LTC3738 Linear Technology, LTC3738 Datasheet - Page 15
LTC3738
Manufacturer Part Number
LTC3738
Description
3-Phase Buck Controller
Manufacturer
Linear Technology
Datasheet
1.LTC3738.pdf
(32 pages)
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APPLICATIO S I FOR ATIO
So the number of phases used can be selected to minimize
the output ripple current and therefore the output ripple
voltage at the given input and output voltages. In applica-
tions having a highly varying input voltage, additional
phases will produce the best results.
Accepting larger values of ∆I
inductances but can result in higher output voltage ripple.
A reasonable starting point for setting ripple current is
∆I
I
∆I
inductor ripple currents are constant determined by the
inductor, input and output voltages.
Inductor Core Selection
Once the value for the inductors is known, the type of
inductor must be selected. High efficiency converters
generally cannot afford the core loss found in low cost
powdered iron cores, forcing the use of ferrite, molyper-
malloy or Kool Mµ
of core size for a fixed inductor value, but it is very
dependent on inductance selected. As inductance in-
creases, core losses go down. Unfortunately, increased
inductance requires more turns of wire and therefore
copper losses will increase.
OUT
L
L
= 0.4(I
occurs at the maximum input voltage. The individual
is the total load current. Remember, the maximum
Figure 3. Normalized Peak Output Current
vs Duty Factor [I
OUT
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
0.1
)/N, where N is the number of channels and
0.2
®
cores. Actual core loss is independent
U
0.3
DUTY FACTOR (V
0.4
RMS
U
0.5
= 0.3(I
OUT
L
0.6
allows the use of low
/V
O(P-P)
IN
0.7
W
)
1-PHASE
2-PHASE
3-PHASE
4-PHASE
6-PHASE
0.8
]
3738 F03
0.9
U
Ferrite designs have very low core loss and are preferred
at high switching frequencies, so design goals can
concentrate on copper loss and preventing saturation.
Ferrite core material saturates “hard,” which means that
inductance collapses abruptly when the peak design
current is exceeded. This results in an abrupt increase in
inductor ripple current and consequent output voltage
ripple. Do not allow the core to saturate!
Power MOSFET and Schottky Diode Selection
At least two external power MOSFETs must be selected for
each of the three output sections: One N-channel MOSFET
for the top (main) switch and one or more N-channel
MOSFET(s) for the bottom (synchronous) switch. The
number, type and “on” resistance of all MOSFETs selected
take into account the voltage step-down ratio as well as the
actual position (main or synchronous) in which the MOSFET
will be used. A much smaller and much lower input
capacitance MOSFET should be used for the top MOSFET
in applications that have an output voltage that is less than
1/3 of the input voltage. In applications where V
the top MOSFETs’ “on” resistance is normally less impor-
tant for overall efficiency than its input capacitance at
operating frequencies above 300kHz. MOSFET manufac-
turers have designed special purpose devices that provide
reasonably low “on” resistance with significantly reduced
input capacitance for the main switch application in switch-
ing regulators.
The peak-to-peak MOSFET gate drive levels are set by the
voltage, V
MOSFETs in most applications. Pay close attention to the
BV
logic-level MOSFETs are limited to 30V or less.
Selection criteria for the power MOSFETs include the “on”
resistance R
maximum output current.
MOSFET input capacitance is a combination of several
components but can be taken from the typical “gate
charge” curve included on most data sheets (Figure 4).
Kool Mµ is a registered trademark of Magnetics, Inc.
DSS
specification for the MOSFETs as well; many of the
CC
SD(ON)
, requiring the use of logic-level threshold
, input capacitance, input voltage and
LTC3738
IN
>> V
15
OUT
3738f
,
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