Abt Powerline SC6-12 Manual del producto - Página 13

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Figure 27. Float service life

TESTING CONDITIONS:FLOATING VOLTAGE:2.275VPC 0.005V/CELL

AMBIENT TEMPERATURE:20 C TO 22 C (68 F TO 72 F)

(AH)%

120

100

LIFE(YEARS)

In a normal float service, where the charging voltage

is maintained at 2.275vpc 0.005 volts per cell (see

Fig. 28), the gases generated inside an Powerline SC

battery are continually recombined into the negative

plates and return to the water content of the

electrolyte. Therefore, electrical capacity is

effectively not lost due to the "drying up" of the

electrolyte; the loss of capacity and eventual end of

service life is brought about by the gradual corrosion

of the electrodes. It should be noted that this

corrosive process will be accelerated by high

ambient operating temperatures and/or high

charging voltage. When designing a float service

system, always consider the following:

SERVICE LIFE WILL BE DIRECTLY AFFECTED BY THE NUMBER OF

DISCHARGE CYCLES, DEPTH OF DISCHARGE, AMBIENT

TEMPERATURE AND CHARGING VOLTAGE.

Figure 28.

Relationship between float charge

100

OVER CHARGE

UNDER CHARGE

2.3

2.1

2.2

FLOAT CHARGE VOLTAGE(V/CELL)

5.5

LENGTH OF

2.4

2.5

Design/Application

Suggestions to Ensure

Maximum Service

Powerline SC are highly efficient maintenance free

electrochemical systems designed to provide years of

trouble free electrical energy. The performance and

service life of these batteries can be maximized by

observing the following guidelines:

1. Heat kills batteries. Avoid placing batteries in

close proximity to heat sources of any kind. The

longest service life will be attained where the

battery temperature does not exceed 20 C. (also

see notes 3 & 8 hereunder). When calculating the

correct float voltage setting, whether or not

temperature compensation is required, full

consideration must be given to the temperature of

the battery and room ambient. For the purpose of

the calculation, consider the temperature of a

battery on float to be 1 C. above local ambient.

Also, if the battery is used in an enclosure, the

temperature gradient of the enclosure itself must

be included in the calculation. i.e. The operating

temperature of the battery is given by: Room

temperature + enclosure temperature +1 C.

2. Since a battery may generate ignitable gases, do

not install close to any equipment that can

produce electrical discharges in the form of

sparks.

3. When the battery is operated in a confined space,

adequate ventilation should be provided.

4. The battery case is manufactured from high

impact ABS plastic resin. It should not be placed in

an atmosphere of, or in contact with organic

solvents or adhesive materials.

5. Correct terminals should be used on battery

connecting wires. Soldering is not recommended

but if unavoidable please refer to us for

further guidance.

6. Avoid operating at temperatures outside the

requested range.

7. When there is a possibility of the battery being

subjected to heavy vibration or mechanical shock,

it should be fastened securely and the use of

shock absorbent material is advisable.

8. When connecting the batteries, free air space

must be provided between each battery. The

recommended minimum space between batteries

is 0.2 inches (5mm) to 0.4 inches (10mm). In all

installations due consideration must be given to

adequate ventilation for the purposes of cooling.

9. When the batteries are to be assembled in series

to provide more than 100V, proper handling and

safety procedures must be observed to prevent

accidental electric shock).

10. If 2 or more battery groups are to be used,

connected in parallel, they must be connected to

the load through lengths of wires, cables or

busbars that have the same loop line resistance as

each other. This makes sure that each parallel