Typical of a poor resolution scan, now followed by a zooming attempt which just puts in evidence the pixels.
As already posted somewhere before in this thread, to all surveyors working with me (they have to send (by email), documents signed upon completion of their survey, properly scanned; I request to open them in their own PCs, and check by themselves how they look.
BTW, I never scan anything I generate in Corel Draw; I "print" it in .pdf and have no problems at all. Look here below.
Sigh. You posted a small piece of the schematic. Why? It's not useful. Look at it and delete it if it's crap. Why subject people to looking at your errors?
I looked at the preamp and saw that the electret mic has R24 with a resistance much too high powering it. An electret mic draws 0.5mA and the 100k resistor for R24 creates a voltage drop of 0.5mA x 100k= 50V! Then the mic will do almost nothing since the supply is only 5V. R24 should be 2V/0.5mA = 4k ohms (use 3.9k).
I simulated the mic preamp because I suspected that it is biased wrong. Its bias resistor is much too small so the transistor is almost saturated. The input capacitor was 0.1uF which passed no low frequencies but now it is 1uF which is better.
I simulated it and changed its 100k biasing resistor to 1.8M then it works much better. My simulation has a 2.5k resistor as the impedance of the electret mic.
Thanks audioguru.
the preamp circuit came off a data sheet somewhere concerning this circuit. I found two similar circuits.One used a crystal mic with a 1.5M bias resistor.
Want to locate both and hopefully simulate as well
The preamp circuit allows the user to insert their voice intermixed with the sound generated by the chip.
This could be a fantastic project, especially if the 20-some switches and 10 or so pots are laid out in a logical sequence so the operation makes sense (i.e., related controls are grouped together). This will require a large panel for a workable arrangement.
If I were doing it, I would want a large circuit board for all the controls. Soldering pigtails to switches and pots is something I hate - reliable results require a lot of effort. If I used pigtails, I would use separate 2 or 3 pin cables (as needed) to connectors on a circuit board. MrDEB's idea of a ribbon cable from a dual-row header fanned out to different switches and pots has never worked well for me; the conductors are too fine and won't take much abuse while getting everything wired up.
I look forward to seeing LGM's simplifications...and later his microcontroller interface <g>
Just i good guess Everything is better with a micro!
You'd need a bunch of analog switches for the caps, but digi-pots would be a huge simplification while providing more control.
Nice idea!
A quick count would be about 51 switch positions and 7 sliders to duplicate what's there now. A fairly complex cap touch design but the complexity is all in the circuit board design. Duplicating it would be a breeze.
Just i good guess Everything is better with a micro!
You'd need a bunch of analog switches for the caps, but digi-pots would be a huge simplification while providing more control.
Nice idea!
A quick count would be about 51 switch positions and 7 sliders to duplicate what's there now. A fairly complex cap touch design but the complexity is all in the circuit board design. Duplicating it would be a breeze.
I got a different idea to didgi pots , also I been thinking about the make before break problem, if the switch position was on a pot and the pot went to a ADC then the switch chip could be controlled by a couple of normal pots, leave enough gap between the voltages of say 250mV or 125mV . 'switch' that is on is indicated by a led. i am not 100% sure yet the chip needs to get here and I have stuff to get out the way. also exams Easter so only get 2 hours a day of 'fun' the rest is pure work (sort of). Although seems a bit untruthful to call it work when you love doing it lol
Wouldnt work two different principles, the chip makes the noise and so does a theramin, the two are very unlikely to go well together but feel free to try it out. Be warned theramin seem like a good idea but the one I built 3 years ago was sort of meh after 2 mins
cleaned up schematic and added the cap on pin 5 of the 555 to grd. Also added the tie points markings (all them little black dots) that coincide with the PCboard as to which panel component connects to the PCboard.
changed the cap and resistor values on the pre amp mic input.
Your schematic looks much better. It gets larger when I click on it.
I do not knowhow to upload the LTspice IV file of your mic preamp so here are its setting: