Activity for kekā
| Type | On... | Excerpt | Status | Date |
|---|---|---|---|---|
| Comment | Post #288233 |
Very nice explanation. Especially about power supply impedance part. Something I did not think of before. (more) |
— | over 1 year ago |
| Comment | Post #288233 |
https://electrical.codidact.com/comments/thread/7455#comment-19779
Sorry if it was confusing. What I mean by "close to the circuit" is across the supply rails, but still physically close to the oscillator connections.
So, as I understand now: Oscillator will try to force supply lines to a diffe... (more) |
— | over 1 year ago |
| Edit | Post #288232 |
Post edited: Apparently I can create comments |
— | over 1 year ago |
| Edit | Post #288232 |
Post edited: Added follow-up question |
— | over 1 year ago |
| Comment | Post #288233 |
Do I understand correctly, that capacitor you mentioned must be put close to the circuit? So that when voltage of the circuit becomes higher, then reverse current charges this capacitor until situation does not become "normal", where battery supplies the circuit?
So the ideal case would be the furt... (more) |
— | over 1 year ago |
| Edit | Post #288232 |
Post edited: typo |
— | over 1 year ago |
| Edit | Post #288232 | Initial revision | — | over 1 year ago |
| Question | — |
Oscillator with non-rechargable battery Lets say I power an oscillator by a non-rechargable battery. Lets imagine a generic design with LC-circuit and negative resistance created by some transistor circuit. To me it seems that at certain times the inductors will force the current inside a battery. Now can this battery (being non-recharg... (more) |
— | over 1 year ago |