ml4894 Microsemi Corporation, ml4894 Datasheet - Page 6
ml4894
Manufacturer Part Number
ml4894
Description
Synchronous Buck Controller
Manufacturer
Microsemi Corporation
Datasheet
1.ML4894.pdf
(10 pages)
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Part Number:
ml4894ES
Manufacturer:
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ML4894
DESIGN CONSIDERATIONS
A typical design can be implemented by using the
following design procedure. Note that this procedure is
not intended to give final values, but to give a good
starting point, and provide the relationships necessary to
make trade-off decisions. Some experimentation will be
necessary to optimize values and to verify that the design
operates over worst case conditions.
DESIGN SPECIFICATIONS
It is important to start with a clear definition of the design
specifications. Make sure the specifications reflect worst
case conditions. Key specifications include the minimum
and maximum input voltage and the output voltage and
load current.
INDUCTOR AND SENSE RESISTOR SELECTION
Figure 5 shows the inductor current of the buck regulator.
The inductor current is made up of two components: the
DC current level set by the transconductance amplifier,
I
shows that I
Therefore, the selection of the inductance value
determines how much of the output current is made up of
the ripple current. Higher inductor ripple current allows
smaller inductor values, but results in higher peak
currents, lower efficiency, and higher output voltage
ripple.
Inductor ripple currents in the range of 30% to 70% of the
maximum output current are typical. As a good starting
point, set the inductor ripple current to 50% of the
maximum output current:
6
SENSE
I
OUT
, and the inductor ripple current, I
I
OUT
SENSE
is the summation of I
INDUCTOR CURRENT (I L )
2
1
I
L
Q (ONE SHOT)
R
V
SENSE
SENSE
t ON
V SR
Figure 4. One Shot and Synchronous Rectifier Timing
V C
T
ON
SENSE
L
2
. The figure also
b
and ½ I
V
IN
L
5
V
L
g
.
(3)
where FIRC = ratio of inductor ripple current to the
maximum output current, or:
Calculate the inductance using the volt-seconds value
given in Figure 3 at the maximum input voltage. Choose
the nearest standard value, realizing the trade-offs
mentioned before. Then, using the inductance value
chosen, determine the actual inductor ripple current at
the maximum and minimum input voltage using Equation
4 and Figure 3.
The sense resistor value can be determined using the
inductor ripple current value calculated above and
Equation 3 rearranged as follows:
Having determined the values for the inductor and sense
resistor, we can now specify the inductor peak current
rating. This value is calculated at current limit and at the
maximum input voltage, and is given by:
L
R
I
I
I
LPEA K M AX
L PEAK MAX
L PEAK MAX
c
(
c
SENSE
I
L
a f
T
0 5
(
ON
a
T
.
h
ON
I
OUT MAX
))
f
V
h
SEN SE M AX
I
b
R
OU T M A X
V
SEN SE
(
I
b
R
SENSE MAX
IN
V
V
a f
L
01 .
SENSE
IN
SENSE MIN
(
)
V
(
5
(
5
V
)
1
2
I
L M AX
V
a f
g
)
g
)
I
L MIN
I
L MAX
(
a
F
I
L MAX
IRC
)
(
f
)
I
OUT MAX
(
)
(4)
(5)
(6)
(7)
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