LTC3539 LINER [Linear Technology], LTC3539 Datasheet - Page 9
LTC3539
Manufacturer Part Number
LTC3539
Description
2A, 1MHz/2MHz Synchronous Step-Up DC/DC Converters
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC3539.pdf
(12 pages)
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APPLICATIONS INFORMATION
V
The LTC3539 will maintain output voltage regulation
even when the input voltage is above the desired output.
Note that the effi ciency and the maximum output current
capability are reduced. Refer to Typical Performance
Characteristics.
Short-Circuit Protection
The LTC3539 output disconnect feature allows an output
short circuit while maintaining a maximum internally set
current limit. To reduce power dissipation under short-
circuit conditions, the peak switch current limit is reduced
to 1.4A (typical).
Schottky Diode
Although it is not required, adding a Schottky diode from
SW to V
this defeats the output disconnect, V
and short circuit protection features.
PCB LAYOUT GUIDELINES
The high speed operation of the LTC3539 demands careful
attention to board layout. A careless layout will result in
reduced performance. Figure 1 shows the recommended
component placement. A large ground pin copper area will
help to lower the die temperature. A multilayer board with
a separate ground plane is ideal.
IN
V
> V
IN
Figure 1. Recommended Component Placement for
Single Layer Board
+
OUT
OUT
Operation
will improve effi ciency by about 2%. Note that
PGND 2
GND
SW
V
IN
1
3
4
LTC3539
3539 F01
MULTIPLE VIAS
TO GROUND PLANE
8
7
6
5
V
MODE
FB
SHDN
OUT
IN
> V
OUT
MINIMIZE
TRACE ON FB
AND SW
operation
COMPONENT SELECTION
Inductor Selection
The LTC3539 can utilize small surface mount and chip
inductors due to the high switching frequency. Inductor
values between 3.3μH and 4.7μH for the LTC3539 and
between 1.5μH and 2.5μH for the LTC3539-2 are suitable
for most applications*. Larger values of inductance will
allow slightly greater output current capability (and lower
the Burst Mode threshold) by reducing the inductor ripple
current. However, increasing the inductance above 10μH
will increase size while providing little improvement in
output current capability.
The minimum inductance value is given by:
Where:
The inductor current ripple is typically set for 20% to 40%
of the maximum inductor current. High frequency ferrite
core inductor materials improve effi ciency by reducing
frequency dependent power losses compared to cheaper
powdered iron types. The inductor should have low ESR
(series resistance of the windings) to reduce the I
losses, and must accomodate the peak inductor current
without saturating. Molded chokes and some chip inductors
usually do not have enough core area to support the peak
inductor current of 2.6A seen on the LTC3539. To minimize
radiated noise, use a shielded inductor. See Table 1 for
suggested suppliers and representative components.
*Single cell applications (V
f = 1 for the LTC3539 or 2.2 for the LTC3539-2
Ripple = allowable inductor current ripple (Amps
peak-to-peak)
V
V
L >
IN(MIN)
OUT(MAX)
V
IN MIN
(
= minimum input voltage
Ripple V
= maximum output voltage
)
IN
• (
LTC3539/LTC3539-2
< 1.6V) should use a 2.2μH inductor for the LTC3539
V
OUT MAX
•
OU
(
T T MAX
(
)
−
)
V
IN MIN
•
f
(
)
)
2
R power
9
3539f
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