NiMH Sensitivity
D.Peak Default
NiMH Sensitivity
D.Peak Default
NiMH Sensitivity
D.Peak Default
LiPo BALANCE
2.0A 11.1V(3S)
Li3s 1.2A 12.59V
BAL 022:43 00682
R:3SER S:3SER
CONFIRM(ENTER)
INC
INC
DEC
DEC
-
-
+
+
Start
Enter
Batt type
Stop
‘>3 seconds’
Charged
capacity
Number
of
cells
Charging
time
Charging
current
Battery
voltage
Start
Enter
The program is only suitable for charging/discharging Lithium-polymer
batteries with a nominal voltage of 3.3/3.6/3.7V/cell. Different batteries
have different charge technique. There are two methods termed as
constant voltage and constant current. The charge current varies
according to battery capacity and specification. The final voltage is very
important; it should precisely match the voltage of the battery: LiPo is 3.6V,
LiLo is 4.1V and LiFe is 3.6V. The current and voltage of the battery should
be correctly set.
When you want to change the values of parameters, please press
START/ENTER key to make it blink and then use DES or INC to change the
value. Then press START/ENTER key again to store the value.
The left side of the first line shows
the type of battery you choose.
The value on the left of the second
line of the charger is current user
set, After setting the current and
voltage, press START/ENTER key
for more than 3 seconds to start
the process.(charge current: 0.1-
5.0A, voltage: 1-5V).
This displays the number of cells
you set up and the processor
detects. “R” shows the number of
cells detected by the charger and
“S” is the number of cells set by
you at the previous screen. If both
numbers are identical you can
start charging by press
START/ENTER button. If not,
press BATT TYPE/STOP button to
go back to previous screen to
carefully check the number of cells
of the battery pack before going
ahead.
When charging NiCd or NiMH batteries, divide the capacity by current,
then divide the result by 11.9, set this number of minutes as the value for
safety timer setting. If the charger stopped at this time threshold, about
140% of the capacity will have been fed into the battery.
For example:
Capacity Current Safety Time
2000mAh 2.0A (2000/2.0=1000)/11.9=84 minutes
3300mAh 3.0A (3300/3.0=1100)/11.9=92 minutes
1000mAh 1.2A (1000/1.2=833)/11.9=70 minutes
Safe timer Calculation
Lithium Lilo/LiPo/LiFe program
Charging of Lithium battery
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