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electrical:solar:shallow_cycling [2020/01/14 15:58] frater_secessus [sample build] |
electrical:solar:shallow_cycling [2020/07/08 15:48] frater_secessus [single voltage charging] |
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Instead of deep-cycling, the starter battery is //non-cycled//((never discharged below 100% state of charge)) as described below. It can also be [[electrical:solar:shallow_cycling#shallow-cycling|shallow-cycled]].((discharged to 90% state of charge)) | Instead of deep-cycling, the starter battery is //non-cycled//((never discharged below 100% state of charge)) as described below. It can also be [[electrical:solar:shallow_cycling#shallow-cycling|shallow-cycled]].((discharged to 90% state of charge)) |
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==== how it works ==== | ==== how it works ==== |
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- a simple [[electrical:solar:charge_controller#shunt|shunt charge controller]] holds the battery at a mild Absorption voltage (14.0, - 14.2v) when charging, just below the significant gassing point | - a simple [[electrical:solar:charge_controller#shunt|shunt charge controller]] holds the battery at a mild Absorption voltage (14.0, - 14.2v, see notes [[electrical:solar:shallow_cycling#charging_voltages_and_starter_batteries|below]]) when charging, just below the significant gassing point |
- the controller's LOAD output disconnects (LVD) at 100% SoC (~12.7v) | - the controller's LOAD output disconnects (LVD) at 100% SoC (~12.7v) |
- the controller's LOAD output //re//connects (LVR) at ~13.0v); see discussion below | - the controller's LOAD output //re//connects (LVR) at ~13.0v); see discussion below |
* [[https://amzn.to/2RhbHmD|wire]] run from controller's BATTERY terminals to the starter battery. | * [[https://amzn.to/2RhbHmD|wire]] run from controller's BATTERY terminals to the starter battery. |
* wire run from controller's LOAD terminals to [[https://amzn.to/3adk9vJ|12v/usb outlet]], power bus, etc | * wire run from controller's LOAD terminals to [[https://amzn.to/3adk9vJ|12v/usb outlet]], power bus, etc |
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| ===== charging voltages and starter batteries ===== |
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| The chemistry of starter and "hybrid" ("marine") batteries is somewhat different than deep cycle batteries. Speciically, starter batteries typically have calcium added to the positive grid to minimize self-discharge and outgassing. |
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| Problem: calcium-enhanced grids are more susceptible to "positive grid corrosion" from sustained higher voltages. |
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| The question is this: **what voltage can starter batteries be held at without damage**? One answer might be be "alternator voltage" since that's already happening when we drive vehicles, and they are not damaged by long journeys. |
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| ==== staged charging ==== |
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| CTEK's starter battery charger designed to be left on charges thusly:((https://www.ctek.com/storage/9E4D59B2526B4C3C54C61873C881CAACFC4C93F306DE1C8A2788E26EA6E506DA/f9b26d5eaeeb4787a51e5fc933ae1eae/pdf/media/687dd00827b44e44afee8695c5d0efab/MXS_3.8-manual-low-UK-EN.pdf)) |
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| * 14.4v Absorption |
| * 13.6v Float |
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| So a charge controller with that configuration should be gentle enough on the battery. |
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| ==== single voltage charging ==== |
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| This is the tricky part. Shunts (or controllers set with [[electrical:12v:eternal_absorption|Vabs == Vfloat]]) have one charging voltage. What should we use? |
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| * folks who shallow cycle might charge to 14.4v to help counteract sulfation from overnight cycling. |
| * folks who non-cycle might charge to 13.6v as if the battery is simply being maintained. This leaves some power on the table (~8.5%) for non-MPPT controllers but may be easier on the battery. |
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