAL
Hand-made in Finland premium quality bass auto wah pedal.
The SNOW WHITE BASS AUTOWAH (SWBAW) circuit is based on a 1991 BJF rack mount remote wah circuit and is tuned like a real wah.
The circuit was redesigned with envelope controls and built into small size pedal.
It has very fast tracking and accuracy rarely found on auto wahs/ envelope filters. With the four knobs you can have total control of the effect.
SWBAW is designed for bass and you can fine-tune the pedal to suit your instrument, your playing style and your taste of tone.
The pedal has a unique decay control for the filter frequency fall speed. You can set it to be fast for wah effects on every note, or slower for a more traditional auto wah sound.
SWBAW is hand made in Finland using only premium compo-nents, to give years of trouble free operation with superb musical tone.
SENSITIVITY: Sets the filter trigger level, tune this carefully to fit you /bass output and your playing touch. You can further change the sensitivity from your guitar volume knob while playing.
BIAS: Controls the filter resonance frequency. When Sensitivity is turned fully off the Bias can be used as a sweepable filter.
RESONANCE: Controls the sharpness or Q-factor of the filter.
DECAY: Controls how fast the filter frequency falls back to resting point (that is set with the Bias control). This can be set fast (CW) so you get the wah effect on every note or slow for a more traditional auto wah sound.
PLAYING: Please take time to get used to the controls and as this is a voltage control filter it will react to your playing touch. The envelope control circuit is carefully designed to follow the dynamics of bass and it might take some time to master the Auto Wah playing technics. Try also adjusting guitar volume between 8 and 10 to further expand use.
Supply voltage: 9VDC
Current consumption at 9VDC: 15mA
Input inpedance: 500K
Output impedance: 1K
Max input: -20dBV
Complete bypass (true bypass)