0 storage, 2 recharge following discharge, continued – Alpha Technologies AlphaCell SMU-HR User Manual

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745-680-B2-002, Rev. B

2.2 Recharge Following Discharge, continued

Using a current limit of 0.1 C10, it takes approximately 9 hours to restore 80% of the

discharge, and 11 hours to restore 90%. This can be compared to a current limit of 0.25 C10,

whereby 80% is returned in approximately 4 hours, and 90% within 5 hours.

3.0 Storage

Open circuit
When a battery is stored in an open circuit, two major things occur:

1 Sulfate leaves the electrolyte and reacts with the plates, causing a reduction in the charge

state of the battery.

2. Grid corrosion accelerates, especially when the open circuit voltage of the battery is allowed

to go below 2.05Vpc.

The state of charge of lead acid batteries slowly decreases in an open circuit due to self-discharge. In

SMU-HR batteries, the rate of self-discharge is about 23% per month at 77F (25C). During prolonged

storage it is necessary to boost-charge the battery at least every 6 months to maintain a fully charged

condition of the battery (see Section 2.2). Excessive open circuit storage of any lead acid battery

without recharge will result in a permanent loss of capacity. When stored at higher temperatures, the

boost interval should be more frequent. Keep the open circuit voltage (measured in a fully rested state

of at least 16 hours) at or above 2.05Vpc to minimize the amount of irreversible grid corrosion.

Fig. 2-1, Recharge Time and Capacity Restored as a Function of Current Limit

While less charger (rectifier) amps means a longer recharge time, too many charger (rectifier) amps can

damage the battery.

NOTE:

Table 3-1, Boost Charge Intervals

0.1C

10

0.1C

5

0.2C

5

0

2

4

6

8

10

12

14

16

0%

10%

20%

30%

40%

50%

60%

70%

80%

90%

100%

110%

Storage Temperature °F (°C)

Boost Interval

77 (25)

6 Months

95 (35)

3 Months

113 (45)

1 Month

Hours

Capacity