In this article we study a simple
USB powered Li-Ion battery charger circuit having all the necessary
features such as constant voltage, constant current, and overcharge cut-off
with indication.
The circuit can be understood with the help
of the following description:
As shown in the following automatic
3.7V USB li-ion automatic battery charger circuit, the IC 741 is
configured as a standard comparator and becomes the over charge cut-off stage
in conjunction with the transistor 2N2907.
It's
non-inverting input is used as the trip voltage sensing input while the
inverting input is clamped with a fixed reference voltage of 1.8V via the three
1N4148 diodes.
The 22k resistor is added for including some
hysteresis in the circuit so that the cut-off action sustains the condition for
a while and prevents threshold level oscillation across the battery.
The transistor 2N2907 basically does the
power switching implementation in response to the triggering received from the
opamp.
Another PNP device which is installed over
the 2N2907 forms the current regulator device here. The resistor across the
emitter/base of this transistor is selected such that a potential of around
0.6V develops at the emitter/base of the BC557 in case the current consumption
of the Li-ion cell tends to rise above 200mA.
When this happens the BC557 triggers
instantaneously and chokes the 2N2907 base by supplying a direct positive to
it.
The operation momentarily stops the supply to
the cell prompting a quick drop in the current level, this tends to restore the
voltage condition back to the battery, as soon as this happens the current
consumption yet again rises activating the transistor. A continues
switching is thus triggered keeping the current level in control at the set
200mA mark.
The diode at the output positive line drops
about 0.6V from the source 5V, ensuring a steady 4.4V to the connected Li-Ion
cell.
The continuously illuminated LED indicates
charging process in progress, while a slow flashing of the LED could mean the
battery has been fully charged and needs to be removed.
The flashing rate may be altered by altering
the 22k resistor value, increasing its value produces faster flashing and vice
versa.
Circuit diagram of USB Li-Ion Battery Charger
Circuit with Auto Cut-off
For more information, please see: http://putra-ind.blogspot.com/2014/04/usb-automatic-li-ion-battery-charger.html
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