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I understand the psychics involved, that's not my argument, in a perfect world you'd use 24-48v, but it's about economics and availability. Now I'm retired (70), we travel for about 7-9 months of the year and decided about 2 years ago, after a couple of expensive electrical repairs which now know could have done myself for almost nothing, decided to learn how to do electrics and simple electronics myself.
Have always fixed most 12v faults in vehicles etc, but never things like lifepo4, inverters are energy systems. So that's where I'm at, understand what you're saying, but when looking at the economics, nothing computes for a reasonable outcome. To me it's much better to have a number of cheaper replacements than spend a heap on some brand name. We've only had one problem and that was a manufacturing fault, will stick with this approach until something make me change.
Have come across lots of people who accepted the professional approach and ended up with expensive gear and when it breaks down, they either have to travel for long distances to find a technician that can handle it, or wait for an expensive replacement or import. During which time they may not have any power and its the same with off gird system in lots of Aus, because of remoteness and availability of supply.
I use easily to get components, which are cheap and seem to work just as well as the brand name expensive stuff. My BMS is one which is for an EV cost juist over $200, the same quality with less progammabilty, costs well over $500. Mine has been reprogrammed for off grid, sadly they are no longer manufactured and luckily bought 4. They perform flawlessly and never had a problem, I've altered and continue to refine the operation, if I had the expertise I'd reprogram and re-engineer it so it does everything I want. But expect that will occur with the system I'm putting together using other simple cheap cell and battery monitors, once I fully understand how to put together what I want, properly.
Paid $225 for my 3000-6000w 12v inverter, similar in 48v is more than $2000, in 24v, from $900. In the years it has been in use, nothing has happened adversely, nor come across anyone else who has problems.
Have stated a number of times, which no one seems to listen to, use 12v in our MH for most appliances and a 1000w 240v inverter.
In our home everything runs through the 3000w 12v inverter and nothing runs on 12v. We have 240v LED globes and all other things run on 240v, including vacum, two large freezers, fridge, 65cm LED tv and sometimes a PA. If they were all used together then sure there would be problems, we switch off non required things to use something else (vacum or PA). Many times checked the inverter to see if it's effected and it's fine, no hot wires or anything that looks adverse. The distance between the battery pack and inverter, is less than 30cm and use the wiring that came with it. Could have got away with a smaller inverter, but prefer to use one that is idling along, rather than peaking at times. Doubt its ever used more than about 1500w and that would be for the vacum cleaner, everything else wouldn't make 1000w.
As for the economics, try buying 24v or 48v appliances for your MH at the same price and variety you can get in 12v, almost impossible. As it is my MH is 24v and have to convert it to 12v for some vehicle things, because they don't come in 24v cheaply and it's the same with internal lights, radios, small chargers, dash and reverse camera's, try getting them in 24-48v for the same price.
Hate that title, RV makes out you are a recreational of road vehicle, when in fact the majority are bitumen conga line travellers and spend the majority of their time in van parks. Which really makes them motorised caravans and not mobile homes.
Like real MH owners, we are completely self sufficient when we travel, even for fuel as all our vehicles and machinery run on veggie oil and my MH carries 1200lt of it.
Have always fixed most 12v faults in vehicles etc, but never things like lifepo4, inverters are energy systems. So that's where I'm at, understand what you're saying, but when looking at the economics, nothing computes for a reasonable outcome. To me it's much better to have a number of cheaper replacements than spend a heap on some brand name. We've only had one problem and that was a manufacturing fault, will stick with this approach until something make me change.
Have come across lots of people who accepted the professional approach and ended up with expensive gear and when it breaks down, they either have to travel for long distances to find a technician that can handle it, or wait for an expensive replacement or import. During which time they may not have any power and its the same with off gird system in lots of Aus, because of remoteness and availability of supply.
I use easily to get components, which are cheap and seem to work just as well as the brand name expensive stuff. My BMS is one which is for an EV cost juist over $200, the same quality with less progammabilty, costs well over $500. Mine has been reprogrammed for off grid, sadly they are no longer manufactured and luckily bought 4. They perform flawlessly and never had a problem, I've altered and continue to refine the operation, if I had the expertise I'd reprogram and re-engineer it so it does everything I want. But expect that will occur with the system I'm putting together using other simple cheap cell and battery monitors, once I fully understand how to put together what I want, properly.
Paid $225 for my 3000-6000w 12v inverter, similar in 48v is more than $2000, in 24v, from $900. In the years it has been in use, nothing has happened adversely, nor come across anyone else who has problems.
Have stated a number of times, which no one seems to listen to, use 12v in our MH for most appliances and a 1000w 240v inverter.
In our home everything runs through the 3000w 12v inverter and nothing runs on 12v. We have 240v LED globes and all other things run on 240v, including vacum, two large freezers, fridge, 65cm LED tv and sometimes a PA. If they were all used together then sure there would be problems, we switch off non required things to use something else (vacum or PA). Many times checked the inverter to see if it's effected and it's fine, no hot wires or anything that looks adverse. The distance between the battery pack and inverter, is less than 30cm and use the wiring that came with it. Could have got away with a smaller inverter, but prefer to use one that is idling along, rather than peaking at times. Doubt its ever used more than about 1500w and that would be for the vacum cleaner, everything else wouldn't make 1000w.
As for the economics, try buying 24v or 48v appliances for your MH at the same price and variety you can get in 12v, almost impossible. As it is my MH is 24v and have to convert it to 12v for some vehicle things, because they don't come in 24v cheaply and it's the same with internal lights, radios, small chargers, dash and reverse camera's, try getting them in 24-48v for the same price.
Hate that title, RV makes out you are a recreational of road vehicle, when in fact the majority are bitumen conga line travellers and spend the majority of their time in van parks. Which really makes them motorised caravans and not mobile homes.
Like real MH owners, we are completely self sufficient when we travel, even for fuel as all our vehicles and machinery run on veggie oil and my MH carries 1200lt of it.
Of course voltage is a poor indicator of capacity in the flat part of the curve, so one will want to count / calculate coulombs.
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