I'm using a Victron battery monitor and can't anymore imagine trying to get by without it!
However, I've run across what I think is a (significant?) problem with the way it works.
The Victron is important to me when battery charge is low - say 50 - 55%. I use it to decide whether to switch on the generator (which I hate to do unnecessarily) or wait until the sun comes up in the morning for solar, or otherwise micro-manage the current until fully charged again
However, often when I try to start the generator when the batt. charge is down, the starter momentarily pulls the battery voltage down so low that the Victron resets itself, and is then useless until it eventually resyncs as the battery gets full again. In other words, just when I need it, it isn't working!
It would be much preferable if the state-of-charge and other parameters were held in non-volatile memory that holds its value when the voltage drops to zero, and can be read again when voltage comes back up.
I'm thinking of installing a small battery pack that powers the Victron full time (even when the battery it is monitoring gets to low voltage). I'm thinking that the power that the Victron itself uses is very low, so I could perhaps use alkaline batteries. In fact, if the Victron didn't mind 18 volts, it would be simplest to use two 9V alkalines.
Anybody else come across this problem, or are there any comments on my potential solution?
Does anybody know if the Xantrax BM has this same problem?
However, I've run across what I think is a (significant?) problem with the way it works.
The Victron is important to me when battery charge is low - say 50 - 55%. I use it to decide whether to switch on the generator (which I hate to do unnecessarily) or wait until the sun comes up in the morning for solar, or otherwise micro-manage the current until fully charged again
However, often when I try to start the generator when the batt. charge is down, the starter momentarily pulls the battery voltage down so low that the Victron resets itself, and is then useless until it eventually resyncs as the battery gets full again. In other words, just when I need it, it isn't working!
It would be much preferable if the state-of-charge and other parameters were held in non-volatile memory that holds its value when the voltage drops to zero, and can be read again when voltage comes back up.
I'm thinking of installing a small battery pack that powers the Victron full time (even when the battery it is monitoring gets to low voltage). I'm thinking that the power that the Victron itself uses is very low, so I could perhaps use alkaline batteries. In fact, if the Victron didn't mind 18 volts, it would be simplest to use two 9V alkalines.
Anybody else come across this problem, or are there any comments on my potential solution?
Does anybody know if the Xantrax BM has this same problem?