LT1576 Linear Technology, LT1576 Datasheet - Page 25
LT1576
Manufacturer Part Number
LT1576
Description
1.5A/ 200kHz Step-Down Switching Regulator
Manufacturer
Linear Technology
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APPLICATIONS
inductor is therefore typically based on ensuring that peak
switch current rating is not exceeded. This gives the
lowest value of inductance that can be used, but in some
cases (lower output load currents) it may give a value that
creates unnecessarily high output ripple voltage. A com-
promise value is often chosen that reduces output ripple.
As you can see from the graph, large inductors will not
give arbitrarily low ripple, but small inductors can give
high ripple.
The difficulty in calculating the minimum inductor size
needed is that you must first know whether the switcher
will be in continuous or discontinuous mode at the critical
point where switch current is 1.5A. The first step is to use
the following formula to calculate the load current where
the switcher must use continuous mode. If your load
current is less than this, use the discontinuous mode
formula to calculate minimum inductor needed. If load
current is higher, use the continuous mode formula.
Output current where continuous mode is needed:
Minimum inductor discontinuous mode:
Minimum inductor continuous mode:
For the example above, with maximum load current of
0.25A:
I
L
L
CONT
MIN
MIN
2
2
V
f V
4
OUT
f I
V
IN
IN
P
I
U
2
OUT
V
V
OUT
OUT
V
INFORMATION
IN
U
V
I
2
V
P
IN
IN
I
P
I
2
OUT
V
V
OUT
OUT
W
1
V
F
V
OUT
V
IN
U
V
F
This says that discontinuous mode can be used and the
minimum inductor needed is found from:
In practice, the inductor should be increased by about 30%
over the calculated minimum to handle losses and varia-
tions in value. This suggests a minimum inductor of 7.3 H
for this application, but looking at the ripple voltage chart
shows that output ripple voltage could be reduced by a fac-
tor of two by using a 30 H inductor. There is no rule of thumb
here to make a final decision. If modest ripple is needed and
the larger inductor does the trick, go for it. If ripple is non-
critical use the smaller inductor. If ripple is extremely criti-
cal, a second filter may have to be added in any case, and
the lower value of inductance can be used. Keep in mind
that the output capacitor is the other critical factor in deter-
mining output ripple voltage. Ripple shown on the graph
(Figure 16) is with a capacitor’s ESR of 0.1 . This is rea-
sonable for AVX type TPS “D” or “E” size surface mount solid
tantalum capacitors, but the final capacitor chosen must be
looked at carefully for ESR characteristics.
I
L
CONT
MIN
200 10
4 5 5 5 5 5 5 0 5
2 5 0 25
5 5 1 5
3
1 5
2
LT1576/LT1576-5
2
2
5 6
H
0 38
A
25
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