Exide Technologies PORTFOLIO PAR20 User Manual

1. The initial charge is complete. Charger voltage can

now be reduced to float voltage setting per Section 13.2.

For a target float charge of 2.25 VPC on a 24-cell system,

you would set the charger voltage to 54 volts.

SECTION 13: BATTERY OPERATION

13.0

Cycle Method of Operation

In cycle operation, the degree of discharge will vary for dif-

ferent applications. Therefore, the frequency of recharg-

ing and the amount of charge necessary will vary.

Generally, Absolyte GX cells require approximately 105-

110% of the ampere-hours removed to be returned to a

full state of charge.

The upper voltage settings recommended, given that the

maxium charge current is 5% of the nominal C100

Amp-hour rating and the ambient temperature is 25°C

(77°F), are as follows:

2.28 ± 0.02 VPC @ 0-2% DOD

2.33 ± 0.02 VPC @ 3-5% DOD

2.38 ± 0.02 VPC @ >5% DOD

Due to the variety of applications and charging

equipment (particularly in photovoltaic systems) it is

recommended that you contact a GNB representative

when determining proper recharge profiles.

13.1

Floating Charge Method

In this type of operation, the battery is connected in

parallel with a constant voltage charger and the critical

load circuits. The charger should be capable of

maintaining the required constant voltage at battery

terminals and also supply a normal connected load where

applicable. This sustains the battery in a fully charged

condition and also makes it available to assume the emer-

gency power requirements in the event of an AC power

interruption or charger failure.

13.2

Float Charge - Float Voltages

Following are the float voltage ranges recommended for the

Absolyte Battery System. Select any “volts per cell” (VPC)

value within the range listed that will result in the series

string having an average volts per cell equal to that value.

RECOMMENDED FLOAT RANGE (@77°F)

2.23 to 2.25 VPC

NOTE: Recommended float voltages are for 77°F. For

other temperatures a compensation factor of .003 V/°F

(.0055 V/°C) per cell is recommended. The minimum volt-

age is 2.20 VPC, temperature correction does not apply

below this voltage. The maximum voltage is 2.35 VPC,

temperature correction does not apply above this voltage.

TEMPERATURE CORRECTION

V corrected = V25°C - (( T actual-25°C) x ( .0055V/°C)) or

V corrected = V77°F - ((T actual-77°F) x (.003V/°F))

See Appendix A for standard values.

Modern constant voltage output charging equipment is

recommended for the floating charger method of opera-

tion of GNB Absolyte batteries. This type of charger, prop-

erly adjusted to the recommended float voltages and fol-

lowing recommended surveillance procedures, will assist

in obtaining consistent serviceability and optimum life.

After the battery has been given its initial charge (refer to

Section 12), the charger should be adjusted to provide the

recommended float voltages at the battery terminals.

Do not use float voltages higher or lower than those rec-

ommended. Reduced capacity or battery life will result.

Check and record battery terminal voltage on a regular

basis. Monthly checks are recommended. See Section

15.0, Records. If battery float voltage is above or below

the correct value, adjust charger to provide proper voltage

as measured at the battery terminals.

13.3

Recharge

All batteries should be recharged as soon as possible fol-

lowing a discharge with constant voltage chargers. To

recharge in the shortest period of time, raise the charger

output voltage to the highest value which the connected

system will permit. Do not exceed the voltages and times

listed in Table E in Section 14.2.

13.4

Determining State-of-Charge

If the normal connected load is constant (no emergency

load connected), the following method can be used to

determine the approximate state-of-charge of the battery.

The state-of-charge can be identified to some degree by

the amount of charging current going to the battery. When

initially placed on charge or recharge following a dis-

charge, the charging current, read at the charger amme-

ter, will be a combination of the load current plus the cur-

rent necessary to charge the battery. The current to the

battery will start to decrease and will finally stabilize when

the battery becomes fully charged. If the current level

remains constant for three consecutive hours, then this

reflects a state-of-charge of approximately 95 to 98%. For

most requirements, the battery is ready for use.
If the normal connected load is variable (i.e. telecommuni-

cations), the following method may be used to check the

state-of-charge of the battery. Measure the voltage across

a pilot cell (See Section 15 for definition of pilot cell). If the

voltage is stable for 24 consecutive hours, the battery

reflects a state of charge of approximately 95%.

STEP 3

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