LT1510CS8 Linear Technology, LT1510CS8 Datasheet - Page 10
LT1510CS8
Manufacturer Part Number
LT1510CS8
Description
IC BATT CHARGER CONST V/I 8SOIC
Manufacturer
Linear Technology
Datasheet
1.LT1510CSPBF.pdf
(16 pages)
Specifications of LT1510CS8
Function
Charge Management
Battery Type
Li-Ion, NiCd, NiMH
Voltage - Supply
6.2 V ~ 28 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (0.154", 3.90mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
LT1510CS8
Manufacturer:
LT
Quantity:
10 000
Part Number:
LT1510CS8
Manufacturer:
LINEAR/凌特
Quantity:
20 000
Company:
Part Number:
LT1510CS8#30390
Manufacturer:
LT
Quantity:
10 000
Part Number:
LT1510CS8#TRPBF
Manufacturer:
LINEAR/凌特
Quantity:
20 000
APPLICATIONS
LT1510/LT1510-5
where R
ground.
For example, 1A charging current is needed.
Charging current can also be programmed by pulse width
modulating I
higher than a few kHz (Figure 4). Charging current will be
proportional to the duty cycle of the switch with full current
at 100% duty cycle.
When a microprocessor DAC output is used to control
charging current, it must be capable of sinking current
at a compliance up to 2.5V if connected directly to the
PROG pin.
Lithium-Ion Charging
The circuit in Figure 2 uses the 16-pin LT1510 to charge
lithium-ion batteries at a constant 1.3A until battery volt-
age reaches a limit set by R3 and R4. The charger will then
automatically go into a constant-voltage mode with cur-
rent decreasing to zero over time as the battery reaches full
charge. This is the normal regimen for lithium-ion charg-
ing, with the charger holding the battery at “float” voltage
indefinitely. In this case no external sensing of full charge
is needed.
Current through the R3/R4 divider is set at a compromise
value of 25 A to minimize battery drain when the charger
is off and to avoid large errors due to the 50nA bias current
of the OVP pin. Q3 can be added if it is desired to eliminate
10
R
PROG
PROG
Figure 4. PWM Current Programming
PROG
5V
0V
I
2 465
BAT
is the total resistance from PROG pin to
= (DC)(1A)
PWM
with a switch Q1 to R
V
1
U
A
2000
INFORMATION
LT1510
U
300
R
4.64k
Q1
VN2222
PROG
PROG
4 93
W
k
PROG
C
1 F
1510 F04
PROG
at a frequency
U
even this low current drain. A 47k resistor from adapter
output to ground should be added if Q3 is used to ensure
that the gate is pulled to ground.
With divider current set at 25 A, R4 = 2.465/25 A = 100k
and,
Lithium-ion batteries typically require float voltage accu-
racy of 1% to 2%. Accuracy of the LT1510 OVP voltage is
to the possibility that very accurate (0.1%) resistors might
be needed for R3 and R4. Actually, the temperature of the
LT1510 will rarely exceed 50 C in float mode because
charging currents have tapered off to a low level, so 0.25%
resistors will normally provide the required level of overall
accuracy.
External Shutdown
The LT1510 can be externally shut down by pulling the V
pin low with an open drain MOSFET, such as VN2222. The
V
to ensure shutdown. This threshold decreases at about
2mV/ C. A diode connected between the MOSFET drain
and the V
temperatures, but it results in slightly different conditions
as outlined below.
If the V
current flowing into the BAT pin will remain at about
700 A. Pulling the V
to drop to 200 A and reverse, flowing out of the BAT pin.
Although these currents are low, the long term effect may
need to be considered if the charger is held in a shutdown
state for very long periods of time, with the charger input
voltage remaining. Removing the charger input voltage
causes all currents to drop to near zero.
If it is acceptable to have 200 A flowing into the battery
while the charger is in shutdown, simply pull the V
directly to ground with the external MOSFET. The resistor
divider used to sense battery voltage will pull current out
C
0.5% at 25 C and 1% over full temperature. This leads
R
pin should be pulled below 0.8V at room temperature
3
C
240
pin is held below threshold, but above 0.4V, the
2 465
C
R
pin will still ensure the shutdown state over all
4
k
V
BAT
R
4 0 05
C
pin below 0.4V will cause the current
2 465
A
2 465 100 0 05
100 8 4 2 465
k
k
C
A
pin
C
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