aoz1232-01 Alpha & Omega Semiconductor, aoz1232-01 Datasheet - Page 11

aoz1232-01

Manufacturer Part Number

aoz1232-01

Description

28v/6a Synchronous Ezbucktm Regulator

Manufacturer

Alpha & Omega Semiconductor

Datasheet

1.AOZ1232-01.pdf (18 pages)

Current page: 11 of 18
Download datasheet (853Kb)

Application Information

The basic AOZ1232-01 application circuit is shown at top

of page 2. Component selection is explained below.

Input Capacitor

The input capacitor must be connected to the IN pins and

PGND pin of the AOZ1232-01 to maintain steady input

voltage and filter out the pulsing input current. A small

decoupling capacitor, usually 1F, should be connected

to the VCC pin and AGND pin for stable operation of the

AOZ1232-01. The voltage rating of input capacitor must

be greater than maximum input voltage plus ripple

voltage.

The input ripple voltage can be approximated by

equation below:

Since the input current is discontinuous in a buck

converter, the current stress on the input capacitor is

another concern when selecting the capacitor. For a buck

circuit, the RMS value of input capacitor current can be

calculated by:

if let m equal the conversion ratio:

The relation between the input capacitor RMS current

and voltage conversion ratio is calculated and shown in

Figure 3. It can be seen that when V

is under the worst current stress. The worst current

stress on C

---------------- -

-------- -



CIN_RMS

Rev. 1.0 October 2011

CIN_RMS

Figure 3. I



(m)







0.5

0.4

0.3

0.2

0.1

–

is 0.5 x I

-------- -

CIN











vs. Voltage Conversion Ratio

-------- - 1

-------- -







–

-------- -

0.5







is half of V

, C

www.aosmd.com

For reliable operation and best performance, the input

capacitors must have current rating higher than I

at worst operating conditions. Ceramic capacitors are

preferred for input capacitors because of their low ESR

and high ripple current rating. Depending on the

application circuits, other low ESR tantalum capacitor or

aluminum electrolytic capacitor may also be used. When

selecting ceramic capacitors, X5R or X7R type dielectric

ceramic capacitors are preferred for their better

temperature and voltage characteristics. Note that the

ripple current rating from capacitor manufactures is

based on certain amount of life time. Further de-rating

may be necessary for practical design requirement.

Inductor

The inductor is used to supply constant current to output

when it is driven by a switching voltage. For given input

and output voltage, inductance and switching frequency

together decide the inductor ripple current, which is:

The peak inductor current is:

High inductance gives low inductor ripple current but

requires a larger size inductor to avoid saturation. Low

ripple current reduces inductor core losses. It also

reduces RMS current through inductor and switches,

which results in less conduction loss. Usually, peak to

peak ripple current on inductor is designed to be 30% to

50% of output current.

When selecting the inductor, make sure it is able to

handle the peak current without saturation even at the

highest operating temperature.

The inductor takes the highest current in a buck circuit.

The conduction loss on the inductor needs to be checked

for thermal and efficiency requirements.

Surface mount inductors in different shapes and styles

are available from Coilcraft, Elytone and Murata.

Shielded inductors are small and radiate less EMI noise,

but they do cost more than unshielded inductors. The

choice depends on EMI requirement, price and size.

I

Lpeak

---------- -









I

------- -

–

-------- -







AOZ1232-01

Page 11 of 18

CIN-RMS

aoz1232-01 Alpha & Omega Semiconductor, aoz1232-01 Datasheet - Page 11

aoz1232-01

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