SC1548CSK.TR Semtech, SC1548CSK.TR Datasheet - Page 13

SC1548CSK.TR

Manufacturer Part Number

SC1548CSK.TR

Description

Manufacturer

Semtech

Datasheet

1.SC1548CSK.TR.pdf (14 pages)

Specifications of SC1548CSK.TR

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Please see Table 1 below for recommended resistor

values for some standard output voltages. All resistors

are 1%, 1/10W.

The maximum output voltage that can be obtained from

the adjustable option is determined by the input supply

voltage and the R

external MOSFET. Assuming that the MOSFET gate

threshold voltage is sufficiently low for the output

voltage chosen and a worst-case drive voltage of 9V,

Short Circuit Protection

The short circuit protection feature of the SC1548 is

implemented by using the R

output current increases, the regulation loop maintains

the output voltage by turning the FET on more and more.

Eventually, as the R

will be unable to turn on any further, and the output

voltage will start to fall. When the output voltage falls to

approximately 50% of nominal, the LDO controller is

latched off, setting output voltage to 0V. Toggling the

enable pin or cycling the power will reset the latch.

To prevent false latching due to capacitor inrush currents

or low supply rails, the current limit latch is initially

disabled. It is enabled at a preset time (nominally 5ms)

after both IN and EN rise above their lockout points. If

EN is left floating (using the internal resistor pullup), then

off. If the enable function is not being used, EN should

be tied to V

POWER MANAGEMENT

Applications Infomation (Cont.)

Table 1: Recommended Resistor Values For SC1548

OUT(MAX)

PWR

OUT

2004 Semtech Corp.

(

should come up before V

MAX

is given by:

)

5 .

8 .

0 .

3 .

5 .

8 .

(

PWR

)

(

MIN

DS(ON)

)

DS(ON)

OUT

and gate threshold voltage of the

(

MAX

limit is reached, the MOSFET

)

DS(ON)

(

2 .

7 .

6 .

)

, or the device will latch

(

of the MOSFET. As the

)(

MAX

)

(

)

To be most effective, the MOSFET R

selected artificially low. The MOSFET should be

chosen so that at maximum required current, it is almost

fully turned on. If, for example, a supply of 1.5V at 4A is

required from a 3.3V ± 5% rail, the maximum allowable

To allow for temperature effects 200m

suitable room temperature maximum, allowing a peak

short circuit current of approximately 15A for a short time

before shutdown.

Capacitor Selection

Output Capacitors: low ESR aluminum electrolytic or tan-

talum capacitors are recommended for bulk

capacitance, with ceramic bypass capacitors for

decoupling high frequency transients.

Input Capacitors: placement of low ESR aluminum

electrolytic or tantalum capacitors at the input to the

MOSFET (V

during fast load changes, thus improving overall transient

response. The 12V supply should be bypassed with a

0.1µF ceramic capacitor.

Layout Guidelines

One of the advantages of using the SC1548 to drive an

external MOSFET is that the bandgap reference and

control circuitry do not need to be located right next to

the power device, thus a very accurate output voltage

can be obtained since heating effects will be minimal.

The 0.1µF bypass capacitor should be located close to

the supply pin, and connected directly to the ground plane.

The ground pin of the device should also be connected

directly to the ground plane. The sense or adjust pin does

not need to be close to the output voltage plane, but

should be routed to avoid noisy traces if at all possible.

Power dissipation within the device is practically

negligible, requiring no special consideration during

layout.

DS(ON)

(

)(

would be:

MAX

)

PWR

. 0

) will help to hold up the power supply

3 .

5 .

. 1

025

400

DS(ON)

SC1548

www.semtech.com

should not be

would be a

SC1548CSK.TR Semtech, SC1548CSK.TR Datasheet - Page 13

SC1548CSK.TR

Specifications of SC1548CSK.TR

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