TL/H/8484
Adjustable 3-Terminal Regulator for Low-Cost Battery Charging Systems LB-35
National Semiconductor
Linear Brief 35
August 1976
Adjustable 3-Terminal
Regulator for Low-Cost
Battery Charging Systems
With the introduction of the LM317, a 3-terminal adjustable
regulator, it becomes relatively easy to design high-perform-
ance, low-cost battery charging systems. Even single bat-
tery cells can be charged on this new regulator, which is
adjustable down to 1.2V. The internal protection circuitry
can be used to limit charging current as well as to protect
against overloads. The output voltage is easily adjusted so
multiple voltage chargers can be made.
The ability to accurately adjust the output voltage of the
LM317 makes it especially attractive for constant voltage
battery charging applications. Batteries are most quickly
charged by ‘‘constant-voltage’’ charging circuits; however,
close control of the charging voltage is necessary to pre-
vent overcharging, especially with nickel cadmium cells. The
internal protection circuitry of the LM317 is helpful in pro-
tecting against accidental overload conditions commonly
occurring in charging systems.
INTERNAL CURRENT LIMIT
The peak charging current or output current is controlled by
the internal current limit of the LM317. This current limit will
work even if a battery is connected backwards to the output
of the charger. Should a fault condition exist for an extend-
ed period of time, the thermal limiting circuitry will decrease
the output current, protecting the regulator as well as the
transformer. A constant voltage charger circuit is shown in
Figure 1
. The output voltage is set with resistors R2 and R3
and given by
VOUT e1.25 #1aR3
R2 J
TL/H/84841
FIGURE 1. Constant Voltage Charging Circuit
Since, in low cost applications, no filter capacitors are used
on the output of the rectifier, the battery is only charged on
the peaks of the sine wave. This requires the peak output
voltage from the transformer to be at least 50% greater
than the battery voltage plus 3V. However, little cost premi-
um should result since the average current from the trans-
former is lower than capacitive input filter circuits. Optional
resistors R1 and R2 are used to further control the charging
characteristics. Resistor R1 controls the output impedance
of the charger allowing a ‘‘taper-charge’’ characteristic to be
generated. The LM317 can also be used to limit the peak
charging current to a partially charged battery at a value
other than the regulator current limit. With R1 in the circuit,
the output impedance is:
ZOUT eR1 #1aR3
R2 J
Including R1 in the feedback loop decreases the value of
resistor needed for a particular output impedance reducing
cost and power dissipation.
For example, with a 6V gelled electrolyte battery the regula-
tor can be set to give a 6.9V output. Nominally, the battery is
discharged to about 5V, making R1 0.4Xoutput impedance
and limiting the charging current to 0.5A at the start of
charging rather than the internal current limit of the regula-
tor. With a fully discharged battery or under short circuit
conditions, the peak output current is still 2A for the
LM317K with the resistor dissipating 1.6A as opposed to 8W
ifa2Xresistor were used directly in series with the battery.
Resistor R4 can be included to provide a low ‘‘topping-up’’
current for a charged battery.
This regulator configuration provides some other important
features to the charger. If input power is removed and a fully
charged battery is connected to the charger output, there is
no damage. Under these conditions about 5 mA of current
will be drawn by divider R2, R3. Since there is no ground
connection to the LM317 regulator, very little current flows
through the LM317. In this respect, the LM317 differs from
other 3-terminal regulators, which can be damaged by ap-
plying power to the output terminal with the input open-cir-
cuited. If the battery is connected backwards, the LM317
will current limit and thermal limit normally, protecting the
charger.
DECREASING CURRENT LIMIT
Adding a single NPN transistor can be used to decrease the
current limit of the charge as shown in
Figure 2
.
TL/H/84842
FIGURE 2. Constant Voltage Charger
with Peak Current Limiting
C1995 National Semiconductor Corporation RRD-B30M115/Printed in U. S. A.
LB-35 Adjustable 3-Terminal Regulator for Low-Cost Battery Charging Systems
Resistor R1 senses the output current and turns on Q1
when IOUT R1 equals about 0.6V. Transistor Q1 pulls the
adjustment terminal negatively decreasing the output volt-
age and controlling the output current. A limitation of this
circuit is that it does not work for direct short circuits. The
output voltage must be above about 0.6V for the external
current limiting to be active. The internal current limit of the
LM317, of course, is still operative. This is not usually a
problem since batteries charge to above 0.6V very quickly.
Resistors R4, R5 and R6 protect the regulator and transistor
for both direct short circuits or reverse battery connections.
TL/H/84843
FIGURE 3. Charger with No Battery Loading when
Power is ‘‘OFF’’
As illustrated in
Figure 3
, in float or standby applications, it is
desirable to remove all loading from the battery when input
power is ‘‘OFF.’’ When power is ‘‘ON,’’ Q1 is saturated,
grounding the voltage setting divider R2, R3 and the circuit
works in a similar manner to the charger circuit in
Figure 1
.
When power is ‘‘OFF,’’ Q1 is open, eliminating any loading
on the battery. A separate pair of low current diodes D1, D2
are necessary to bias Q1, rather than the power bridge recti-
fier. If R1 was tied to the output of the bridge, reverse cur-
rent flow through the LM317 would keep Q1 ‘‘ON’’ and load-
ing the battery.
A simple constant current charger for any type of battery is
shown in
Figure 4
. A resistor R1 between the adjustment
terminal and the output of the regulator sets the output cur-
rent at:
IOUT e1.25
R1
TL/H/84844
FIGURE 4. Constant Current Charger
Current can be set at anywhere between 10 mA and 1.5A by
appropriate resistor choice. Current regulation is very tight
at any current level since only 50 mA flows out of the adjust-
ment terminal. This circuit is also immune to damage from
shorts or reverse battery connections. The input voltage for
regulation should also be about 1.5 times the battery volt-
age plus 3V.
UNIQUELY SUITED
The ability to adjust the output of the LM317 3-terminal reg-
ulator makes it uniquely suited for battery charging systems.
Little has been included about charging specific types of
batteries, since the characteristics of the charger should be
matched to the battery. These charger circuits, although
very simple, perform well. They are easily modified for volt-
age, current or even temperature coefficient by making the
divider string temperature sensitive. More complex chargers
can be made since the output of the LM317 is easily con-
trolled by driving the adjustment terminal. Finally, the charg-
ers are inherently protected against overloads and fault
conditions.
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