APL158115FC-TRL ANPEC [Anpec Electronics Coropration], APL158115FC-TRL Datasheet - Page 10

APL158115FC-TRL

Manufacturer Part Number

APL158115FC-TRL

Description

DUAL INPUT LOW DROPOUT REGULATOR

Manufacturer

ANPEC [Anpec Electronics Coropration]

Datasheet

1.APL158115FC-TRL.pdf (17 pages)

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APL1581

Stability and Output Capacitors (Cont.)

A low-ESR solid tantalum and aluminum electrolytic

capacitor (ESR<1 ) works extremely well and provides

good transient response and stability over temperature.

Ultra-low-ESR capacitors, such as ceramic chip

capacitors, may promote unstable or under-damped

transient response, but proper ceramic chip capaci-

tors placed near loads can be used as decoupling

capacitors.

The output capacitors are also used to reduce the slew

rate of load current and help the APL1581 to minimize

variations of the output voltage, improving transient

response. For this purpose, the low-ESR capacitors

are recommended.

Input Capacitors

The input capacitors of VCNTL and VIN pins are not

required for stability but for supplying surge currents

during large load transients, and this will prevent the

input rail from drooping and improve the performance

of the APL1581. Because parasitic inductors from volt-

age sources or other bulk capacitors to the VCNTL

and VIN pins will limit the slew rate of the surge cur-

rents during large load transients, resulting in voltage

drop at VIN and VCNTL pins.

A capacitor of 1 F (ceramic chip capacitor) or greater

(aluminum electrolytic capacitor) is recommended and

connected near VCNTL pin. For VIN pin, an aluminum

electrolytic capacitor (>33 F) is recommended. It is

not necessary to use low-ESR capacitors. More ca-

pacitance reduces the variations of the input voltage

at VIN pin.

Layout and Thermal Consideration

The APL1581 series have internal power and thermal

limiting (T

tect the device under overload conditions. However,

maximum junction temperature ratings should not be

Rev. B.5 - Mar., 2008

Application Information (Cont.)

=150

ANPEC Electronics Corp.

C typical) circuitry designed to pro-

exceeded under continuous normal load conditions.

Careful consideration must be given to all sources of

thermal resistance from junction to ambient, includ-

ing junction-to-case, case-to-heat sink interface, and

heat sink resistance itself.

See Figure 3 The SOP-8P is a cost-effective package

featuring a small size as a standard SOP-8 and a

bottom thermal pad to minimize the thermal resistance

of the package, being applicable to high current

applications. The thermal pad is soldered to the top

VOUT plane which may be connected to internal or

bottom VOUT plane by vias to reduce the heat sink

thermal resistance. Therefore, the printed circuit board

(PCB) forms a heat sink and dissipates heat into am-

bient air.

V i a s

S o l d e ri n g a re a

for bottom p a d

(1 4 0 m i l x

Figure 3 Recommended SOP-8P Layout

1 1 0 m i l )

(L a rg e r a re a i s better)

for Heat Dissi p a t i o n

V O U T p l a n e

T o p l a y e r

C N T L

www.anpec.com.tw

V i a s

Load

OUT

APL158115FC-TRL ANPEC [Anpec Electronics Coropration], APL158115FC-TRL Datasheet - Page 10

APL158115FC-TRL

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