APL5325 データシートの表示（PDF） - Anpec Electronics

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APL5325

Adjustable Low Dropout 300mA Linear Regulator

Anpec Electronics 

APL5325

Application Information

Input Capacitor

The APL5325 requires proper input capacitors to supply

surge current during stepping load transients to prevent

the input rail from dropping . Because the parasitic induc-

tor from the voltage sources or other bulk capacitors to

the VIN limit the slew rate of the surge current, place the

Input capacitors near VIN as close as possible. Input ca-

pacitors should be larger than 1µF and a minimum ce-

ramic capacitor of 1µF is necessary.

Output Capacitor

The APL5325 needs a proper output capacitor to main-

tain circuit stability and to improve transient response over

temperature and current. In order to insure the circuit

stability, the proper output capacitor value should be larger

than 2.2µF. With X5R and X7R dielectrics, 2.2µF is suffi-

cient at all operating temperatures. Large output capaci-

tor value can reduce noise and improve load-transient

response and PSRR, however, it also affects power on

issue. Equation (1) shows the relationship between the

maximum C value and the V .

OUT

OUT

C OUT(max)

= 101 −

19.5

VOUT

Where

the

unit

of

C

OUT

is

µF

and

V

OUT

is

V.

Figure 1 shows

the curve of maximum output capacitor over the output

voltage. The output voltage range is from 0.8 to 5.5V and

the output capacitor value should under the line. Output

capacitors must be placed at the load and the ground pin

as close as possible and the impedance of the layout

must be minimized.

120

110

100

90

80

70

60

0

1

2

3

4

5

6

Output Voltage (V)

Figure 1

Operation Region and Power Dissipation

The APL5325 maximum power dissipation depends on

the thermal resistance and temperature difference be-

tween the die junction and ambient air. The power dissi-

pation PD across the device is:

PD

=

(TJ

-

TA)

/

θ

JA

where (T -T ) is the temperature difference between the

JA

junction and ambient air. θ is the thermal resistance

JA

between Junction and ambient air. Assuming the

TA=25oC and maximum TJ=160oC (typical thermal limit

threshold), the maximum power dissipation is calcu-

lated as:

PD(max)=(160-25)/240

= 0.56(W)

For normal operation, do not exceed the maximum junc-

tion temperature rating of TJ = 125 oC. The calculated power

dissipation should less than:

PD =(125-25)/240

= 0.41(W)

The GND provides an electrical connection to the ground

and channels heat away. Connect the GND to the ground

by using a large pad or a ground plane.

Layout Consideration

Figure 2 illustrates the layout. Below is a checklist for

your layout:

1. Please place the input capacitors close to the VIN.

2. Ceramic capacitors for load must be placed near the

load as close as possible.

3. To place APL5325 and output capacitors near the load

is good for performance.

4. Large current paths, the bold lines in figure 2, must

have wide tracks.

5. Divider resistor R1 and R2 must be placed near the

SET as close as possible.

Copyright © ANPEC Electronics Corp.

10

Rev. A.1 - Nov., 2008

www.anpec.com.tw

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