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electrical:solar:sizing [2020/03/17 15:49] frater_secessus [Sizing a solar installation] |
electrical:solar:sizing [2021/06/21 14:06] frater_secessus [usable capacity in Amp-hours] |
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* [[http:// | * [[http:// | ||
* [[http:// | * [[http:// | ||
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+ | Also see [[https:// | ||
===== your reserve needs ===== | ===== your reserve needs ===== | ||
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A rule of thumb is flooded lead acid batteries in offgrid scenarios should be charged between C/10 and C/8. For a 200AH bank this would be 20A-25A. | A rule of thumb is flooded lead acid batteries in offgrid scenarios should be charged between C/10 and C/8. For a 200AH bank this would be 20A-25A. | ||
+ | |||
+ | ==== charging efficiency ==== | ||
+ | |||
+ | Lead batteries take something like ~13% more amps to charge from 50% DoD than were consumed. | ||
+ | Lithium batteries have very high charging efficiency, so 50A consumed will take ~50A to recharge. | ||
==== voltage ==== | ==== voltage ==== | ||
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* deep cycling with [[electrical: | * deep cycling with [[electrical: | ||
* **2:1** - deep cycling and charging from solar only | * **2:1** - deep cycling and charging from solar only | ||
- | * **3:1** - deep cycling and charging from solar only in areas with low insolation like the Pacific Northwest (PNW) | + | * **3:1** - deep cycling and charging from solar only in [[opinion: |
A **crude rule of thumb for panel output per day** is a horizontally mounted panel on a sunny day will generate Ah (amp hours) roughly equal to Rated Wattage / 3.((http:// | A **crude rule of thumb for panel output per day** is a horizontally mounted panel on a sunny day will generate Ah (amp hours) roughly equal to Rated Wattage / 3.((http:// |