SC174MLTRT Semtech, SC174MLTRT Datasheet - Page 15
SC174MLTRT
Manufacturer Part Number
SC174MLTRT
Description
IC BUCK SYNC ADJ 4A MLPD-10
Manufacturer
Semtech
Series
EcoSpeed™r
Type
Step-Down (Buck)r
Datasheet
1.SC174MLTRT.pdf
(27 pages)
Specifications of SC174MLTRT
Internal Switch(s)
Yes
Synchronous Rectifier
Yes
Number Of Outputs
1
Voltage - Output
0.75 ~ 5.23 V
Current - Output
4A
Frequency - Switching
200kHz ~ 1MHz
Voltage - Input
3 ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
10-MLPD
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
Other names
SC174MLTR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
SC174MLTRT
Manufacturer:
RichTek
Quantity:
596
Part Number:
SC174MLTRT
Manufacturer:
SEMTECHCORPORATION
Quantity:
20 000
Applications Information (continued)
below 2.7V.
Design Procedure
When designing a switch mode supply the input voltage
range, load current, switching frequency, and inductor
ripple current must be specified.
The maximum input voltage (V
fied input voltage. The minimum input voltage ( V
determined by the lowest input voltage after evaluating
the voltage drops due to connectors, fuses, switches, and
PCB traces.
The following parameters define the design.
There are two values of load current to evaluate — con-
tinuous load current and peak load current. Continuous
load current relates to thermal stresses which drive the
selection of the inductor and input capacitors. Peak load
current determines instantaneous component stresses and
filtering requirements such as inductor saturation, output
capacitors, and design of the current limit circuit.
The following values are used in this design.
Frequency Selection
Selection of the switching frequency requires making a
trade-off between the size and cost of the external filter
components (inductor and output capacitor) and the
power conversion efficiency.
The desired switching frequency is 800kHz which results
from using components selected for optimum size and
cost .
A resistor (R
© 2010 Semtech Corporation
•
•
•
•
•
•
•
•
Nominal output voltage (V
Static or DC output tolerance
Transient response
Maximum load current (I
V
V
f
Load = 4A maximum
SW
IN
OUT
= 5V + 10%
= 800kHz
= 1.0V + 4%
TON
) is used to program the on-time (indirectly
OUT
INMAX
OUT
)
)
) is the highest speci-
INMIN
) is
setting the frequency) using the following equation.
Calculating R
R
Inductor Selection
In order to determine the inductance, the ripple cur-
rent must first be defined. Low inductor values result in
smaller size but create higher ripple current which can
reduce efficiency. Higher inductor values will reduce the
ripple current/voltage and for a given DC resistance are
more efficient. However, larger inductance translates di-
rectly into larger packages and higher cost. Cost, size,
output ripple, and efficiency are all used in the selection
process.
The ripple current will also set the boundary for power-
save operation. The switching will typically enter power-
save mode when the load current decreases to 1/2 of the
ripple current. For example, if ripple current is 4A then
power-save operation will typically start for loads less
than 2A. If ripple current is set at 40% of maximum load
current, then power-save will start for loads less than
20% of maximum current.
The inductor value is typically selected to provide a rip-
ple current that is between 25% to 50% of the maximum
load current. This provides an optimal trade-off between
cost, efficiency, and transient performance.
During the DH on-time, voltage across the inductor is
(V
shown next.
TON
IN
=50kW, we use R
- V
OUT
). The equation for determining inductance is
TON
results in the following solution.
R
TON
L
T
TON
ON
=
=49.9kW in real application.
=
(V
=
25pF
IN
V
-
INMAX
I
V
RIPPLE
1
V
OUT
⋅
OUT
f
SW
)
⋅
×
f
SW
T
ON
SC174
15
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