Datasheet

LMZ14203
SNVS632O DECEMBER 2009REVISED OCTOBER 2013
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In CCM, current flows through the inductor through the entire switching cycle and never falls to zero during the
off-time. The switching frequency remains relatively constant with load current and line voltage variations. The
CCM operating frequency can be calculated using Equation 7 above.
Following is a comparison pair of waveforms of the showing both CCM (upper) and DCM operating modes.
Figure 25. CCM and DCM Operating Modes
V
IN
= 24V,
V
O
= 3.3V, I
O
= 3A/0.4A 2 μsec/div
The approximate formula for determining the DCM/CCM boundary is as follows:
I
DCB
V
O
*(V
IN
–V
O
)/(2*6.8 μH*f
SW(CCM)
*V
IN
) (16)
Following is a typical waveform showing the boundary condition.
Figure 26. Transition Mode Operation
V
IN
= 24V, V
O
= 3.3V, I
O
= 0.5 A 2 μsec/div
The inductor internal to the module is 6.8 μH. This value was chosen as a good balance between low and high
input voltage applications. The main parameter affected by the inductor is the amplitude of the inductor ripple
current (I
LR
). I
LR
can be calculated with:
I
LR P-P
=V
O
*(V
IN
- V
O
)/(6.8µH*f
SW
*V
IN
) (17)
Where V
IN
is the maximum input voltage and f
SW
is determined from Equation 10.
If the output current I
O
is determined by assuming that I
O
= I
L
, the higher and lower peak of I
LR
can be
determined. Be aware that the lower peak of I
LR
must be positive if CCM operation is required.
POWER DISSIPATION AND BOARD THERMAL REQUIREMENTS
For the design case of V
IN
= 24V, V
O
= 3.3V, I
O
= 3A, T
AMB(MAX)
= 85°C , and T
JUNCTION
= 125°C, the device must
see a thermal resistance from case to ambient of:
θ
CA
< (T
J-MAX
T
AMB(MAX)
) / P
IC-LOSS
- θ
JC
(18)
Given the typical thermal resistance from junction to case to be 1.9 °C/W. Use the 85°C power dissipation curves
in the Typical Performance Characteristics section to estimate the P
IC-LOSS
for the application being designed. In
this application it is 2.25W.
θ
CA
<(125 85) / 2.25W 1.9 = 15.8
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