Al,
Here's some figures to help you gauge your usage. These are actual measured current draws on my '02 2363.
Standby Current (LP Detector & Radio Memory) - 0.32 A
Single Incandescent Bulb in overhead fixture - 1.45 A
Fantastic Fan Create-A-Breeze Model on LOW - 1.07 A
Fantastic Fan Create-A-Breeze Model on MED - 1.45 A
Fantastic Fan Create-A-Breeze Model on HIGH - 1.84 A
Radio ON - 0.43 A
19" LCD TV (running on an inverter) + Antenna Amp - 4.26 A
Range Fan - 2.24 A
Furnace Running - 4.68 A
Unfortunately, I don't have the figures for the refrigerator, water heater and the water pump handy. Those are written on a pad in the trailer, which is currently buried in 3' of snow. As I recall, the water pump averages about 4 A when running.
I'm not sure which fridge & water heater you have in your coach. The newer style, electronically controlled with electronic ignition models need power to operate. The older style with the pilot light does not. You will need to factor that into your usage as well.
Now, what to do with these figures. You want to estimate your usage of each item on battery power, and multiply the draw in amps (from above) times the amount of time it runs (in hours). This gives you your draw in "amp-hours".
For example, the standby current from the LP detector and the radio memory is 0.32 amps, and it runs 24 hours a day. That's a total of 7.68 Amp-Hours of battery usage per day. If you also ran a single light bulb for 3 hours a day @ a 1.45 Amp draw, that's another 4.35 Amp-hours.
If those were your only loads, you would be using a total of 12.03 Amp-hours per day.
Also, as John mentioned, your need to determine your battery type, and it's capacity. Lets say you have a group 27 with a capacity of approximately 90 Amp-hours (Ah). If that was the case, and you were using a total of 12.03 Ah per day, then you would know you are using approximately 13.4% of your battery capacity daily.
It is generally considered acceptable to use 50% of the storage capacity in a battery without doing damage. This does assume that you will be charging the battery ASAP and not letting it sit. A partially discharged battery left to sit is very bad for it's lifespan.
Many folks who run off battery tend to run 60-80% cycles. This means that they will let the battery get down to approximately 60% SOC (State of Charge, the percentage of capacity left in the battery) and then run the genny to bring it up to approx. 80%. This is done because it becomes more 'difficult' (takes more time) to charge the battery the closer you get to 100% SOC. When they return to shore power, they can then allow the battery to charge back up to 100%. Charging to around 80% gives them a good bang for their generator fuel buck.
As far as charging.. your magnetek seems to be a 36A converter. The actual charge current it can deliver will vary depending on a number of factors, and it will taper down as the battery charges. For sake of argument, its probably safe to assume you can get an average of 8A. With our example figures, this boils down to the following:
If you were using ~13.4% of your capacity each day, you could run 3 days before hitting ~60% SOC.
Assuming a charge current of about 8 Amps and a battery capacity of about 90 Amp-hours, it would take almost 2.5 hours of generator run time to get you back up to 80%.
Hopefully that all makes sense. I'm not always the best at explaining these things.
All that said, if you don't need to run the fridge when you are away for the week (or if yours doesnt need 12V to run) then doing a battery swap each week sounds like a real good solution. As John mentioned, a decent charger at home will get you back to 100% SOC during the week. If you don't need to power anything in the coach when you are not there, then either take the battery home with you for a good charge, or at least install a disconnect switch (or disconnect a terminal) when you are not there.
If you do need the fridge running, then a single battery is probably not going to be enough to make it through the ~5 days or so that you will be away from the coach. You'd be looking at either swapping a pair of batteries, or you would probably have to take a good look at a solar solution.
Hopefully this helps some and we can continue to discuss some options. Please don't hesitate to ask if something doesn't make sense, or if you have more questions. Several of us on here really enjoy these tech type discussions.
- Frank
