LT3461AES6 LINER [Linear Technology], LT3461AES6 Datasheet - Page 5
LT3461AES6
Manufacturer Part Number
LT3461AES6
Description
1.3MHz/3MHz Step-Up DC/DC Converters with Integrated Schottky in ThinSOT
Manufacturer
LINER [Linear Technology]
Datasheet
1.LT3461AES6.pdf
(8 pages)
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APPLICATIO S I FOR ATIO
Inrush Current
The LT3461 has a built-in Schottky diode. When supply
voltage is applied to the V
between V
from input through the inductor and the Schottky diode to
charge the output capacitor. The maximum nonrepetitive
surge current the Schottky diode in the LT3461 can
sustain is 1.5A. The selection of inductor and capacitor
value should ensure the peak of the inrush current to be
below 1.5A. In addition, turn-on of the LT3461 should be
delayed until the inrush current is less than the maximum
current limit. The peak inrush current can be calculated as
follows:
where L is the inductance, r is the resistance of the
inductor and C is the output capacitance.
Table 3 gives inrush peak currents for some component
selections.
Table 3. Inrush Peak Current
Thermal Considerations
Significant power dissipation can occur on the LT3461
and LT3461A, particularly at high input voltage. Device
load, voltage drops in the power path components, and
switching losses are the major contributors. It is impor-
tant to measure device power dissipation in an application
to ensure that the LT3461 does not exceed the absolute
maximum operating junction temperature of 125°C over
the operating ambient temperature range. Generally, for
supply voltages below 5V the integrated current limit
function provides adequate protection for nonfault condi-
tions. For supply voltages above 5V, Figures 3a and 3b
show the recommended operating region of the LT3461
and LT3461A, respectively. These graphs are based
on 250mW on-chip dissipation. Improvement of these
I
P
V
=
IN
5
5
V
(V)
IN
IN
C
L
– .
and V
–
0 6
1
• exp
OUT
L (µH)
U
4.7
10
⎛
⎜
⎜
⎜
⎜
⎝
generates inrush current flowing
−
U
2
IN
pin, the voltage difference
C
L
π
−
C (µF)
1
1
1
W
⎞
⎟
⎟
⎟
⎟
⎠
U
I
P
1.1
0.9
(A)
numbers can be expected if the LT3461 is supplied from a
separate low voltage rail.
Switching Frequency
The key difference between the LT3461 and LT3461A is the
faster switching frequency of the LT3461A. At 3MHz, the
LT3461A switches at twice the rate of the LT3461. The
higher switching frequency of the LT3461A allows physi-
cally smaller inductors and capacitors to be used in a given
application, but with a slight decrease in efficiency and
maximum output current when compared to the LT3461.
Generally if efficiency and maximum output current are
crucial, or a high output voltage is being generated, the
LT3461 should be used. If application size and cost are
more important, the LT3461A will be the better choice.
160
120
160
120
Figure 3b. LT3461A Operating Region
80
40
Figure 3a. LT3461 Operating Region
80
40
0
0
6
6
V
V
IN
IN
= 5V
= 5V
V
V
IN
IN
14
= 8V
14
= 8V
V
V
IN
IN
LT3461/LT3461A
= 12V
= 12V
V
V
V
V
OUT
OUT
IN
IN
22
22
>15V
>15V
(V)
(V)
30
30
3461 F01a
3461 F01b
38
38
3461af
5
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