Apart from the pack size comparison to AGM being a bit on the heavy side, more accurate would be 50% of the AGM advertised capacity but larger is always safer/better I guess. As far as running the A/C, limited use on 400Ah if the solar is not the primary power source. To size solar for all day good "sun" day use the A/C draw x 1.3 to calculate the solar required, x 1.5 to run other stuff at the same time and recharge the over night use quicker. Look for the watts in the power use section of the specs, not the rate heating/cooling power as this is heat energy watts pumped from one unit to the other. The cop figure is the percentage more it can heat pump compared to the electrical energy required to do the job, figures of 4.5 cop can be seen these days meaning 4500w of cooling would require 1000w of electrical energy.... well that's the idea anyway, it doesn't mean it can always achieve that of course. Most inverter style system is set on high will progressively step up to their full power rating and that can be just as much as a non inverter units, the difference is when it scales back the cooling it reduces the electrical energy demand when the non inverter unit is either compressor on or compressor off, only the fan remains reasonably constant.Kappy wrote:As I'm considering almost a complete upgrade to lithium from AGM, I read the following from somewhere else.
I'm considering 1000 watts of flexible solar panels with 400 ah of lithium.
The following info seems to leave me short when considering A/C.
Is this accuarate?
WHAT SIZE PACK FOR ME?
Not sure how to size your lithium battery pack, from our experience this is the size pack required for a given use. The solar panel size is recommended for fixed flat mounting and should give sufficient power for average use, if you are unable to fit the listed amount of solar your system may need external topup on cloudy days. If you are a light user, you may be able to go down one pack size, if you are heavy user it may be useful for you to go up one size. Run well you should be able to free camp and not have to run a generator, however if your solar panels are in the shade at times, the system may struggle. This table applies to a 12volt system and is not meant for domestic house supply system which would have to be larger.
Small system, Replaces 100ah AGM
Use - Lights, device charging - phone, computer, tablet.
Power pack size - 75ah
Solar panel size. - 200w
Medium system, Replaces 200ah AGM
Use - Lights, device charging - phone, computer, tablet, Small fridge 60l Engel/Waeco
Power pack size - 150ah
Solar panel size. - 400w
Average system, Replaces 300ah AGM
Use - Lights, device charging - phone, computer, tablet. Medium fridge 80l, small inverter to run microwave, kettle, toaster.
Power pack size - 225ah
Solar panel size. - 600w
Large system, Replaces 400ah AGM
Use - Lights, device charging - phone, computer, tablet. Two door fridge, inverter to run microwave, kettle, toaster.
Power pack size - 300ah
Solar panel size. - 800w
Extra large system,
Use - Lights, device charging - phone, computer, tablet. Large fridge, large inverter, microwave, kettle, toaster.
Power pack size - 450ah
Solar panel size. - 1200w
Maxi system,
Use - Lights, device charging - phone, computer, tablet. Large fridge, small freezer, full electric kitchen/galley induction hotplate. Full electric with no gas use is possible. Small airconditioner.
Power pack size - 600ah
Solar panel size. - 1600w
Looking at this post by Martin http://www.ozervnews.com/forum/viewtopi ... 130#p66686 the 1680w the A/C pulls at peak load would require around 2200w of solar and the battery makes up the short fall until the unit scales back a bit and then the battery gets topped back up. Naturally not running the unit at full tilt would reduce the electrical energy requirement and keep in mind that DC to DC charging can also be used to boost the charge rate when/if required
T1 Terry
. Anyone want some clean natural gold nuggets 
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