再生可能 エネルギー
New Member
- Joined
- Nov 28, 2019
- Messages
- 261
I plan to build a 12 V LiFePO4 backup system to power a refrigerator.
I would like to run my refrigerator off grid during peak hours (4 p to 12 am, or 8 hours).
I plan to build a system based on 280 Ah Cells, and have a maximum discharge of 80%.
I plan to charge the battery during off peak hours, or for 16 hours a day.
So the charge rate in this case would be: (280 Ah) x (80 %) / (16) = 14 Ah.
Charging rate would be: 14 Ah / 280 Ah = 0.05 C charge rate.
I noticed some type of car battery trickle device such as:
but I wonder if this is the way to go?
- So what charger would you recommend for my application?
I would like to run my refrigerator off grid during peak hours (4 p to 12 am, or 8 hours).
I plan to build a system based on 280 Ah Cells, and have a maximum discharge of 80%.
I plan to charge the battery during off peak hours, or for 16 hours a day.
So the charge rate in this case would be: (280 Ah) x (80 %) / (16) = 14 Ah.
Charging rate would be: 14 Ah / 280 Ah = 0.05 C charge rate.
I noticed some type of car battery trickle device such as:
but I wonder if this is the way to go?
- So what charger would you recommend for my application?