Deep-cycle batteries are a type of battery that is designed to be repeatedly discharged and recharged. They are commonly used in applications such as golf carts, RVs, and solar power systems. Regular maintenance is essential to maximize a deep-cycle battery's life. This includes inspecting the battery's fluid level and voltage after the charging service. You can use a hydrometer and DC voltage meter to perform these inspections.
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WHAT IS A DEEP-CYCLE BATTERY?
Deep-cycle batteries may look like car batteries to unfamiliar people, but they're pretty different. A deep cycle battery is a lead battery designed to provide sustained power over a long period and run reliably until it is 80% discharged or more; at this point, it needs to be recharged. It is important to note that although deep cycle batteries can be removed up to 80%, most manufacturers recommend not discharging below 45% to extend the battery's life.
The discharge level is the &#;deep cycle&#; and stands in contrast to other types of batteries that provide only short bursts of energy before recharging. Precisely, a starter battery discharges only a tiny percentage &#; usually 2 to 5% &#;each time it is used.
TYPES OF DEEP-CYCLE BATTERIES
- Flooded deep-cycle batteries: These are the most common type. They are relatively inexpensive and easy to find. However, they require regular maintenance, such as adding distilled water to the electrolyte.
- Sealed deep-cycle batteries: These batteries are also known as maintenance-free batteries. They do not require the addition of distilled water, making them easier to maintain. However, they are more expensive than flooded deep-cycle batteries.
- Absorbed Glass Mat (AGM) batteries: AGM batteries have a glass mat that absorbs the electrolyte. This makes the electrolyte more evenly distributed throughout the battery, which helps to improve performance and lifespan.
- Gel batteries: Gel batteries add a gelling agent to the electrolyte. This makes the electrolyte thicker and more viscous, which helps to prevent the battery from leaking.
- Lithium-ion batteries: Lithium-ion batteries are a newer type of deep-cycle battery that offers several advantages over traditional lead-acid batteries. They are lighter, have a longer lifespan, and can be discharged more deeply without damage. However, they are also more expensive than lead-acid batteries.
THE COMPONENTS OF DEEP-CYCLE BATTERIES
Both flooded and sealed deep-cycle batteries share some of the same components, including:
Lead plates: The lead plates are the active part of the battery. They react with the electrolyte to produce electricity.
Electrolyte: The electrolyte is a mixture of sulfuric acid and water. It conducts electricity and helps to carry the chemical reaction between the lead plates.
Case: The case protects the battery from damage and holds the other components in place.
APPLICATION
Perhaps the most crucial consideration when choosing a deep-cycle battery is what you intend to use it for. Here are some situations that make a difference in the type of deep-cycle battery you choose:
Stationary or Level Equipment
If you&#;re looking for a deep cycle battery for a vehicle that remains level or a stationary application, a flooded deep cycle battery may be your best bet. Flooded batteries are the most common type of deep-cycle battery, and as such, they are generally easier to find and more cost-effective than other types of batteries. Because they use a liquid electrolyte, they can only be used uprightly. They should also be used in applications that allow easy charging, watering, and other maintenance access.
Examples: forklifts, renewable energy storage
Variable Conditions
In applications where temperature and required power draw vary, a VRLA battery, such as an AGM battery, may be the best option. Because VRLA batteries are sealed, there is less chance of damage or weathering of the inside components, which helps to ensure a longer lifespan and better performance. VRLA batteries can operate in any orientation, not just upright like flooded batteries, so they&#;re ideal for situations where they might frequently tip or are installed sideways.
Examples: boats, RVs
Maintenance Capabilities
In addition, VRLA batteries may be better suited when regular maintenance is complex. All deep-cycle batteries need to be charged according to manufacturer specifications, so some care is always required, but if you&#;re unable to water your battery frequently for whatever reason, you should consider buying a VRLA.
BATTERY SAFETY PRECAUTIONS
SAFETY FIRST
Before you troubleshoot a battery, be familiar with the potential risks of handling any battery. This includes wearing personal protection equipment (goggles, gloves, etc.); removing metallic objects such as jewelry, and working in an open, well-ventilated area. Before your inspection, ensure you fully charge the battery to get an accurate reading of the battery condition. Or, if you can&#;t charge the battery, let it sit for one hour after use.
CHECK FOR DAMAGE
You can often detect problems with your battery simply by looking for the following:
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SIMPLE AND SAFE INSPECTION PROCESS
FLUID INSPECTION
- Using a hydrometer to measure the specific gravity of the
acid
within the battery fluid.
- Following battery charging service, the hydrometer reading of all cells should be at least 1.225 -- and show less than 50 point difference between the high and low readings.
- A fully
charged
and healthy battery will show clear fluid without discoloration and a hydrometer reading 1.265.
VOLTAGE INSPECTION
- Battery voltage after charge effectively indicates battery health.
- Batteries with less than 100% voltage should be recharged before use. A 12-
volt
battery will read 12.6 volts or higher after charge; a 6-volt battery will read 6.4 volts or higher after charge.
- Make sure the battery terminals are free of corrosion before testing.
LOAD TEST INSPECTION
- Batteries must be at 100% voltage before applying a load test.
- When load testing, remove all battery cables from their terminals.
- Using a
load tester
, apply a 15-second load equivalent to 50% of the battery's CCA rating.
- Refer to the load testers' minimum passing voltage to determine the battery condition. If the test voltage is below the minimum, replace the battery.
If your battery still performs poorly, you&#;ll find helpful troubleshooting ideas in our seasonal battery brochure for deep cycle and AGM batteries.
CHECK NOW &#; SAVE BIG LATER
Just like with a car, don&#;t let minor problems with your battery go unnoticed; small issues can quickly lead to much bigger problems (and more expensive) problems later... and end up damaging your battery beyond repair. Get the most life out of your deep cycle battery by checking for small things and performing tests regularly.
What should I look for when buying Deep Cycle batteries?
The most essential consideration in buying a Deep Cycle battery is first to make sure the battery you are considering is a &#;True or Real&#; deep cycle battery. Once you have determined that the battery type is correct, ensure the Ampere-Hour or Reserve Capacity rating of the battery will meet or exceed your requirements. Most deep cycle batteries are rated in discharge rates of 100 hours, 20 hours, 10 hours, 8 hours or 5 hours, and/or reserve capacity minutes.
Reserve Capacity (RC) is the number of minutes a fully charged lead acid battery at 80° F (26.7°
- can be discharged at 25 amps before the voltage falls below 1.75 volts per cell (100% DOD). To convert RC to Ampere-Hours at the 25 amp rate, multiply RC by..
It is better to have more ampere-hours (or RC) because, within the same battery type, footprint or industry group size, the battery with higher ampere-hours (or RC) will tend to deliver longer discharge times. It is also essential to know the battery's electrochemical design. A 100 ampere-hour battery of a certain dimension designed for UPS applications may deliver more initial runtime than a Traction or Deep Cycle battery of the same dimension. Still, it will not provide the life or number of cycles that the Traction or Deep Cycle battery will. Contrary to popular belief, battery weight (while important) is &#;not&#; the perfect indication of the quality of one battery to another. It is almost certain if two batteries of the same dimension are weighed.
- one battery designed for UPS service and the other battery designed for Deep Cycle service- the UPS battery should weigh more. Be sure you understand what you are buying!
The &#;Battery Council International&#; manual BCIS-05 Rev. Dec02 provides some guidance with amp hour capacity relationships when comparing battery design for the same service application. In it, they state that &#;for guidance in establishing rates, ampere-hour capacity relationships are approximate&#;:
20 hour
125%
3 hour
82%
6 hour
100%
2 hour
72%
5 hour
95%
1 hour
55%
4 hour
89%
Finally, the available space and weight restrictions will have to be considered when determining the appropriate deep cycle battery.
If you want to learn more, please visit our website What is the difference between an AGM battery and other batteries?.
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