SC4524ASETRT Semtech, SC4524ASETRT Datasheet - Page 14
SC4524ASETRT
Manufacturer Part Number
SC4524ASETRT
Description
IC STEP-DWN SW REG 2A 28V 8-SOIC
Manufacturer
Semtech
Type
Step-Down (Buck)r
Datasheet
1.SC4524ASETRT.pdf
(19 pages)
Specifications of SC4524ASETRT
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Current - Output
2A
Frequency - Switching
300kHz ~ 1.3MHz
Voltage - Input
3 ~ 28 V
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Package / Case
8-SOIC
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Output
-
Power - Output
-
Other names
SC4524ASETR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
SC4524ASETRT
Manufacturer:
ATMEL
Quantity:
6 700
Company:
Part Number:
SC4524ASETRT
Manufacturer:
Semtech
Quantity:
37 170
Part Number:
SC4524ASETRT
Manufacturer:
SEMTECH/美国升特
Quantity:
20 000
Applications Information (Cont.)
(3) Place the compensator zero, F
20% of the crossover frequency, F
(4) Use the compensator pole, F
F
(5) Then, the parameters of the compensation network
can be calculated by
where g
Example: Determine the voltage compensator for an
800kHz, 2V to 3.3V/2A converter with 22uF ceramic
output capacitor.
Choose a loop gain crossover frequency of 80kHz, and
place voltage compensator zero and pole at F
(20% of F
required compensator gain at F
Then the compensator parameters are
Select R
Compensator parameters for various typical applications
are listed in Table 4. A MathCAD program is also available
upon request for detailed calculation of the compensator
parameters.
Z
R
R
C
C
C
C
G
G
R
R
C
C
C
C
A
A
A
A
V
V
V
V
.
7
7
5
5
o
o
c
c
PWM
PWM
7
7
5
5
C
C
C
C
8
8
8
8
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
0
0
. 0
. 0
(
(
−
−
−
−
2
2
2
2
2
2
2
2
≈
≈
g
g
R
R
C
C
C
C
G
G
R
R
C
C
G
G
R
R
C
C
C
C
A
A
A
A
⋅ π
⋅ π
C
C
⋅ π
⋅ π
V
V
V
V
π
π
π
π
V
V
V
V
20
20
20
20
28
28
+
+
G
G
m
m
0
0
A
A
20
20
F
F
F
F
7
7
7
7
7
o
o
c
c
PWM
PWM
7
7
5
5
8
8
o
o
c
c
PWM
PWM
5
5
8
8
m
C
C
C
C
5
5
8
8
5
5
C
C
CA
CA
6
6
600
600
/ s
/ s
=22.k, C
Z
Z
P
P
=0.28mA/V is the EA gain of the SC4524A.
⋅
⋅
⋅
⋅
⋅
⋅
R
R
=
=
=
=
=
=
=
=
=
=
5
5
=
=
=
=
=
=
=
=
=
=
=
=
=
=
log
log
log
log
0
0
=
=
20
20
⋅
⋅
R
R
R
R
G
G
9 .
9 .
ω
ω
R
R
C
⋅
⋅
0
0
7
7
0
0
7
7
0
0
), and F
. 0
. 0
PWM
PWM
(
(
(
(
2
2
S
S
2
2
2
2
2
2
2
2
2
2
−
−
−
−
2
2
p
p
≈
≈
⋅
⋅
≈
≈
−
−
0
0
g
g
g
g
( )
( )
3
3
,
,
G
G
28
28
⋅ π
⋅ π
⋅ π
⋅ π
π
π
⋅ π
⋅ π
π
π
π
π
20
20
20
20
28
28
⋅ π
⋅ π
3
3
G
G
G
G
+
+
m
m
+
+
m
m
0
0
=
=
(
(
CA
CA
A
A
A
A
20
20
F
F
20
20
F
F
F
F
3
3
⋅
⋅
+
+
C
C
C
C
CA
CA
CA
CA
⋅
⋅
22
22
22
22
6
6
6
6
600
600
R
R
600
600
/ s
/ s
/ s
/ s
Z
Z
P
P
⋅
⋅
+
+
6
6
/ s
/ s
⋅
⋅
⋅
⋅
⋅
⋅
22
22
R
R
R
R
S
S
5
5
.
.
R s
R s
5
log
log
log
log
0
0
⋅
⋅
.
.
20
20
.
.
⋅
⋅
R
R
R
R
R
R
k 3
k 3
⋅
⋅
=0.47nF, and C
G
G
G
G
R
R
9 .
9 .
ω
ω
R
R
ω
ω
ω
ω
⋅
⋅
.
.
⋅
⋅
2
2
⋅
⋅
ESR
ESR
7
7
⋅
⋅
0
0
0
0
7
7
n
n
PWM
PWM
0
0
PWM
PWM
ω
ω
S
S
S
S
P
0
0
p
p
⋅
⋅
p
p
π
π
⋅
⋅
Q
Q
−
−
⋅
⋅
0
0
0
0
F
F
p
p
( )
( )
0
0
( )
( )
3
3
C
C
,
,
,
,
=600kHz. From Equation (9), the
G
G
28
28
+
+
C
C
−
−
≈
≈
3
3
3
3
O
O
3
3
3
3
C
C
s
s
(
(
=
=
(
(
CA
CA
3
3
)
)
R
R
=
=
O
O
3
3
3
3
⋅
⋅
2
2
⋅
⋅
⋅
⋅
+
+
+
+
C
C
=
=
2
2
⋅
⋅
22
22
22
22
. 0
. 0
22
22
R
R
/
/
⋅
⋅
⋅
⋅
⋅
⋅
+
+
+
+
O
O
⋅ π
⋅ π
6
6
/ s
/ s
/ s
/ s
2
2
ω
ω
V
V
22
22
22
22
V
V
45
45
S
S
,
,
FB
FB
.
.
2
2
n
n
R s
R s
R s
R s
O
O
.
.
.
.
.
.
80
80
pF
pF
)
)
k 3
k 3
⋅
⋅
nF
nF
ω
ω
ω
ω
.
.
.
.
2
2
⋅
⋅
ESR
ESR
ESR
ESR
⋅
⋅
⋅
⋅
⋅
⋅
n
n
n
n
0
0
C
ω
ω
ω
ω
0
0
0
0
0
0
π
π
P
Q
Q
Q
Q
⋅
⋅
⋅
⋅
is
p
p
p
p
F
F
0
0
0
0
8
C
C
, to cancel the ESR zero,
C
C
C
3
3
=0pF for the design.
+
+
+
+
C
C
−
−
.
≈
≈
≈
≈
3
3
3
3
O
O
O
O
Z
⋅
⋅
3
3
ω
ω
C
C
s
s
22
22
s
s
)
)
3
3
)
)
3
3
Z
Z
R
R
R
R
, between 0% and
=
=
O
O
⋅
⋅
2
2
2
2
P
P
P
P
P
P
P
P
P
P
P
P
=
=
C
C
C
C
2
2
=
=
=
=
⋅
⋅
. 0
. 0
TOTAL
TOTAL
C
C
SW
SW
BST
BST
D
D
IND
IND
/
/
/
/
⋅
⋅
0
0
R
R
O
O
O
O
⋅ π
⋅ π
2
2
2
2
ω
ω
ω
ω
V
V
ESR
ESR
=
=
=
=
V
V
45
45
,
,
,
,
−
−
FB
FB
n
n
2
2
n
n
O
O
=
=
2
2
6
6
=
=
D
D
=
=
(
(
C
C
80
80
pF
pF
pF
pF
)
)
)
)
⋅
⋅
nF
nF
O
O
=
=
(
(
2
2
D
D
⋅
⋅
3
3
,
,
−
−
V
V
0 .
0 .
P
P
3 .
3 .
⋅
⋅
.
.
⋅
⋅
⋅
⋅
CESAT
CESAT
0
0
) D
) D
C
C
t
t
V
V
S
S
Z
BST
BST
~
~
=
=
+
+
⋅
⋅
=6kHz
3
3
5
5
⋅
⋅
P
P
V
V
V
V
ω
ω
⋅
⋅
ω
ω
⋅
⋅
⋅
⋅
D
D
3 .
3 .
SW
SW
9 .
9 .
IN
IN
22
22
I
I
40
40
O
O
Z
Z
Z
Z
I
I
⋅
⋅
dB
dB
I )
I )
O
O
⋅
⋅
I
I
⋅
⋅
=
=
=
=
+
+
O
O
I
I
⋅
⋅
O
O
2
2
O
O
0
0
P
P
R
R
R
R
⋅
⋅
BST
BST
⋅
⋅
ESR
ESR
F
F
ESR
ESR
R
R
−
−
SW
SW
6
6
DC
DC
C
C
C
C
+
+
Thermal Considerations
For the power transistor inside the SC4524A, the
conduction loss P
circuit loss P
where V
switching time of the NPN transistor (see Table 3).
In addition, the quiescent current loss is
The total power loss of the SC4524A is therefore
The temperature rise of the SC4524A is the product of the
total power dissipation (Equation (2)) and q
which is the thermal impedance from junction to ambient
for the SOIC-8 EDP package.
It is not recommended to operate the SC4524A above
25
input voltage and high output current, the switching
frequency may need to be reduced to meet the thermal
requirement.
⋅
⋅
O
O
O
O
P
P
3
3
,
,
,
,
Q
Q
0 .
0 .
3 .
3 .
o
C junction temperature. In the applications with high
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
Table 3. Typical switching time
=
=
C
C
BST
BST
D
D
IND
IND
C
C
BST
BST
D
D
IND
IND
TOTAL
TOTAL
SW
SW
Q
Q
TOTAL
TOTAL
SW
SW
BST
5
5
=
=
=
=
Input Voltage
=
=
=
=
=
=
is the BST supply voltage and t
=
=
=
=
=
=
=
=
=
=
D
D
D
D
=
=
(
(
(
(
V
V
9 .
9 .
BST,
=
=
(
(
=
=
(
(
2
2
D
D
IN
IN
2
2
D
D
⋅
⋅
⋅
⋅
12V
24V
28V
−
−
−
−
dB
dB
V
V
V
V
P
P
P
P
.
.
.
.
⋅
⋅
⋅
⋅
⋅
⋅
⋅
⋅
⋅
⋅
can be estimated as follows:
CESAT
CESAT
CESAT
CESAT
C
C
) D
) D
C
C
) D
) D
2
2
t
t
V
V
t
t
V
V
S
S
S
S
BST
BST
mA
mA
BST
BST
~
~
~
~
+
+
+
+
C
⋅
⋅
⋅
⋅
⋅
⋅
⋅
⋅
, the switching loss P
P
P
V
V
P
P
V
V
V
V
V
V
⋅
⋅
⋅
⋅
D
D
3 .
3 .
⋅
⋅
⋅
⋅
D
D
3 .
3 .
SW
SW
SW
SW
IN
IN
IN
IN
I
I
I
I
40
40
40
40
O
O
O
O
I
I
⋅
⋅
I
I
⋅
⋅
I )
I )
I )
I )
O
O
O
O
⋅
⋅
⋅
⋅
I
I
I
I
⋅
⋅
⋅
⋅
+
+
+
+
I
I
O
O
O
O
I
I
O
O
O
O
12.5ns
25.3ns
2
2
O
O
2
2
O
O
P
P
P
P
22ns
⋅
⋅
Load Current
⋅
⋅
1A
BST
BST
BST
BST
⋅
⋅
⋅
⋅
F
F
F
F
R
R
R
R
SW
SW
SW
SW
DC
DC
DC
DC
+
+
+
+
P
P
P
P
Q
Q
15.3ns
Q
Q
25ns
28ns
2A
P
P
P
P
Q
Q
Q
Q
SW
=
=
=
=
S
is the equivalent
, and bootstrap
V
V
V
V
IN
IN
IN
IN
⋅
⋅
⋅
⋅
JA
2
2
2
2
mA
mA
(0)
()
mA
mA
(2)
(36
o
C/W),
4
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