LTM4607 LINER [Linear Technology], LTM4607 Datasheet - Page 14
LTM4607
Manufacturer Part Number
LTM4607
Description
36VIN, 24VOUT High Effi ciency Buck-Boost DC/DC ?Module
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTM4607.pdf
(24 pages)
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APPLICATIONS INFORMATION
LTM4607
at buck mode, we can get the current ripple ratio of the
current ripple ΔI
follows:
Figure 3. shows the current ripple ratio at different input
voltages based on the inductor values: 2.5μH, 3.3μH, 4.7μH
and 6μH. If we need about 40% ripple current ratio at all
inputs, the 4.7μH inductor can be selected.
At buck mode, sensing resistor selection is based on
the maximum output current and the allowed maximum
sensing threshold 130mV.
Consider the safety margin about 30%, we can choose
the sensing resistor as 9mΩ.
For the input capacitor, use a low ESR sized capacitor to
handle the maximum RMS current. Input capacitors are
required to be placed adjacent to the module. In Figure
16, the 10μF ceramic input capacitors are selected for
their ability to handle the large RMS current into the
converter. The 100μF bulk capacitor is only needed if the
input source impedance is compromised by long inductive
leads or traces.
14
Figure 3. Current Ripple Ratio at Different Inputs for Buck Mode
R
ΔI
I
L
SENSE
L
=
(V
=
0.8
0.6
0.4
0.2
IN
0
2 • (P / V
12
V
– V
IN
L
OUT
2 • 130mV
• L • f • P
to the maximum inductor current I
18
) • V
INPUT VOLTAGE V
OUT
OUT
) − ΔI
24
2
2.5μH
L
4.7μH
3.3μH
IN
(V)
30
6μH
4607 F03
36
L
as
For the output capacitor, the output voltage ripple and
transient requirements require low ESR capacitors. If
assuming that the ESR dominates the output ripple, the
output ripple is as follows:
If a total low ESR of about 5mΩ is chosen for output ca-
pacitors, the maximum output ripple of 21.5mV occurs at
the input voltage of 36V with the current ripple at 4.3A.
Boost Mode Operation
For boost mode operation, use input voltage V
12V, V
Set the PLLFLTR pin and R
If the maximum output power P is 60W at boost mode
and the module effi ciency η is about 95%, we can get
the current ripple ratio of the current ripple ΔI
maximum inductor current I
Figure 4 shows the current ripple ratio at different input
voltages based on the inductor values: 1.5μH, 2.5μH,
3.3μH and 4.7μH. If we need 30% ripple current ratio at
all inputs, the 3.3μH inductor can be selected.
At boost mode, sensing resistor selection is based on
the maximum input current and the allowed maximum
sensing threshold 160mV.
Consider the safety margin about 30%, we can choose
the sensing resistor as 7mΩ.
R
ΔV
ΔI
I
L
SENSE
L
OUT(P-P)
OUT
=
(V
= 12V and f = 400kHz.
=
OUT
V
2 •
OUT
= ESR • ΔI
− V
η • V
• L • f • P
2 • 160mV
IN
IN(MIN)
P
) • V
L
IN
FB
2
η
L
+ ΔI
as in buck mode.
as follows:
L
IN
L
= 5V to
to the
4607f
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