Samlex Power PST-150-12 Manuel Du Propriétaire page 22

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SECTION 7 |
TABLE 7.4: STATE OF CHARGE VERSUS STANDING VOLTAGE
Percentage of
Full Charge
100%
90%
80%
70%
60%
50%
30%
20%
10%
0%
Check the individual cell voltages / specific gravity. If the inter cell voltage difference is
more than a 0.2V, or the specific gravity difference is 0.015 or more, the cells will require
equalization. Please note that only the non-sealed / vented / flooded / wet cell batteries
are equalized. Do not equalize sealed / VRLA type of AGM or Gel Cell Batteries.
7.10 STATE OF DISCHARGE OF A LOADED BATTERY – LOW BATTERY /
DC INPUT VOLTAGE ALARM AND SHUTDOWN IN INVERTERS
Most inverter hardware estimate the State of Discharge of the loaded battery by measur-
ing the voltage at the inverter's DC input terminals (considering that the DC input cables
are thick enough to allow a negligible voltage drop between the battery and the inverter).
Inverters are provided with a buzzer alarm to warn that the loaded battery has been
deeply discharged to around 80% of the rated capacity. Normally, the buzzer alarm is
triggered when the voltage at the DC input terminals of the inverter has dropped to
around 10.5V for a 12V battery or 21V for 24V battery at C-Rate discharge current of
C/5 Amps and electrolyte temp. of 80°F. The inverter is shut down if the terminal voltage
at C/5 discharge current falls further to 10V for 12V battery (20V for 24V battery).
The State of Discharge of a battery is estimated based on the measured terminal voltage
of the battery. The terminal voltage of the battery is dependent upon the following:
- Temperature of the battery electrolyte: Temperature of the electrolyte affects the
electrochemical reactions inside the battery and produces a Negative Voltage
Coefficient – during charging / discharging, the terminal voltage drops with rise in
temperature and rises with drop in temperature
- The amount of discharging current or "C-Rate": A battery has non linear internal
resistance and hence, as the discharge current increases, the battery terminal voltage
decreases non-linearly
22 | SAMLEX AMERICA INC.
General Information on Lead Acid
Batteries
Standing Voltage
of Individual Cells
2.105V
2.10V
2.08V
2.05V
2.03V
2.02V
1.97V
1.95V
1.93V
= / < 1.93V
Standing Voltage of
12V Battery
12.63V
12.6V
12.5V
12.3V
12.2V
12.1V
11.8V
11.7V
11.6V
= / < 11.6V
Standing Voltage
of 24V Battery
25.26V
25.20V
25.00V
24.60V
24.40V
24.20V
23.60V
23.40V
23.20V
= / < 23.20V

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Pst-150-24

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