LT1965EDD-1.5-PBF LINER [Linear Technology], LT1965EDD-1.5-PBF Datasheet - Page 16
LT1965EDD-1.5-PBF
Manufacturer Part Number
LT1965EDD-1.5-PBF
Description
1.1A, Low Noise, Low Dropout Linear Regulator
Manufacturer
LINER [Linear Technology]
Datasheet
1.LT1965EDD-1.5-PBF.pdf
(20 pages)
LT1965 Series
APPLICATIONS INFORMATION
Protection Features
The LT1965 regulators incorporate several protection
features that makes them ideal for use in battery-powered
circuits. In addition to the normal protection features
associated with monolithic regulators, such as current
limiting and thermal limiting, the devices also protect
against reverse input voltages, reverse output voltages
and reverse output-to-input voltages.
Current limit protection and thermal overload protection
protect the device against current overload conditions
at its output. For normal operation, do not exceed the
maximum rated junction temperature of 125°C.
The input of the device withstands reverse voltages of 22V.
The LT1965 limits current fl ow to less than 1mA (typically
less than 300μA) and no negative voltage appears at the
output. The device protects both itself and the load against
batteries that are plugged in backwards.
The LT1965 incurs no damage if its output is pulled be-
low ground. If the input is left open circuit or grounded,
the output can be pulled below ground by 22V. For fi xed
voltage versions, the output will act like a large resistor,
typically 5k or higher, limiting current fl ow to typically
less than 300μA. For the adjustable version, the output
acts like an open circuit and no current fl ows from the
output. However, current fl ows in (but is limited by) the
resistor divider that sets the output voltage. If the input
is powered by a voltage source, the output sources cur-
rent equal to its current limit capability and the LT1965
protects itself by thermal limiting. In this case, grounding
the SHDN pin turns off the device and stops the output
from sourcing current.
16
6
5
4
3
2
1
0
0
Figure 6. Reverse Output Current
T
V
V
V
(LT195-1.5/-1.8/-2.5/-3.3)
CURRENT FLOWS INTO
OUTPUT PIN
J
IN
OUT
OUT
LT1965-1.8
= 25°C
= 0V
1
= V
= V
LT1965-1.5
ADJ
SENSE
2
OUTPUT VOLTAGE (V)
(LT1965)
3
4
LT1965-3.3
5
The LT1965 adjustable version incurs no damage if the
ADJ pin is pulled above or below ground by 9V. If the input
is left open circuit or grounded, the ADJ pin performs
like an open circuit when pulled below ground and like a
large resistor (typically 5k up to 3V on the ADJ pin and
then 1.5k up to 9V) in series with a diode when pulled
above ground.
In situations where the ADJ pin connects to a resistor
divider that would pull the ADJ pin above its 9V clamp volt-
age if the output is pulled high, the ADJ pin input current
must be limited to less than 5mA. For example, a resistor
divider is used to provide a regulated 1.5V output from the
1.20V reference when the output is forced to 20V. The top
resistor of the resistor divider must be chosen to limit the
current into the ADJ pin to less than 5mA when the ADJ
pin is at 9V. The 11V difference between the OUT and ADJ
pins divided by the 5mA maximum current into the ADJ
pin yields a minimum top resistor value of 2.2k.
In circuits where a backup battery is required, several
different input/output conditions can occur. The output
voltage may be held up while the input is either pulled
to ground, pulled to some intermediate voltage, or is left
open circuit. Current fl ow back into the output follows the
curve shown in Figure 6.
If the LT1965’s IN pin is forced below the OUT pin or the
OUT pin is pulled above the IN pin, input current typically
drops to less than 2μA. This occurs if the LT1965 input is
connected to a discharged (low voltage) battery and either
a backup battery or a second regulator holds up the output.
The state of the SHDN pin has no effect on the reverse
output current if the output is pulled above the input.
6
LT1965
LT1965-2.5
7
8
1965 F06
9
1965fa
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