Sujet : Re: An actual circuit
De : jl (at) *nospam* 650pot.com (john larkin)
Groupes : sci.electronics.designDate : 24. May 2024, 18:55:26
Autres entêtes
Message-ID : <phk15jlc055d4p4b1qlicodl16v85u00d9@4ax.com>
References : 1 2 3 4
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On Fri, 24 May 2024 11:59:31 -0400, "Edward Rawde"
<
invalid@invalid.invalid> wrote:
"john larkin" <jl@650pot.com> wrote in message
news:bk815jh3skuecf1tap8o41rpgdh5kkq8o5@4ax.com...
On Thu, 23 May 2024 13:06:46 -0700, john larkin <jl@650pot.com> wrote:
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On Thu, 23 May 2024 15:35:00 -0400, "Edward Rawde"
<invalid@invalid.invalid> wrote:
>
I was having a conversation with a younger person who seemed to be of the
view that to make an LED flash you would need something to decide when it
should be on or off. So that would be some kind of software or digital
system.
...
>
>
The classic NPN astable circuit can hang up, with both transistors
saturated. I wonder if he jfet circuit can hang too, with Idss
grounding both drains and not enough gain to oscillate out of that
state.
>
Even when they have a hang state, luck usually kicks them off into
oscillation. Your source resistors and asymmetric drain resistors
help it start up. Try making both drain resistors 3.3K.
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If you make the source resistors lower, it will hang up.
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Yes I noticed both points when I was designing it.
I wanted to have it start up by itself, preferably without a kickstart
capacitor.
So I had a complicated circuit with two more diodes and a transistor in the
hope that I could detect the hang state and force it off balance.
I couldn't get that to work
Then I accidentally made R2 3,3k and R6 3.3k and I didn't see how it could
start so quickly with no other help.
Eventually I noticed 3,3k which maybe LTSpice takes as 3k.
>
If R2 and R6 are both 3.3k then LTSpice says it slowly drifts into operation
after 40 seconds.
But why does it go one way and not the other?
Is that an artefact of asymmetry in the simulation?
Or is there some hidden asymmetry in the circuit I'm not seeing when R2 is
3.3k?
>
Yes, it is mysterious. Set both drain resistors to 3.3K and zoom way
up on the two source voltages for the first 20 seconds.
LT Spice may have some hidden asymmetry. It has to do math
sequentially, maybe.
In real life, parts will be plenty asymmetric. Especially jfets.