Post History
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 certai...
#4: Post edited
by
kek
·
2023-06-06T07:10:00Z (over 1 year ago)
Apparently I can create comments
- 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-rechargable) be damaged, leading to self-destruction of the circuit?
- In that case isn't it a terrible idea to use non-rechargeable batteries to power any such oscillator circuits?
**EDIT** / **Follow-up Question**: (since I can not comment on answers)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 further from the battery as physically possible? Isn't it just another process for a power supply decoupling?
- 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-rechargable) be damaged, leading to self-destruction of the circuit?
- In that case isn't it a terrible idea to use non-rechargeable batteries to power any such oscillator circuits?
#3: Post edited
by
kek
·
2023-06-06T07:09:07Z (over 1 year ago)
Added follow-up question
- 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-rechargable) be damaged, leading to self-destruction of the circuit?
- In that case isn't it a terrible idea to use non-rechargeable batteries to power any such oscillator circuits?
- 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-rechargable) be damaged, leading to self-destruction of the circuit?
- In that case isn't it a terrible idea to use non-rechargeable batteries to power any such oscillator circuits?
- **EDIT** / **Follow-up Question**: (since I can not comment on answers)
- 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 further from the battery as physically possible? Isn't it just another process for a power supply decoupling?
#2: Post edited
by
kek
·
2023-06-05T19:00:35Z (over 1 year ago)
typo
- 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-rechargable) be damaged, leading to self-destruction of the circuit?
In that case is not a terrible idea to use non-rechargeable batteries for such circuits?
- 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-rechargable) be damaged, leading to self-destruction of the circuit?
- In that case isn't it a terrible idea to use non-rechargeable batteries to power any such oscillator circuits?
#1: Initial revision
by
kek
·
2023-06-05T18:24:05Z (over 1 year ago)
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-rechargable) be damaged, leading to self-destruction of the circuit? In that case is not a terrible idea to use non-rechargeable batteries for such circuits?