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electrical:depth_of_discharge [2018/07/27 09:23] frater_secessus |
electrical:depth_of_discharge [2019/02/07 13:13] frater_secessus |
====== Depth of discharge / State of Charge ====== | ====== Depth of discharge / State of Charge ====== |
{{ http://popupbackpacker.com/wp-content/uploads/2013/12/State-of-Charge-Chart-Trojan.jpg?200|}}//Depth-of-discharge (DoD or DOD)// refers to how much low a deep cycle battery is taken before recharging. DoD is the inverse of //State of Charge (SoC)//. Example: a battery at 30% DoD is at 70% SoC. | |
| {{ http://popupbackpacker.com/wp-content/uploads/2013/12/State-of-Charge-Chart-Trojan.jpg?200|}}//Depth-of-discharge (DoD or DOD)// refers to how low a deep cycle battery is taken before recharging. DoD is the inverse of //State of Charge (SoC)//. Example: a battery at 30% DoD is at 70% SoC. |
For solar powered systems the greatest DoD (and therefore lowest SoC) will be in early morning just before the panels start creating power again. | For solar powered systems the greatest DoD (and therefore lowest SoC) will be in early morning just before the panels start creating power again. |
DoD has a **significant impact on longevity of deep cycle batteries**. For this reason [[electrical:inverter|Inverters]] and other high-load devices may have a [[electrical:12v:lvd|low voltage cutoff]]. | DoD has a **significant impact on longevity of deep cycle batteries**. For this reason [[electrical:inverter|Inverters]] and other high-load devices may have a [[electrical:12v:lvd|low voltage cutoff]]. |
| 80| 20| 180| 800| 144| $1.81| 2.2| 1.0| 121| | | 80| 20| 180| 800| 144| $1.81| 2.2| 1.0| 121| |
One can choose to [[electrical:severe battery use|run the batteries quite hard]] in emergency or temporary conditions with the understanding that it will likely "hurt" the batteries to some degree. Consistently going past 50% DoD will greatly reduce the battery's usable cycles. Some studies suggest discharging to 80% yields 1/10th the number of cycles available at 20%. | One can choose to [[electrical:severe battery use|run the batteries quite hard]] in emergency or temporary conditions with the understanding that it will likely "hurt" the batteries to some degree. Consistently going past 50% DoD will greatly reduce the battery's usable cycles. Some studies suggest discharging to 80% yields 1/10th the number of cycles available at 20%. |
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| ===== SoC by amps ===== |
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| A [[electrical:12v:battery_monitor|battery monitor]], usually a amp/coulumb counter with a shunt, will measure the current going to/from the battery. It will often show real-time current flow and a state of charge percentage. It may also show voltage (see below). |
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| ===== SoC by voltage ===== |
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The voltage level associated with 50% DoD is widely discussed. **12.1v rested** is generally used as 50% State of Charge (SoC). A more conservative approach uses **12.2vdc rested**. | The voltage level associated with 50% DoD is widely discussed. **12.1v rested** is generally used as 50% State of Charge (SoC). A more conservative approach uses **12.2vdc rested**. |
Since resting is rare in most practical scenarios stopping at 12.2vdc under light loads would be a practical approach. DC expert SternWake((http://www.cheaprvliving.com/forums/User-SternWake)) says: | Since resting is rare in most practical scenarios stopping at 12.2vdc under light loads would be a practical approach. DC expert SternWake((http://www.cheaprvliving.com/forums/User-SternWake)) says: |