LTC1479CG Linear Technology, LTC1479CG Datasheet - Page 14
LTC1479CG
Manufacturer Part Number
LTC1479CG
Description
IC CTRLR DUAL BATT SYS 36-SSOP
Manufacturer
Linear Technology
Datasheet
1.LTC1479CGPBF.pdf
(24 pages)
Specifications of LTC1479CG
Function
Dual Battery Controller
Battery Type
Lead Acid, Li-Ion, NiCd, NiMH
Voltage - Supply
6 V ~ 28 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
36-SSOP (0.200", 5.30mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LTC1479CG
Manufacturer:
LT
Quantity:
20 000
Part Number:
LTC1479CG#PBF
Manufacturer:
LINEAR/凌特
Quantity:
20 000
APPLICATIONS
LTC1479
be high enough to withstand the maximum battery or
charger output voltage. In most cases, this will allow the
use of 20V MOSFET switches in the charger path, while
30V switches are used in the main power path.
Inrush Current Sense Resistor, R
A small valued sense resistor (current shunt) is used by
the three main switch pair drivers to measure and limit the
inrush current flowing through the conducting switch
pair.
It should be noted that the inrush limiting circuit is not
intended to provide short-circuit protection ; but rather, is
designed to limit the large peak currents which flow into or
out of the large power supply capacitors and the battery
packs during power supply switch-over transitions. The
inrush current limit should be set at approximately 2 or
3 the maximum required DC/DC input current.
For example, if the maximum current required by the
DC/DC converter is 2A, an inrush current limit of 6A is set
by selecting a 0.033 sense resistor, R
following formula:
Note that the voltage drop across the resistor in this
example is only 66mV under normal operating conditions.
Therefore, the power dissipated in the resistor is extremely
small (132mW), and a small 1/4W surface mount resistor
can be used in this application. A number of small valued,
surface mount resistors are available that have been
specifically designed for high efficiency current sensing
applications.
DC Input Monitor Resistor Divider
The DCDIV input continuously monitors the DC power
supply voltage via a two resistor divider network, R
R
DC good comparator is 1.215V when the power supply
input voltage is rising. Approximately – 35mV of hyster-
esis is provided to ensure clean switching of the compara-
tor when the DC supply voltage is falling.
To minimize errors due to the input bias current of the DC
good comparator, set R
100 A flows through the resistor divider when the desired
14
DC2
R
SENSE
, as shown in Figure 5. The threshold voltage of the
= (200mV)/I
U
INRUSH
DC1
INFORMATION
U
= 12.1k so that approximately
SENSE
W
SENSE
, using the
U
DC1
and
threshold is reached. R
the following formula:
Battery Monitor Resistor Divider
A switch controlled by the BATSEL input connects one of
the two batteries to the V
of the battery resistor divider as shown in Figure 6. The
threshold voltage of the low-battery comparator is 1.215V
when the battery voltage is falling. Approximately +35mV
of hysteresis is provided to ensure clean switching of the
comparator when the battery voltage rises again.
To minimize errors due to the input bias current of the low
battery comparator, assume R
mately 10 A flows through the resistor divider when the
threshold is reached. R
following formula:
SUPPLY
R
DC
DC2
12.1k
R
R
BAT1
BAT2
DC2
DC1
1%
1%
R
1%
R
121k
1%
= 12.1k
B2
B1
Figure 6. Battery Monitor Resistor Divider
V
BDIV
BAT
Figure 5. DC Monitor Resistor Divider
DCDIV
DCIN
1.215V
LTC1479
1.215V
V
1.215V
LTC1479
GOOD
BATSEL
–
+
DC2
B2
BAT
–
+
– 1
is then selected according to
is selected according to the
pin and therefore to the top
B1
CONTROL
SWITCH
LOGIC
= 121k so that approxi-
1479 F06
LOBAT
1479 F05
TO SW A/B
DCINGOOD
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