Liste des Groupes | Revenir à se design |
On Thu, 19 Dec 2024 12:22:51 -0500, "Edward Rawde"Not a wise choice.
<invalid@invalid.invalid> wrote:
>
"john larkin" <JL@gct.com> wrote in message news:uoj8mj9t5vc84kl4mdr01n3spqtnra2u6v@4ax.com...On Thu, 19 Dec 2024 09:53:03 -0500, "Edward Rawde">
<invalid@invalid.invalid> wrote:
>"Bill Sloman" <bill.sloman@ieee.org> wrote in message news:vk0ehh$2o9dc$1@dont-email.me...>On 19/12/2024 2:10 pm, Edward Rawde wrote:>"Bill Sloman" <bill.sloman@ieee.org> wrote in message news:vk00um$2i900$1@dont-email.me...>On 19/12/2024 6:00 am, Edward Rawde wrote:>"Bill Sloman" <bill.sloman@ieee.org> wrote in message news:vjtgnp$24ubg$1@dont-email.me...>I've been playing with the circuit, and have got rid of one op amp, which made the simulation run much faster, but didn't>
help
the
distortion performance.
>
Swapping the LT1115 for the LME49710 speeded up the simulation a bit more, but didn't make any difference to the distortion
either. A few of the ferrite beads have gone too.
>
I got a simulation speed of about 30us/s so I didn't wait the nearly 4 days it would take to complete.
I did an FFT on the first few cycles and it does look 100dB down up to 1.5MHz.
It rans at 68msec/sec for me and takes a couple of minutes to run the full ten seconds.
I used the circuit from your third post. One op amp had to be moved down a bit into position and then I hit simulate.
To be sure we're talking about the same circuit I've reposted it below.
I'm using LTSpice 24.0.12 with no new model updates available as of this post.
And I'm using LTSpice XVII(x64)(17.0.37.0) up-dated recently.
>
I finally got your version to work. As you say, U1 had to be moved into place, but I also had to change C10 on the output of U4.
I'd specified the capacitance as 3.3u. but the "u" symbol had vanished. When I specified the capacitance as 3300n everything
worked fine.
C10 is definitely 3.3u here. I tried changing it to 3300n but still less than 30us/s when I start the simulation.
>>>>>If building this for real then ten turn trimmers would be used for:>
R14 2.2k
R3 68 ohm
R16 100k
And I'd also want R19 or part of it variable.
Why a ten turn trimmer?
Can be 100 turn if you want. The point is only that fine adjustment would be a good idea.
Lots of turns don't always equate to fine setability.
Yes I agree. You might easily have the kinds of problems which were solved with anti backlash couplings in the days of drive cords
and tuning capacitors.
The long multi-turn trimpots are hard to adjust and expensive, and are
no better than single-turns for settability.
Yes particularly if the resistive element is the same length, it may as well be single-turn.
Single-turn also has the advantage that you can see where it's set before you adjust it.
Multi-turn is usually enclosed so hard to know where it's set before adjustment.
>
https://www.google.com/search?&q=multi+turn+trimpots&udm=2
>
So I'd probably go for good quality open single-turn if I ever build the 120dB circuit.
Sometimes.Single-turns have much lower HF parasitics too.
The rectangular multi-turn trimpots have a lot of backlash. A goodYou should be able cope with the backlash. A good multi-turn pontentiometer can be set a lot more precisely than any single turn part, but you have to know what you are buying to get good parts.
single is actually more settable. A heap faster too.
Les messages affichés proviennent d'usenet.