LT1912EMSE#PBF Linear Technology, LT1912EMSE#PBF Datasheet - Page 16
LT1912EMSE#PBF
Manufacturer Part Number
LT1912EMSE#PBF
Description
IC, STEP-DOWN REGULATOR, MSOP-10
Manufacturer
Linear Technology
Datasheet
1.LT1912EDDPBF.pdf
(24 pages)
Specifications of LT1912EMSE#PBF
Primary Input Voltage
36V
No. Of Outputs
1
Output Voltage
20V
Output Current
2A
No. Of Pins
10
Operating Temperature Range
-40°C To +125°C
Supply Voltage Range
3.6V To 36V
Msl
MSL 1 - Unlimited
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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LT1912
APPLICATIONS INFORMATION
The SW and BOOST nodes should be as small as possible.
Finally, keep the FB and V
traces will shield them from the SW and BOOST nodes.
The exposed pad on the bottom of the package must be
soldered to ground so that the pad acts as a heat sink. To
keep thermal resistance low, extend the ground plane as
much as possible, and add thermal vias under and near
the LT1912 to additional ground planes within the circuit
board and on the bottom side.
Hot Plugging Safely
The small size, robustness and low impedance of ceramic
capacitors make them an attractive option for the input
bypass capacitor of LT1912 circuits. However, these capaci-
tors can cause problems if the LT1912 is plugged into a
live supply (see Linear Technology Application Note 88 for
a complete discussion). The low loss ceramic capacitor,
combined with stray inductance in series with the power
source, forms an under damped tank circuit, and the
voltage at the V
nominal input voltage, possibly exceeding the LT1912’s
rating and damaging the part. If the input supply is poorly
controlled or the user will be plugging the LT1912 into an
energized supply, the input network should be designed
to prevent this overshoot. Figure 9 shows the waveforms
that result when an LT1912 circuit is connected to a 24V
supply through six feet of 24-gauge twisted pair. The
first plot is the response with a 4.7µF ceramic capacitor
at the input. The input voltage rings as high as 50V and
the input current peaks at 26A. A good solution is shown
in Figure 9b. A 0.7Ω resistor is added in series with the
input to eliminate the voltage overshoot (it also reduces
the peak input current). A 0.1µF capacitor improves high
frequency filtering. For high input voltages its impact on
efficiency is minor, reducing efficiency by 1.5 percent for
a 5V output at full load operating from 24V.
16
IN
pin of the LT1912 can ring to twice the
C
nodes small so that the ground
High Temperature Considerations
The PCB must provide heat sinking to keep the LT1912
cool. The exposed pad on the bottom of the package must
be soldered to a ground plane. This ground should be tied
to large copper layers below with thermal vias; these lay-
ers will spread the heat dissipated by the LT1912. Place
additional vias can reduce thermal resistance further. With
these steps, the thermal resistance from die (or junction)
to ambient can be reduced to
100 LFPM airflow, this resistance can fall by another 25%.
Further increases in airflow will lead to lower thermal re-
sistance. Because of the large output current capability of
the LT1912, it is possible to dissipate enough heat to raise
the junction temperature beyond the absolute maximum of
Figure 8. A Good PCB Layout Ensures Proper, Low EMI Operation
VIAS TO LOCAL GROUND PLANE
VIAS TO V
D1
OUT
L1
C1
VIAS TO SYNC
V
OUT
GND
VIAS TO RUN/SS
JA
OUTLINE OF LOCAL
GROUND PLANE
C2
= 35°C/W or less. With
R
RT
VIAS TO V
C
R1
C
R
C
R2
IN
1912fa
1912 F08
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