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electrical:solar:car [2024/01/04 12:48] frater_secessus [$110] |
electrical:solar:car [2024/01/04 12:56] frater_secessus [performance] |
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Actual power harvest would vary depending on the amount of driving (alternator), | Actual power harvest would vary depending on the amount of driving (alternator), | ||
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+ | ==== performance ==== | ||
+ | |||
+ | Solar, conditions described above | ||
* summer (June) - ~200Wh alternator + 1,483Wh solar = **1, | * summer (June) - ~200Wh alternator + 1,483Wh solar = **1, | ||
* winter (December) - ~200Wh alternator + 401Wh solar = **602Wh/ | * winter (December) - ~200Wh alternator + 401Wh solar = **602Wh/ | ||
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+ | loads | ||
+ | |||
+ | * DC ~50A (650w)((solar might provided another 213w under optimal conditions, allowing loads up to 663w without exceeding LFP's typical 0.5C sustained discharge spec)) | ||
+ | * AC (inverter) ~40A (520w) | ||
===== $650 ===== | ===== $650 ===== | ||
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* small PSW inverter like [[https:// | * small PSW inverter like [[https:// | ||
- | Same assumptions as the above | + | |
+ | ==== performance ==== | ||
+ | |||
+ | Solar, same assumptions as the above | ||
* summer (June) - ~65Wh alternator + 488Wh solar = **1, | * summer (June) - ~65Wh alternator + 488Wh solar = **1, | ||
* winter (December) - ~65Wh alternator + 284Wh solar = **349Wh/ | * winter (December) - ~65Wh alternator + 284Wh solar = **349Wh/ | ||
+ | loads | ||
+ | * DC ~25A (325w) | ||
+ | * AC (inverted) ~20A (260w) | ||
===== $300 ===== | ===== $300 ===== | ||