AOZ1014DI Alpha & Omega Semiconductor Inc, AOZ1014DI Datasheet - Page 11
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
No
Number Of Outputs
1
Voltage - Output
0.8 ~ 16 V
Current - Output
5A
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
Part Number:
AOZ1014DI
Manufacturer:
AOS/万代
Quantity:
20 000
inductor value, switching frequency, output capacitor
value and ESR. It can be calculated by the equation
below:
where,
C
ESR
capacitor.
When low ESR ceramic capacitor is used as output
capacitor, the impedance of the capacitor at the switch-
ing frequency dominates. Output ripple is mainly caused
by capacitor value and inductor ripple current. The output
ripple voltage calculation can be simplified to:
If the impedance of ESR at switching frequency
dominates, the output ripple voltage is mainly decided
by capacitor ESR and inductor ripple current. The output
ripple voltage calculation can be further simplified to:
For lower output ripple voltage across the entire operat-
ing temperature range, X5R or X7R dielectric type of
ceramic, or other low ESR tantalum capacitor or alumi-
num electrolytic capacitor may also be used as output
capacitors.
In a buck converter, output capacitor current is con-
tinuous. The RMS current of output capacitor is decided
by the peak to peak inductor ripple current. It can be
calculated by:
Usually, the ripple current rating of the output capacitor
is a smaller issue because of the low current stress.
When the buck inductor is selected to be very small
and inductor ripple current is high, output capacitor could
be overstressed.
Schottky Diode Selection
The external freewheeling diode supplies the current to
the inductor when the high side PMOS switch is off. To
reduce the losses due to the forward voltage drop and
recovery of diode, Schottky diode is recommended to
use. The maximum reverse voltage rating of the chosen
Schottky diode should be greater than the maximum
I
ΔV
ΔV
ΔV
CO_RMS
O
Rev. 1.2 October 2009
is output capacitor value, and
CO
O
O
O
=
is the equivalent series resistance of the output
=
=
ΔI
ΔI
ΔI
=
L
L
L
×
----------
×
×
ΔI
12
ESR
⎛
⎝
-------------------------
8
L
ESR
×
f C
1
×
CO
CO
O
+
-------------------------
8
×
f C
1
×
O
⎞
⎠
www.aosmd.com
input voltage, and the current rating should be greater
than the maximum load current.
Loop Compensation
The AOZ1014 employs peak current mode control for
easy use and fast transient response. Peak current mode
control eliminates the double pole effect of the output
L&C filter. It greatly simplifies the compensation loop
design.
With peak current mode control, the buck power stage
can be simplified to be a one-pole and one-zero system
in frequency domain. The pole is dominant pole and can
be calculated by:
The zero is a ESR zero due to output capacitor and its
ESR. It is can be calculated by:
where;
C
R
ESR
The compensation design is actually to shape the
converter close loop transfer function to get desired gain
and phase. Several different types of compensation
networks can be used for AOZ1014. For most cases, a
series capacitor and resistor network connected to the
COMP pin sets the pole-zero and is adequate for a stable
high-bandwidth control loop.
In the AOZ1014, FB pin and COMP pin are the inverting
input and the output of internal transconductance error
amplifier. A series R and C compensation network
connected to COMP provides one pole and one zero.
The pole is:
where;
G
A/V,
G
C
f
f
P2
O
L
EA
VEA
C
Z1
f
P1
is load resistor value, and
is compensation capacitor.
is the output filter capacitor,
CO
is the error amplifier transconductance, which is 200 x 10
=
=
is the error amplifier voltage gain, which is 500 V/V, and
=
is the equivalent series resistance of output capacitor.
------------------------------------------ -
2π
------------------------------------------------
2π
---------------------------------- -
2π C
×
×
×
C
C
G
C
O
1
O
EA
×
1
×
×
G
ESR
R
VEA
L
CO
AOZ1014
Page 11 of 19
-6
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