Abt Powerline SC12-18 Manual del producto - Página 12

Navegue en línea o descargue pdf Manual del producto para Accesorios para cámaras Abt Powerline SC12-18. Abt Powerline SC12-18 15 páginas. Valve-regulated sealed lead acid battery

Figure 23. Relationship between charging
7.8
15.6
7.5
15.0
10
7.2
14.4
6.9
13.8
6.6
13.2
0
0
In practice where there are short term temperature
fluctuations between 5 C and 40 C, temperature
compensation is not absolutely essential. However,
it is desirable to set the voltage at a value shown in
Figure 23 which, as closely as possible, corresponds
to the average ambient temperature of the battery
during its service life. When designing a charger
equipped with temperature compensation, the
temperature sensor must sense only the
temperature of the battery. Therefore, consideration
should be given to thermally isolating the battery
and temperature sensor from other heat generating
components in the system.
Charging Efficiency
The charging efficiency
by the following formula:
η =
The charging efficiency varies depending upon the
state of charge of the battery, temperatures and
charging rates. Figure 24 illustrates the concept of
the state of charge and charging efficiency. As
shown in Figure 25, Powerline SC exhibit very high
charging efficiency, even at low charging rates,
unlike some nickel cadmium batteries.
Figure25. Charging efficiency
100
90
80
70
0.001
voltage and temperature
2.6
2.5
2.4
2.3
2.2
-10
0
10
20
30
40
14
32
50
68
86
104
AMBIENT TEMPERATURE
o
o
η
of a battery is expressed
(Ah)Ampere hours Discharged
(Ah)Ampere hours Charged
0.002
0.005
0.01
0.02
CHARGING CURRENT(xCA)
Figure 24. Charging efficiency vs
(%)
100
50
0
60( C)
o
50
o
122
140( F)
Expected Service Life of
Powerline SC
cyclic service life
There are a number of factors that will affect the
length of cyclic service of a battery. The most
significant are ambient operating temperature,
discharge rate, depth of discharge, and the manner
in which the battery is recharged.
Generally speaking, the most important factor is
depth of discharge. Figure 26 illustrates the effects of
depth of discharge on cyclic life.
Figure 26. Cycle service life in relation to depth
.
D.O D. in%
100%
80%
60%
40%
20%
0%
0
The relationship between the number of cycles which
can be expected and the depth of discharge is readily
apparent. If an extended cycle life is required then it
is common practice to select a battery with a larger
capacity than the one that is required to carry the
load. Thus, at the specified discharge rate over the
specified time, the depth of discharge will be
shallower and cyclic service life will be longer.
Float Service Life
Powerline SC are designed to operate in
float/standby service for approximately 5 yrs based
upon a normal service condition in which float
o
AT 40 C
charge voltage is maintained between
o
AT 25 C
2.275vpc
o
AT 0 C
temperature of approximately 20 C. Figure 27 shows
the float service life characteristics of Powerline SC
when discharged once every three months to 100%
0.05
0.1
depth of discharge.
state of charge
50
STATE OF CHARGE(%)
of discharge
0 . 1
0 . 2
0 . 3
0 . 4
0 . 5
0 . 6
Thousand cycles
0.005 volts per cell in an ambient
o
100
0 . 7
0 . 8
0 . 9