aoz1232-01 Alpha & Omega Semiconductor, aoz1232-01 Datasheet - Page 10

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: 10 of 18
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A further simplified equation will be:

If V

will be 500kHz.

This algorithm results in a nearly constant switching

frequency despite the lack of a fixed-frequency clock

generator.

True Current Mode Control

The constant-on-time control scheme is intrinsically

unstable if output capacitor’s ESR is not large enough as

an effective current-sense resistor. Ceramic capacitors

usually cannot be used as output capacitor.

The AOZ1232-01 senses the low-side MOSFET current

and processes it into DC and AC current information

using AOS proprietary technique. The AC current

information is decoded and added on the FB pin on

phase. With AC current information, the stability of

constant-on-time control is significantly improved even

without the help of output capacitor’s ESR, and thus the

pure ceramic capacitor solution can be applicable. The

pure ceramic capacitor solution can significantly reduce

the output ripple (no ESR caused overshoot and

undershoot) and less board area design.

Valley Current-Limit Protection

The AOZ1232-01 uses the valley current-limit protection

by using R

To detect real current information, a minimum constant-

off (150ns typical) is implemented after a constant-on

time. If the current exceeds the valley current-limit

threshold, the PWM controller is not allowed to initiate a

new cycle. The actual peak current is greater than the

valley current-limit threshold by an amount equal to the

inductor ripple current. Therefore, the exact current-limit

characteristic and maximum load capability are a

function of the inductor value as well as input and output

voltages. The current limit will keep the low-side

MOSFET ON and will not allow another high-side on-

time, until the current in the low-side MOSFET reduces

below the current limit. Figure 2 shows the inductor

current during the current limit.

Rev. 1.0 October 2011

OUT



kHz

is 1.8V, R



DSON

38000

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

of the lower MOSFET current sensing.

TON

is 137k, the switching frequency





OUT

k



 

www.aosmd.com

(4)

After 128s (typical), the AOZ1232-01 considers this is a

true failed condition and therefore, turns-off both high-

side and low-side MOSFETs and latches off. When

triggered, only the enable can restart the AOZ1232-01

again.

Output Voltage Under-Voltage Protection

If the output voltage is lower than 25% by over-current or

short circuit, the AOZ1232-01 will wait for 128s (typical)

and turns-off both high-side and low-side MOSFETs and

latches off. When triggered, only the enable can restart

the AOZ1232-01 again.

Output Voltage Over-Voltage Protection

The threshold of OVP is set 15% higher than 800mV.

When the V

side MOSFET is turned-off and low-side MOSFETs is

turned-on until V

Power Good Output

The power good (PGOOD) output, which is an open

drain output, requires the pull-up resistor. When the

output voltage is 10% below than the nominal regulation

voltage for 50s (typical), the PGOOD is pulled low.

When the output voltage is 15% higher than the nominal

regulation voltage, the PGOOD is also pulled low.

When combined with the under-voltage-protection circuit,

this current limit method is effective in almost every

circumstance. In forced-PWM mode, the AOZ1232-01

also implements a negative current limit to prevent

excessive reverse inductor currents when VOUT is

sinking current.

Inductor

Current

voltage exceeds the OVP threshold, high-

Figure 2. Inductor Current

voltage is lower than 800mV.

Time

AOZ1232-01

Page 10 of 18

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aoz1232-01 Alpha & Omega Semiconductor, aoz1232-01 Datasheet - Page 10

aoz1232-01

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