Initial Capacity vs Rated and Peak Capacity for Deep-Cycle Batteries
Deep cycle batteries are designed to provide continuous power over an extended period of time and are then recharged in preparation for the next discharge/recharge cycle. For many industrial and consumer applications where energy storage is critical, flooded lead-acid batteries provide premium performance at an unrivaled cost. Consumers, however, may not be aware that flooded lead-acid deep cycle batteries are designed to reach their rated and/or peak capacity after a conditioning period of capacity ‘cycle-up’. This cycle-up period consists of a series of discharge/recharge cycles in normal operation during which the available battery capacity increases with each cycle. This conditioning cycle-up period is designed to provide the optimum in cycle life vs. cost for this type of battery and application. The number of cycles required to achieve rated and/or peak capacity depends on many factors, including but not limited to battery design, recharge method, depth of discharge, temperature, etc.
Most deep cycle battery manufacturers provide a ‘Capacity Development Curve’ that describes the relationship of initial capacity and the number of cycles required to achieve rated and/or peak capacity for this type of battery. The test procedures used to determine battery capacity ratings and capacity development relationships are specified in Battery Council International procedure BCIS-05 BCI Specifications for Electric Vehicle Batteries (Rev. 2010-15). Per BCIS-05: “Long-life deep cycle EV batteries typically exhibit 75-80% of rated capacity on initial discharge, full rated capacity within the first 100 cycles, and >100% of rating at peak capacity.”
To achieve optimum cycle life vs. battery acquisition cost, most battery manufacturers recommend sizing the battery’s capacity to ~50% depth of discharge (DOD). This not only optimizes the cycle life of the battery vs. cost but also provides a ‘reserve’ capacity in situations where additional runtime is needed beyond normal requirements. Since flooded lead-acid deep cycle batteries can continue to deliver useable capacity down to ~50% of rated capacity, this recommendation also allows utilization of the total number of cycles available from the battery. For these reasons, the fact that this type of battery does not deliver full rated capacity ‘out-of-box’ is not usually an issue and can easily be managed through proper battery sizing and choice of battery type and manufacturer.
Battery manufacturers do recognize that fleets operating battery-powered machinery such as aerial platform lifts, floor cleaning machines, pallet jacks, and golf carts desire the highest possible capacity over the life of the battery. Accordingly, they are constantly improving battery designs and charging methods to achieve the highest possible initial capacity and the fastest possible cycle-up without compromising overall cycle life.
Can I keep a1.2 amp
trickle charger on my deep cycle 2200
during the winter when I’m not using my rv?
Yes, we would recommend using a trickle charger or battery maintainer during battery downtime. You should also continue to perform the monthly maintenance such as checking the water levels, corrosion/debris cleaning, etc.
Our engineers also recommend purchasing a hydrometer, if you don’t already have one, to verify that the batteries are holding their full charge throughout the downtime. The batteries must remain above 1.265 specific gravity to prevent any damage to the batteries.
-Mike Wallace, Creative Manager