FAN5071M Fairchild Semiconductor, FAN5071M Datasheet - Page 12

FAN5071M

Manufacturer Part Number

FAN5071M

Description

DC/DC Switching Controllers DC/DC

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN5069MTCX.pdf (22 pages)

Specifications of FAN5071M

Number Of Outputs

Output Voltage

1.05 V to 1.825 V

Output Current

28 A

Input Voltage

4.5 V to 5.25 V

Mounting Style

SMD/SMT

Package / Case

SOIC-24 Wide

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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FAN5069 Rev. 1.1.5

ture is disabled during the start-up until the voltage on

the SS capacitor crosses 1.2V.

To achieve current limit, the FAN5069 monitors the

inductor current during the OFF time by monitoring and

holding the voltage across the lower MOSFET. The volt-

age across the lower MOSFET is sensed between the

PGND and the SW pins.

The output of the summing amplifier is a function of the

inductor current, R

of the current sense amplifier. With the R

of current sensing, the current limit can vary widely from

unit to unit. R

also has a typical junction temperature coefficient of

about 0.4%/°C (consult the MOSFET datasheet for

actual values). The set point of the actual current limit

decreases in proportion to increase in MOSFET die tem-

perature. A factor of 1.6 in the current limit set point typi-

cally compensates for all MOSFET R

assuming the MOSFET's heat sinking keeps its operat-

ing die temperature below 125°C.

For more accurate current limit setting, use resistor

sensing. In a resistor sensing scheme, an appropriate

current sense resistor is connected between the source

terminal of the bottom MOSFET and PGND.

Set the current limit by choosing R

where R

K1 is a constant to accommodate for the variation of

MOSFET R

With K1 = 1.6, I

calculates to be 323.17KΩ.

Auto Restart (PWM)

The FAN5069 supports two modes of response when the

internal fault latch is set. The user can configure it to

keep the power supply latched in the OFF state OR in

the Auto Restart mode. When the EN pin is tied to V

the power supply is latched OFF. When the EN pin is ter-

minated with a 100nF to GND, the power supply is in

Auto Restart mode. The table below describes the rela-

tionship between PWM restart and setting on EN pin. Do

not leave the EN pin open without any capacitor.

MAX

ILIM

OUT

is the maximum load current.

= 1.5V, F

128

ILIM

DS(ON)

K1 I

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

is in KΩ.

DS_ON

•

MAX

DS_ON

= 300 KHz, R

(typically 1.6).

1.43

•

not only varies from unit to unit, but

= 20A, R

DSON

of the bottom FET and the gain

•

DS(ON)

⎛

⎜

⎝

RAMP

⎛

⎝

–

ILIM

-------- -

Vin

1.8

= 7mΩ, V

⎞

⎠

= 400 KΩ, R

as follows:

DS_ON

•

Vout 33.32 10

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

DS_ON

•

variations,

RAMP

method

(EQ. 5)

•

= 24V,

ILIM

⎛

⎜

⎝

The fault latch can also be reset by recycling the V

the controller.

Under Voltage Protection (PWM)

The PWM converter output is monitored constantly for

under voltage at the FB pin. If the voltage on the FB pin

stays lower than 75% of internal Vref for 16 clock cycles,

the fault latch is set and the converter shuts down. This

shutdown feature is disabled during startup until the volt-

age on the SS capacitor reaches 1.2V.

Over Voltage Protection (PWM)

The PWM converter output voltage is monitored con-

stantly at the FB pin for over voltage. If the voltage on the

FB pin stays higher than 115% of internal V

clock cycles, the controller turns OFF the upper MOS-

FET and turns ON the lower MOSFET. This crowbar

action stops when the voltage on the FB pin reaches

0.4V to prevent the output voltage from becoming nega-

tive. This over-voltage protection (OVP) feature is active

as soon as the voltage on the EN pin becomes high.

Turning ON the low-side MOSFETs on an OVP condition

pulls down the output, resulting in a reverse current,

which starts to build up in the inductor. If the output over-

voltage is due to failure of the high-side MOSFET, this

crowbar action pulls down the input supply or blows its

fuse, protecting the system, which is very critical.

During soft-start, if the output overshoots beyond 115%

of V

side MOSFET until the voltage on the FB pin goes below

0.4V. The fault latch is NOT set until the voltage on the

SS pin reaches 1.2V. Once the fault latch is set, the con-

verter shuts down.

Thermal Fault Protection

The FAN5069 features thermal protection where the IC

temperature is monitored. When the IC junction temper-

ature exceeds +160°C, the controller shuts down and

when the junction temperature gets down to +125°C, the

converter restarts.

Cap to GND

Pull to GND

EN Pin

115% Vref

REF

0.4V

, the output voltage is brought down by the low-

Figure 21. Over-Voltage Protection

ILIM

Restart after TDELAY (Sec.) =

Delay

2 Clks

0.85 x C where C is in μF

No restart after fault

PWM/Restart

>1.2V

OFF

www.fairchildsemi.com

REF

LS Drive

Fault

Latch

for two

FAN5071M Fairchild Semiconductor, FAN5071M Datasheet - Page 12

FAN5071M

Specifications of FAN5071M

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