AOZ1014DI Alpha & Omega Semiconductor Inc, AOZ1014DI Datasheet - Page 9

AOZ1014DI

Manufacturer Part Number

AOZ1014DI

Description

IC 5A BUCK REG 8-DFN

Manufacturer

Alpha & Omega Semiconductor Inc

Series

EZBuck™r

Type

Step-Down (Buck)r

Datasheet

1.AOZ1014AI.pdf (19 pages)

Specifications of AOZ1014DI

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

0.8 ~ 16 V

Current - Output

Frequency - Switching

500kHz

Voltage - Input

4.5 ~ 16 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-DFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Other names

785-1150-2

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

AOZ1014DI

Manufacturer:

AOS/万代

Quantity:

20 000

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The combination of R

avoid drawing excessive current from the output, which

will cause power loss.

Since the switch duty cycle can be as high as 100%, the

maximum output voltage can be set as high as the input

voltage minus the voltage drop on upper PMOS and

inductor.

Protection Features

The AOZ1014 has multiple protection features to prevent

system circuit damage under abnormal conditions.

Over Current Protection (OCP)

The sensed inductor current signal is also used for

over current protection. Since the AOZ1014 employs

peak current mode control, the COMP pin voltage is

proportional to the peak inductor current. The COMP pin

voltage is limited to be between 0.4V and 2.5V internally.

The peak inductor current is automatically limited cycle

by cycle.

The cycle by cycle current limit threshold is set between

6A and 8A. When the load current reaches the current

limit threshold, the cycle by cycle current limit circuit turns

off the high side switch immediately to terminate the

current duty cycle. The inductor current stops rising. The

cycle by cycle current limit protection directly limits

inductor peak current. The average inductor current is

also limited due to the limitation on peak inductor current.

When the cycle by cycle current limit circuit is triggered,

the output voltage drops as the duty cycle is decreasing.

The AOZ1014 has internal short circuit protection to

protect itself from catastrophic failure under output short

circuit conditions. The FB pin voltage is proportional to

the output voltage. Whenever FB pin voltage is below

0.2V, the short circuit protection circuit is triggered.

As a result, the converter is shut down and hiccups at a

frequency equal to 1/8 of normal switching frequency.

The converter will start up via a soft start once the short

circuit condition disappears. In short circuit protection

mode, the inductor average current is greatly reduced

because of the low hiccup frequency.

Power-On Reset (POR)

A power-on reset circuit monitors the input voltage.

When the input voltage exceeds 4V, the converter starts

operation. When input voltage falls below 3.7V, the

converter shuts down.

Rev. 1.2 October 2009

and R

should be large enough to

www.aosmd.com

Thermal Protection

An internal temperature sensor monitors the junction

temperature. It shuts down the internal control circuit and

high side PMOS if the junction temperature exceeds

145°C. The regulator will restart automatically under the

control of soft-start circuit when the junction temperature

decreases to 100°C.

Application Information

The basic AOZ1014 application circuit is shown in

Figure 1. Component selection is explained below.

Input Capacitor

The input capacitor must be connected to the V

PGND pin of the AOZ1014 to maintain steady input volt-

age and filter out the pulsing input current. The voltage

rating of input capacitor must be greater than maximum

input voltage plus ripple voltage.

The input ripple voltage can be approximated by the

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 relationship between the input capacitor RMS cur-

rent and voltage conversion ratio is calculated and shown

in Figure 2 on the next page. It can be seen that when V

is half of V

worst current stress on C

-------- -

ΔV

CIN_RMS

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

, C

is under the worst current stress. The

⎛

⎜

⎝

-------- - 1

–

-------- -

⎛

⎜

⎝

is 0.5 x I

–

⎞

⎟

⎠

-------- -

⎞

⎟

⎠

AOZ1014

Page 9 of 19

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AOZ1014DI Alpha & Omega Semiconductor Inc, AOZ1014DI Datasheet - Page 9

AOZ1014DI

Specifications of AOZ1014DI

Available stocks

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