LTC4412HVIS6#TR Linear Technology, LTC4412HVIS6#TR Datasheet - Page 9
LTC4412HVIS6#TR
Manufacturer Part Number
LTC4412HVIS6#TR
Description
IC CONTROLLER LOW LOSS TSOT23-6
Manufacturer
Linear Technology
Series
PowerPath™r
Datasheet
1.LTC4412HVIS6TR.pdf
(12 pages)
Specifications of LTC4412HVIS6#TR
Applications
Handheld/Mobile Devices
Fet Type
P-Channel
Number Of Outputs
1
Internal Switch(s)
No
Delay Time - On
110µs
Delay Time - Off
13µs
Voltage - Supply
2.5 V ~ 36 V
Current - Supply
19µA
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
TSOT-23-6, TSOT-6
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Automatic PowerPath Control
The applications shown in Figures 1, 2 and 3 are automatic
ideal diode controllers that require no assistance from a
microcontroller. Each of these will automatically connect
the higher supply voltage, after accounting for certain
diode forward voltage drops, to the load with application
of the higher supply voltage.
Figure 1 illustrates an application circuit for automatic
switchover of a load between a battery and a wall adapter
or other power input. With application of the battery, the
load will initially be pulled up by the drain-source diode of
the P-channel MOSFET. As the LTC4412HV comes into
action, it will control the MOSFET’s gate to turn it on and
reduce the MOSFET’s voltage drop from a diode drop to
20mV. The system is now in the low loss forward regula-
tion mode. Should the wall adapter input be applied, the
Schottky diode will pull up the SENSE pin, connected to the
load, above the battery voltage and the LTC4412HV will
turn the MOSFET off. The STAT pin will then sink current
indicating an auxiliary input is connected. The battery is
now supplying no load current and all the load current
flows through the Schottky diode. A silicon diode could be
used instead of the Schottky, but will result in higher
power dissipation and heating due to the higher forward
voltage drop.
ADAPTER
TYPICAL APPLICATIO S
Figure 2. Automatic Switchover of Load Between a Battery and a
Wall Adapter with Auxiliary P-Channel MOSFET for Lowest Loss
BATTERY
CELL(S)
INPUT
WALL
1
2
3
*DRAIN-SOURCE DIODE OF MOSFET
LTC4412HV
V
GND
CTL
IN
SENSE
GATE
STAT
6
5
4
P-CHANNEL
P-CHANNEL
AUXILIARY
PRIMARY
MOSFET
MOSFET
*
*
470k
U
4412HV F02
C
OUT
TO LOAD
STATUS OUTPUT
DROPS WHEN A
WALL ADAPTER
IS PRESENT
Figure 2 illustrates an application circuit for automatic
switchover of load between a battery and a wall adapter
that features lowest power loss. Operation is similar to
Figure 1 except that an auxiliary P-channel MOSFET
replaces the diode. The STAT pin is used to turn on the
MOSFET once the SENSE pin voltage exceeds the battery
voltage by 20mV. When the wall adapter input is applied,
the drain-source diode of the auxiliary MOSFET will turn
on first to pull up the SENSE pin and turn off the primary
MOSFET followed by turning on of the auxiliary MOSFET.
Once the auxiliary MOSFET has turned on the voltage drop
across it can be very low depending on the MOSFET’s
characteristics.
Figure 3 illustrates an application circuit for the automatic
switchover of a load between a battery and a wall adapter
in the comparator mode. It also shows how a battery
charger can be connected. This circuit differs from Figure
1 in the way the SENSE pin is connected. The SENSE pin
is connected directly to the auxiliary power input and not
the load. This change forces the LTC4412HV’s control
circuitry to operate in an open-loop comparator mode.
While the battery supplies the system, the GATE pin
voltage will be forced to its lowest clamped potential,
instead of being regulated to maintain a 20mV drop across
the MOSFET. This has the advantages of minimizing
power loss in the MOSFET by minimizing its R
having the influence of a linear control loop’s dynamics. A
possible disadvantage is if the auxiliary input ramps up
slow enough the load voltage will initially droop before
ADAPTER
BATTERY
CELL(S)
INPUT
WALL
Figure 3. Automatic Switchover of Load Between
a Battery and a Wall Adapter in Comparator Mode
1
2
3
*DRAIN-SOURCE DIODE OF MOSFET
LTC4412HV
V
GND
CTL
CHARGER
BATTERY
IN
SENSE
GATE
STAT
6
5
4
P-CHANNEL
MOSFET
*
V
CC
LTC4412HV
470k
C
OUT
4412HV F03
sn4412hv 4412hvfs
TO LOAD
STATUS OUTPUT
IS LOW WHEN A
WALL ADAPTER
IS PRESENT
ON
and not
9
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