LTC1872ES6 LINER [Linear Technology], LTC1872ES6 Datasheet - Page 6
LTC1872ES6
Manufacturer Part Number
LTC1872ES6
Description
Constant Frequency Current Mode Step-Up DC/DC Controller in SOT-23
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC1872ES6.pdf
(12 pages)
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LTC1872
APPLICATIONS
The basic LTC1872 application circuit is shown in
Figure 1. External component selection is driven by the
load requirement and begins with the selection of L1 and
R
diode D1 is selected followed by C
R
R
With the current comparator monitoring the voltage devel-
oped across R
determines the inductor’s peak current. The output cur-
rent the LTC1872 can provide is given by:
where I
(see Inductor Value Calculation section) and V
forward drop of the output diode at the full rated output
current.
A reasonable starting point for setting ripple current is:
Rearranging the above equation, it becomes:
However, for operation that is above 40% duty cycle, slope
compensation’s effect has to be taken into consideration
to select the appropriate value to provide the required
amount of current. Using the scaling factor (SF, in %) in
Figure 2, the value of R
6
SENSE
SENSE
SENSE
I
I
R
R
for Duty Cycle < 40%
RIPPLE
OUT
SENSE
SENSE
RIPPLE
(= R1). Next, the power MOSFET and the output
Selection for Output Current
is chosen based on the required output current.
R
0 12
SENSE
O
10
10
is the inductor peak-to-peak ripple current
.
SENSE
.4
1
I
I
I
OUT
U
OUT
OUT
SF
, the threshold of the comparator
I
RIPPLE
SENSE
100
INFORMATION
V
2
V
U
OUT
OUT
V
V
is:
IN
IN
V
V
OUT
OUT
IN
V
V
D
(= C1) and C
V
D
V
W
IN
IN
V
V
D
D
OUT
U
D
(= C2).
is the
Inductor Value Calculation
The operating frequency and inductor selection are inter-
related in that higher operating frequencies permit the use
of a smaller inductor for the same amount of inductor
ripple current. However, this is at the expense of efficiency
due to an increase in MOSFET gate charge losses.
The inductance value also has a direct effect on ripple
current. The ripple current, I
inductance or frequency and increases with higher V
The inductor’s peak-to-peak ripple current is given by:
where f is the operating frequency. Accepting larger values
of I
higher output voltage ripple and greater core losses. A
reasonable starting point for setting ripple current is:
In Burst Mode operation, the ripple current is normally set
such that the inductor current is continuous during the
burst periods. Therefore, the peak-to-peak ripple current
must not exceed:
This implies a minimum inductance of:
A smaller value than L
however, the inductor current will not be continuous
during burst periods.
I
I
I
L
RIPPLE
RIPPLE
RIPPLE
RIPPLE
MIN
allows the use of low inductances, but results in
f
0 4 .
R
f L
V
R
0 03
SENSE
IN
0 03
SENSE
V
.
.
IN
I
OUT MAX
V
OUT
V
OUT
MIN
V
OUT
V
V
RIPPLE
could be used in the circuit;
D
OUT
V
V
D
OUT
V
V
IN
D
, decreases with higher
V
V
IN
D
V
V
IN
D
OUT
.
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