0809-0012 EnerSys, 0809-0012 Datasheet - Page 13
0809-0012
Manufacturer Part Number
0809-0012
Description
BATT CYCLON SLA 6V 5.0AH
Manufacturer
EnerSys
Series
Cyclon®r
Type
Sealed Lead Acid Batteriesr
Specifications of 0809-0012
Voltage - Rated
6V
Capacity
5.0Ah
Size / Dimension
5.48" Dia x 2.12" H (139.2mm x 53.8mm)
Termination Style
Spade, .250" (6.3mm)
Rechargeability
Yes
Weight
2.2 lbs (997.9g)
Output Voltage
6 V
Chemistry
Lead Acid
Rechargeable/non-rechargeable
Rechargeable
Battery Capacity
5 Ah
Battery Voltage
6V
Battery Technology
Pure Lead
External Height
76.7mm
External Width
53.8mm
External Depth
139.2mm
Battery Terminals
Tab
Height
3.02"
Rohs Compliant
NA
Lead Free Status / RoHS Status
Lead free by exemption / RoHS compliant by exemption
Other names
842-1010
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
0809-0012
Manufacturer:
RENATA
Quantity:
4 000
Table 6-1 (1.5C
Table 6-2 (2.5C
These tables demonstrate the superior fast charge
capabilities of the CYCLON
The numbers in Table 6-1 were generated using an initial
current in the 1.5C
generated using a current limit in the 2.5C
Increasing the magnitude of the inrush current has a
dramatic impact on the total time to recharge the cells -
only 40 minutes to return 100% of previously discharged
capacity at 2.5C
reach the same mark. This is a useful result to keep in mind
when designing battery systems for applications that require
rapid opportunistic charging.
Although CYCLON battery cells do not require a current limit
(initial current inrush) when being charged by a CV source,
most practical applications have chargers that have limited
power handling capabilities, thereby also restricting the
current limit.
Cyclic charging tests were conducted using a CV charger
that had only a 1A (C
the charge times shown in Table 6-3. The charge voltage,
however, was set at 2.45 VPC. The last column shows
the number of cycles one may expect for specific DOD
numbers.
Table 6-3
2
3
www.enersys.com
Discharged at C
Constant voltage charge at 2.45 VPC with inrush current limited to 1A (C
Charge time at 2.45VPC
17 min.
27 min.
31 min.
60 min.
Charge time at 2.45VPC
12 min.
19 min.
24 min.
40 min.
Depth of
discharge, %
Up to 30
31 to 50
51 to 100
10
2
10
10
/5 (460mA) to 1.70 VPC
10
inrush)
inrush)
10
compared with 60 minutes at 1.5C
Charge
range while those in Table 6-2 were
10
/2.5 on a 2.5Ah cell) current limit and
16
3
5
8
®
time, hr.
line of sealed-lead batteries.
Capacity Returned
Capacity Returned
Number of cycles
10
100%
100%
2500
1700
50%
80%
90%
50%
80%
90%
300
range.
10
to
10
/2.5 for a 2.5Ah cell)
6.6 Float Charging
When CYCLON battery products are in a purely float
application at an ambient temperature of 25°C (77°F),
the recommended charge voltage setting is 2.25 to 2.30
volts per cell (VPC). We also recommend that this charge
voltage be temperature compensated, as outlined in
the next section.
6.7 Temperature Compensation
High temperatures accelerate the rate of the reactions that
reduce the life of a cell. At increased temperatures, the
voltage necessary for returning full capacity to a cell in a
given time is reduced because of the increased reaction
rates within the battery.
To maximize life, a negative charging temperature coefficient
of approximately ±3mV per cell per °C variation from 25°C
(77°F) is used at temperatures significantly different from
25°C (77°F). This coefficient is negative - as the ambient
temperature increases the charge voltage must be reduced,
and vice versa. Figure 6-1 shows the variation of float
voltage with temperature.
It is important to note that even if the charge voltage
is perfectly compensated for high ambient temperature,
the float life expectancy of the cell would still be reduced.
This is due to the fact that while the charge currents are
lowered because of lower charge voltages, the high ambient
temperature continues to have a negative influence on
the life of the battery. Thus, temperature compensation of
the charge voltage only partially offsets the impact of high
ambient temperature on the float life of the cell.
Figure 6-1: Variation of Charge Voltage with Temperature
2.90
2.80
2.70
2.60
2.50
2.40
2.30
2.20
2.10
-40 -35 -30 -25 -20 -15 -10 -5
Theoretical float (ideal)
V=0.00004T
and 2.20VPC minimum
Applied battery charging voltage vs temperature
2
- 0.006T + 2.3945
2.45 VPC@ 25ºC for cyclic (fast) charge
2.27 VPC@ 25ºC for float (slow) charge
Publication No: US-CYC-AM-007 - April 2008
0
Theoretical cycling (ideal)
V=0.00004T
5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80
Temperature, ºC
2
- 0.006T + 2.5745
13
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