Tweet
I will run your simulation and give it a try as you have explained, I always see such graphs (Freq. vs Voltage plots) with respect to VCO circuits. Nice to know how to actually execute such a task in LTspice.
Thanks Qiaozhi.
Thanks Qiaozhi.
-
-
Same here, I'm running out of solder too. My last buy of rolls abroad was round 5 years ago.Originally posted by dbanner View Post
Now that I am in quarantine, I have been feeling motivated once again to re-engage in hobby building and tinkering.
Only one big problem..... I AM RUNNING OUT OF SOLDER!!!!
All local non-essential businesses are shut down. Supermarket does not sell solder.
Rrrrrr.....
In the meantime getting leaded solder is very difficult in the EU as I have found out, only if you have a justified business for that.
I call RoHs faux environmental reasoning.
I really like the Kester 44 (63/37 or 60/40), which oddly enough is not so common in the EU.
A lot of other name brands here have fluxes which I am not fond of.
Good luck with finding good solder or getting it shipped to the island!Comment
-
What would be the preferred way to connect an audio chopper to a PI output, a JFET or an ordinary bipolar transistor?
I'm going to try the VCO circuit in the above posts.
I plan to take the input from after the sampling integrator and connect the output via a JFET transistor after the second integrator. I will condemn the 555 VCO section and just add an audio amplifier stage to drive a speaker or headphones.
I'm not sure about the voltages though.
Any help or advice please.Comment
-
Would a simple 4046 work for youComment
-
I found this modified vco, works inversely
http://www.next.gr/oscillators/volta...co-l13874.htmlComment
-
I came across this VCO circuit with an ltpsice simulation to play with.Comment
-
This one looks interesting, I think I've seen this circuit adapted for a surf PI project. Would be interesting to see what the frequency vs voltage plot looks like.Comment
-
" A 555 VCO circuit with logarithmic characteristics"
Comment
Comment