LT1375HV Linear Technology, LT1375HV Datasheet - Page 26
LT1375HV
Manufacturer Part Number
LT1375HV
Description
1.5A/ 500kHz Step-Down Switching Regulators
Manufacturer
Linear Technology
Datasheet
1.LT1375HV.pdf
(28 pages)
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LT1375/LT1376
APPLICATIONS
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 noncritical use the smaller inductor. If ripple is
extremely critical, 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 determining output ripple voltage. Ripple shown
on the graph (Figure 19) is with a capacitor ESR of 0.1 .
This is reasonable for an AVX type TPS “D” or “E” size
surface mount solid tantalum capacitor, but the final
capacitor chosen must be looked at carefully for ESR
characteristics.
Ripple Current in the Input and Output Capacitors
Positive-to-negative converters have high ripple current in
both the input and output capacitors. For long capacitor
lifetime, the RMS value of this current must be less than
the high frequency ripple current rating of the capacitor.
The following formula will give an approximate value for
RMS ripple current. This formula assumes continuous
mode and large inductor value . Small inductors will give
somewhat higher ripple current, especially in discontinu-
ous mode. The exact formulas are very complex and
appear in Application Note 44, pages 30 and 31. For our
purposes here I have simply added a fudge factor (ff). The
value for ff is about 1.2 for higher load currents and
L 10 H. It increases to about 2.0 for smaller inductors at
lower load currents.
ff = Fudge factor
26
1
Normally, Jamoca Almond
Capacitor
I
RMS
1
(1.2 to 2.0)
U
ff I
INFORMATION
OUT
U
V
V
OUT
IN
W
U
Diode Current
Average diode current is equal to load current. Peak diode
current will be considerably higher.
Peak diode current:
Keep in mind that during start-up and output overloads,
average diode current may be much higher than with
normal loads. Care should be used if diodes rated less than
1A are used, especially if continuous overload conditions
must be tolerated.
Dual Output SEPIC Converter
The circuit in Figure 20 generates both positive and
negative 5V outputs with a single piece of magnetics. The
two inductors shown are actually just two windings on a
standard Coiltronics inductor. The topology for the 5V
output is a standard buck converter. The – 5V topology
would be a simple flyback winding coupled to the buck
converter if C4 were not present. C4 creates the SEPIC
(Single-Ended Primary Inductance Converter) topology
which improves regulation and reduces ripple current in
L1. For details on this circuit see Design Note 100.
I
Continuous
Discontinuous
OUT
V
IN
V
IN
V
OUT
Mode
Mode =
2
L f V
V
IN
2 I
IN
V
OUT
OUT
L f
V
OUT
V
OUT
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