APW7136YCI データシートの表示（PDF） - Anpec Electronics

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APW7136YCI

1MHz, High-Efficiency, Step-Up Converter for 2 to 8 White LEDs

Anpec Electronics 

APW7136A/B/C

Application Information

Input Capacitor Selection

The input capacitor (C ) reduces the ripple of the input

IN

current drawn from the input supply and reduces noise

injection into the IC. The reflected ripple voltage will be

smaller when an input capacitor with larger capacitance

is used. For reliable operation, it is recommended to

select the capacitor with maximum voltage rating at least

1.2 times of the maximum input voltage. The capacitors

should be placed close to the VIN and GND.

Inductor Selection

Selecting an inductor with low dc resistance reduces con-

duction losses and achieves high efficiency. The efficiency

is moderated whilst using small chip inductor which op-

erates with higher inductor core losses. Therefore, it is

necessary to take further consideration while choosing

an adequate inductor. Mainly, the inductor value deter-

mines the inductor ripple current: larger inductor value

results in smaller inductor ripple current and lower con-

duction losses of the converter. However, larger inductor

value generates slower load transient response. A rea-

sonable design rule is to set the ripple current, ∆IL, to be

30% to 50% of the maximum average inductor current,

IL(AVG). The inductor value can be obtained as below,

The peak inductor current is calculated as the following

equation:

( ) IPEAK

= IIN(MAX)

+

1 ⋅ VIN ⋅ VOUT − VIN

2 VOUT ⋅ L ⋅ FSW

VIN IIN

IL

LX

D1

IOUT VOUT

CIN

N-FET ISW

ESR

COUT

IL

ILIM

IPEAK

∆IL

IIN

ISW

ID

L

≥



VIN

VOUT

2

×

VOUT − VIN

FSW ⋅ IOUT(MAX)

×



η

∆IL



 IL(AVG) 

where

VIN = input voltage

VOUT = output voltage

FSW = switching frequency in MHz

I = maximum output current in amp.

OUT

η = Efficiency

∆IL

/I

L(AVG)

=

inductor

ripple

current/average

current

(0.3 to 0.5 typical)

To avoid saturation of the inductor, the inductor should be

rated at least for the maximum input current of the con-

verter plus the inductor ripple current. The maximum in-

put current is calculated as below:

IIN(MAX )

=

IOUT(MAX) ⋅ VOUT

VIN ⋅ η

IOUT

Output Capacitor Selection

The current-mode control scheme of the APW7136 al-

lows the usage of tiny ceramic capacitors. The higher

capacitor value provides good load transients response.

Ceramic capacitors with low ESR values have the lowest

output voltage ripple and are recommended. If required,

tantalum capacitors may be used as well. The output ripple

is the sum of the voltages across the ESR and the ideal

output capacitor.

ΔV = ΔV + ΔV

OUT

ESR

COUT

∆VCOUT

≈

IOUT

COUT

⋅



VOUT

VOUT

− VIN

⋅ FSW



∆VESR ≈ IPEAK ⋅ RESR

where IPEAK is the peak inductor current.

Copyright © ANPEC Electronics Corp.

10

Rev. A.2 - Jan., 2008

www.anpec.com.tw

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