參數(shù)資料
型號(hào): MIC2141-BM5
廠商: MICREL INC
元件分類(lèi): 穩(wěn)壓器
英文描述: Micropower Boost Converter Preliminary Information
中文描述: SWITCHING REGULATOR, 360 kHz SWITCHING FREQ-MAX, PDSO5
封裝: SOT-23, 5 PIN
文件頁(yè)數(shù): 7/16頁(yè)
文件大?。?/td> 154K
代理商: MIC2141-BM5
June 2000
7
MIC2141
MIC2141
Application Information
Predesigned circuit information is at the end of this section.
Component Selection
Boost Inductor
Maximum power is delivered to the load when the oscillator
is gated on100% of the time. Total output power and circuit
efficiency must be considered when determining the maxi-
mum inductor. The largest inductor possible is preferable in
order to minimize the peak current and output ripple. Effi-
ciency can vary from 80% to 90% depending upon input
voltage, output voltage, load current, inductor, and output
diode.
Equation 1 solves for the output current capability for a given
inductor value and expected efficiency. Figures 5 through 9
graph estimates for maximum output current, assuming the
minimum duty cycle, maximum frequency, and 85% effi-
ciency. To determine the required inductance, find the inter-
section between the output voltage and current and select the
value of the inductor curve just above the intersection. If the
efficiency is expected to be other than the 85% used for the
graph, Equation 1 can then be used to better determine the
maximum output capability.
)
Micrel
(1)
I
V
2L
T
V
eff
V
O(max)
IN(min) ON
MAX
S
O
IN min
=
(
×
)
2
1
The peak inductor and switch current can be calculated from
Equation 2 or read from the graph in Figure 10. The peak
current shown in Figure 10 is derived assuming a maximum
duty cycle and a minimum frequency. The selected inductor
and diode peak current capability must exceed this value.
The peak current seen by the inductor is calculated at the
maximum input voltage. A wider input voltage range will result
in a higher worst-case peak current in the inductor. This effect
can be seen in Table 4 by comparing the difference between
the peak current at V
IN(min)
and V
IN(max)
.
t
V
PK
MIN
DCM/CCM Boundary
Equation 3 solves for the point at which the inductor current
will transition from DCM (discontinuous conduction mode) to
(2)
I
L
ON max
IN max
=
)
)
CCM (continuous conduction mode). As the input voltage is
raised above this level the inductor has a potential for
developing a dc component while the oscillator is gated on.
Table 1 display the input points at which the inductor current
can possibly operate in the CCM region. Operation in this
region can result in a peak current slightly higher than
displayed Table 4.
(
(3)
V
V
V
1 D
(
IN ccm
OUT
FWD
)
=
+
)
+
)
Table 2 lists common inductors suitable for most applica-
tions. Table 6 lists minimum inductor sizes versus input and
output voltage. In low-cost, low-peak-current applications,
RF-type leaded inductors may sufficient. All inductors listed
in Table 4 can be found within the selection of CR32- or
LQH4C-series inductors from either Sumida or muRata.
r
e
r
u
t
a
R
d
m
r
M
.
t
C
a
u
u
m
u
S
W
.
n
a
M
s
C
2
F
0
e
e
3
C
1
R
C
7
9
S
e
t
u
t
u
d
e
d
e
p
y
o
o
d
d
T
m
m
a
a
e
e
e
c
e
a
s
a
s
e
a
e
a
D
C
4
H
Q
L
c
c
a
3
Table 2. Inductor Examples
Boost Output Diode
Speed, forward voltage, and reverse current are very impor-
tant in selecting the output diode. In the boost configuration,
the average diode current is the same as the average load
current. (The peak current is the same as the peak inductor
current and can be derived from Equation 2 or Figure 10.)
Care must be take to make sure that the peak current is
evaluated at the maximum input voltage.
e
d
o
D
5
7
C
°
V
D
W
F
t
0
0
A
m
1
C
°
5
2
V
D
W
F
t
0
0
A
m
1
m
.
g
a
V
5
o
m
k
1
o
e
a
R
T
e
t
e
L
C
a
5
°
5
a
7
e
t
e
g
V
k
1
L
e
g
a
k
c
a
P
0
3
5
0
R
B
M
V
5
7
2
V
5
2
3
A
μ
5
A
μ
0
9
3
2
1
T
e
M
S
D
M
d
a
d
O
S
S
8
4
1
4
N
1
V
C
°
V
C
°
4
C
°
6
7
1
4
8
5
8
)
5
V
5
9
A
V
A
n
V
5
n
5
2
2
1
2
)
0
A
)
μ
V
A
V
A
5
°
2
2
1
2
2
8
0
μ
0
μ
d
e
n
a
T
4
5
T
A
B
)
5
V
5
4
0
)
)
T
M
S
5
8
T
A
B
)
5
V
6
5
A
μ
4
)
C
4
d
3
d
O
a
D
e
e
Table 3. Diode Examples
As can be seen in the
Typical Characteristics: Efficiency
graph, the output diode type can have an effect on circuit
efficiency. The BAT54- and BAT85-series diodes are low-
current Shottky diodes available from On Semiconductor and
Phillips, respectively. They are suitable for peak repetitive
currents of 300mA or less with good reverse current charac-
teristics. For applications that are cost driven, the 1N4148, or
equivalent, will provide sufficient switching speed with greater
forward drop and reduced cost. Other acceptable diodes are
On Semiconductor
s MBR0530 or Vishay
s B0530, although
they can have reverse currents that exceed 1mA at very high
junction temperatures. Table 3 summarizes some typical
performance characteristics of various suitable diodes.
V
3
0
0
0
1
0
1
0
1
0
2
0
2
T
U
V
V
V
O
V
)
M
C
V
4
V
0
V
0
V
V
V
V
V
C
(
N
I
0
4
6
0
1
4
1
2
1
4
1
0
1
V
V
V
V
V
Table 1. DCM/CCM Boundary
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