User Manual

CYCLE LIFE

Battery manufacturers rate the cycle life of their batteries by comparing the level

of discharge on the battery and the frequency of cycling. Higher battery discharge

will result in shorter cycle life. In reverse, a smaller discharge percentage will

extend the expected cycle life of the battery as the battery will provide more

charge/discharges. To provide an example of cycle life, a 48V string of 8 x 6

volt S-550 models in series (428 AH capacity @ C20 ) which are consistently

discharged to 50% state of charge (214 AH of capacity drawn) and consistently

recharged to a full state of charge should provide approximately 1280 cycles

before end of life.

With traditional off-grid Renewable Energy systems, DOD is set to operate

between 20% and 50% to maximize the life of the batteries. Battery-based

systems are designed to allow a maximum 50% DOD as this offers a balance

between capacity vs. cycle life, also taking into consideration the cost

of replacement.

For grid-connected backup systems, Installers will typically design battery

banks to operate to a greater DOD percentage to lower initial installation costs.

Cycling with grid-connected systems is significantly less frequent than with

off-grid, where this may occur daily, a lower DOD is acceptable as long as the

customer understands that the overall cycle life is affected when they cycle

their battery bank beyond a 50% state of charge.