LTC1147 Linear Technology, LTC1147 Datasheet - Page 8
LTC1147
Manufacturer Part Number
LTC1147
Description
High Efficiency Step-Down Switching Regulator Controllers
Manufacturer
Linear Technology
Datasheet
1.LTC1147.pdf
(16 pages)
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LTC1147-3.3
LTC1147-5/LTC1147L
APPLICATIO S I FOR ATIO
is given by:
where:
V
the measured output voltage. Thus V
regulation.
Note that as V
When the input to output voltage differential drops
below 1.5V, the LTC1147 reduces t
discharge current in C
tion prior to dropout.
Once the frequency has been set by C
must be chosen to provide no more than 25mV/R
of peak-to-peak inductor ripple current. This results in
a minimum required inductor value of:
As the inductor value is increased from the minimum
value, the ESR requirements for the output capacitor
are eased at the expense of efficiency. If too small an
inductor is used, the inductor current will become
discontinuous before the LTC1147 series enters Burst
Mode operation. A consequence of this is that the LTC1147
8
REG
t
f
OFF
L
MIN
is the desired output voltage (i.e., 5V, 3.3V). V
= (1.3)(10
t
OFF
1
= (5.1)(10
1000
800
600
400
200
0
1 –
0
Figure 3. Timing Capacitor Value
IN
V
IN
V
decreases, the frequency decreases.
4
= 7V
V
OUT
U
)(C
5
IN
)(R
100
FREQUENCY (kHz)
T
T
)
SENSE
. This prevents audible opera-
V
V
U
REG
OUT
V
IN
V
SENSE –
)(C
= 12V
200
T
)(V
= V
W
V
OFF
IN
OUT
REG
= 10V
LTC1147 • F03
by increasing the
= 5V
REG
T
, the inductor L
)
300
/V
OUT
U
= 1 in
OUT
SENSE
is
series will delay entering Burst Mode operation and effi-
ciency will be degraded at low currents.
Inductor Core Selection
Once the minimum value for L is known, the type of
inductor must be selected. Highest efficiency will be
obtained using ferrite, Kool M
molypermalloy (MPP) cores. Lower cost powdered iron
cores provide suitable performance but cut efficiency by
3% to 5%. Actual core loss is independent of core size for
a fixed inductor value, but it is very dependent on induc-
tance selected. As inductance increases, core losses go
down. Unfortunately, increased inductance requires more
turns of wire and therefore copper losses will increase.
Ferrite designs have very low core loss, so design goals
can concentrate on copper loss and preventing satura-
tion. 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 which can cause Burst Mode operation to be
falsely triggered in the LTC1147. Do not allow the core
to saturate!
Kool M is a very good, low loss core material for toroids
with a “soft” saturation characteristic. Molypermalloy is
slightly more efficient at high (>200kHz) switching fre-
quencies but quite a bit more expensive. Toroids are very
space efficient, especially when you can use several
layers of wire. Because they generally lack a bobbin,
mounting is more difficult. However, new designs for
surface mount are available from Coiltronics, Sumida and
Beckman Industrial Corp. which do not increase the
height significantly.
Power MOSFET Selection
An external P-channel power MOSFET must be selected
for use with the LTC1147 series. The main selection
criteria for the power MOSFET are the threshold voltage
V
The minimum input voltage determines whether a stan-
dard threshold or logic-level threshold MOSFET must be
Kool M is a registered trademark of Magnetics, Inc.
GS(TH)
and “on” resistance R
DS(ON)
®
(from Magnetics, Inc.) or
.
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