Excellent presentation, with clear and methodical explanation (not the usual clickbait garbled trivial stuff around - or else the presenter is talking to 9 yr old kids). Keep up the great work
excellent, clear explanation! the paralleled AGM battery complicates circuit behaviour, but represents a real world condition and is well explained. Thank you!
Hello Park, I would like to ask you a (rather) simple question. How does OVP an UVP work. For example if I set OVP to 3.5V, when one cell reaches 3.5V the CHARGE stops but discharge still works? On the other way around - when I set UVP for 2.9V and the battery reaches 2.9V - will the discharge stops but can I still charge the battery?
Answer to first question: yes. Once a cell drops to 2.9V, discharge will stop and battery will be in standby. Battery will become active once charging current is detected.
Excellent presentation, with clear and methodical explanation (not the usual clickbait garbled trivial stuff around - or else the presenter is talking to 9 yr old kids). Keep up the great work
excellent, clear explanation! the paralleled AGM battery complicates circuit behaviour, but represents a real world condition and is well explained. Thank you!
Hello Park, I would like to ask you a (rather) simple question. How does OVP an UVP work. For example if I set OVP to 3.5V, when one cell reaches 3.5V the CHARGE stops but discharge still works? On the other way around - when I set UVP for 2.9V and the battery reaches 2.9V - will the discharge stops but can I still charge the battery?
Answer to first question: yes. Once a cell drops to 2.9V, discharge will stop and battery will be in standby. Battery will become active once charging current is detected.
OK but why would you design a battery with common port or with separate ports?
You may do a quick google to find answers.