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Greetings All,
My first post here -- been lurking for a while reading all the useful posts.
Just a hobby for me; a life-long tinkerer with building guitars, amps, all sorts of effects, also experimental pickups. Thought perhaps this little gem of a FET buffer/pre-amp may be of interest. Nothing new or revolutionary, something I found useful in my own projects.
1. Cleaning up that loss of higher frequencies due to cable capacitance or non-optimal impedances. Here the gadget fits inside a jack plug at the guitar side of the cable (idea from Don Tillman's Web Page, www.till.com).
2. An active quad or hex pickup ... possibility for balancing output per string.
3. Buffering pickup output(s) prior to passive components. Shown on top of a mini volume pot (25K).
4. Converting a passive pickup into an active device.
Surface mount design & assembly was part of my previous life. I assembled a small quantity of these PCBs for my own use, but have a few spare if anyone is interested in something like this.
Thanks much.
JB.
My first post here -- been lurking for a while reading all the useful posts.
Just a hobby for me; a life-long tinkerer with building guitars, amps, all sorts of effects, also experimental pickups. Thought perhaps this little gem of a FET buffer/pre-amp may be of interest. Nothing new or revolutionary, something I found useful in my own projects.
1. Cleaning up that loss of higher frequencies due to cable capacitance or non-optimal impedances. Here the gadget fits inside a jack plug at the guitar side of the cable (idea from Don Tillman's Web Page, www.till.com).
2. An active quad or hex pickup ... possibility for balancing output per string.
3. Buffering pickup output(s) prior to passive components. Shown on top of a mini volume pot (25K).
4. Converting a passive pickup into an active device.
Surface mount design & assembly was part of my previous life. I assembled a small quantity of these PCBs for my own use, but have a few spare if anyone is interested in something like this.
Thanks much.
JB.
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