LTC1982 Linear Technology, LTC1982 Datasheet - Page 6
LTC1982
Manufacturer Part Number
LTC1982
Description
(LTC1981 / LTC1982) Single and Dual Micropower High Side Switch Controllers
Manufacturer
Linear Technology
Datasheet
1.LTC1982.pdf
(8 pages)
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APPLICATIONS
LTC1981/LTC1982
Logic-Level MOSFET Switches
The LTC1981/LTC1982 are designed to operate with logic-
level N-channel MOSFET switches. Although there is some
variation among manufacturers, logic-level MOSFET
switches are typically rated with V
continuous V
V
generally little price differential. When operating at supply
voltages of 5V or greater, care must be taken when
selecting the MOSFET. The LTC1981/LTC1982 limit the
output voltage to between 6.9V and 7.5V. The V
oped for the MOSFET may be too low to sufficiently turn on
the MOSFET. MOSFETs rated at 2.5V, or less, will be better
suited for applications where the supply voltages ap-
proach 5V.
Powering Large Capacitive Loads
Electrical subsystems in portable battery-powered equip-
ment are typically bypassed with large filter capacitors to
reduce supply transients and supply induced glitching. If
not properly powered however, these capacitors may
themselves become the source of supply glitching. For
example, if a 100 F capacitor is powered through a switch
with a slew rate of 0.1V/ s, the current during start-up is:
Obviously, this is too much current for the regulator (or
output capacitor) to supply and the output will glitch by as
much as a few volts.
The start up current can be substantially reduced by
limiting the slew rate at the gate of an N-channel as shown
in Figure 1. The gate drive output of the LTC1981/LTC1982
have an internal 30k resistor (15k LTC1981) in series with
each of the output gate drive pins (see Functional Block
Diagram). Therefore, it only needs an external 0.1 F
capacitor (0.22 F for the LTC1981) to create enough RC
delay to substantially slow the slew rate of the MOSFET
gate to approximately 0.6V/ms. Since the MOSFET is
operating as a source follower, the slew rate at the source
is essentially the same as that at the gate, reducing the
startup current to approximately 60mA which is easily
6
DS
www.DataSheet4U.com
I
START
ratings are similar to standard MOSFETs and there is
= C( V/ t)
= (100 • 10
= 10A
GS
rating of 8V. RDS (ON) and maximum
U
–6
)(1 • 10
INFORMATION
U
5
)
GS
W
= 4V with a maximum
U
GS
devel-
managed by the system regulator. R1 is required to
eliminate the possibility of parasitic MOSFET oscillations
during switch transitions. It is a good practice to isolate the
gates of paralleled MOSFETs with 1k resistors to decrease
the possibility of interaction between switches.
ON/OFF
Mixed 5V/3V Systems
Because the input ESD protection diodes are referenced to
the GND pin instead of the supply pin, it is possible to drive
the LTC1981/LTC1982 inputs from 5V CMOS or TTL logic
even though the LTC1981/LTC1982 is powered from a
3.3V supply as shown in Figure 2. Likewise, because the
input threshold voltage high is never greater than 1.6V, the
reverse situation is true. The LTC1981/LTC1982 can be
driven with 3V CMOS or TTL even when the supply to the
device is as high as 5V as shown in Figure 3.
V
IN
LT1129-3.3
SHDN 1 GND
Figure 1. Powering a Large Capactive Load
1/2 LTC1982
3.3V
5V
Figure 2. Direct Interface to 5V Logic
Figure 3. Direct Interface to 3.3V Logic
V
CC
GATE 1
SHDN 1 GND
SHDN 1 GND
1/2 LTC1982
1/2 LTC1982
3.3V
3.3 F
V
V
5V
CC
CC
GATE 1
GATE 1
+
C1
0.1 F
R1
1k
3.3V
+
LOAD
LOAD
3.3V
5V
Si3442DV
Si3442DV
Si3442DV
1981/82 F02
C
100 F
L
1981/82 F03
LOAD
3.3V
1981/82 F01
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