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SC1566 Datasheet(PDF) 6 Page - Semtech Corporation

Part No. SC1566
Description  Very Low Dropout 3.0 Amp Regulator With Enable
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Maker  SEMTECH [Semtech Corporation]
Homepage  http://www.semtech.com
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SC1566 Datasheet(HTML) 6 Page - Semtech Corporation

   
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ã 2001 Semtech Corp.
www.semtech.com
SC1566
POWER MANAGEMENT
Introduction
The SC1566 is intended for applications such as
graphics cards where high current capability and very low
dropout voltage are required. It provides a very simple,
low cost solution that uses very little pcb real estate and
typically does not require a heatsink. Additional features
include an enable pin to allow for a very low power
consumption standby mode, and a fully adjustable
output (5-pin versions).
Component Selection
Input capacitor: a 4.7µF or 10µF ceramic capacitor is
recommended. This allows for the device being some
distance from any bulk capacitance on the rail.
Additionally, input droop due to load transients is reduced,
improving load transient response. Additional capacitance
may be added if required by the application.
Output capacitor: a minimum bulk capacitance of 22µF,
along with a 0.1µF ceramic decoupling capacitor is
recommended. Increasing the bulk capacitance will
improve the overall transient response. The use of
multiple lower value ceramic capacitors in parallel to
achieve the desired bulk capacitance will not cause
stability issues. Although designed for use with ceramic
output capacitors, the SC1566 is extremely tolerant of
output capacitor ESR values and thus will also work
comfortably with tantalum output capacitors.
Applications Information
External voltage selection resistors (5-pin parts): the
use of 1% resistors, and designing for a current flow
³ 10µA is recommended to ensure a well regulated
output (thus R2 £ 120kW).
Thermal Considerations
The power dissipation in the SC1566 is approximately
equal to the product of the output current and the input
to output voltage differential:
()
O
D
I
VOUT
VIN
P
The absolute worst-case dissipation is given by:
(
)
)
MAX
(
Q
)
MAX
(
)
MAX
(
O
)
MIN
(
)
MAX
(
)
MAX
(
D
I
VIN
I
VOUT
VIN
P
+
=
For a typical scenario, V
IN = 3.3V ± 5%, VOUT = 2.8V and
I
O = 2.5A, therefore:
V
IN(MAX) = 3.465V, VOUT(MIN) = 2.744V and IQ(MAX) = 1.75mA,
Thus P
D(MAX) = 1.81W.
Using this figure, and assuming T
A(MAX) = 85°C, we can
calculate the maximum thermal impedance allowable to
maintain T
J £ 150°C (see page 7):
Typical Characteristics (Cont.)
Quiescent Current vs.
Junction Temperature
Off-State Quiescent Current vs.
Junction Temperature
600
610
620
630
640
650
660
670
680
690
700
-50
-25
0
25
50
75
100
125
150
TJ (°C)
VIN = 3.3V
0
2
4
6
8
10
12
-50
-25
0
25
50
75
100
125
150
TJ (°C)
VIN = 5.5V


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