LTC3728EG Linear Technology, LTC3728EG Datasheet - Page 22

LTC3728EG

Manufacturer Part Number

LTC3728EG

Description

IC SW REG SYNC STP-DN DUAL28SSOP

Manufacturer

Linear Technology

Series

PolyPhase®r

Type

Step-Down (Buck)r

Datasheet

1.LTC3728EGPBF.pdf (36 pages)

Specifications of LTC3728EG

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.8 ~ 5.5 V

Current - Output

Frequency - Switching

250kHz ~ 550kHz

Voltage - Input

3.5 ~ 36 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

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Current page: 22 of 36
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APPLICATIONS INFORMATION

LTC3728

Fault Conditions: Overcurrent Latchoff

The RUN/SS pins also provide the ability to latch off the

controller(s) when an overcurrent condition is detected. The

RUN/SS capacitor, C

the inrush current. After the controller has been started and

given adequate time to charge up the output capacitor and

provide full load current, the RUN/SS capacitor is used for

a short-circuit timer. If the regulator’s output voltage falls

to less than 70% of its nominal value after C

4.1V, C

output is in an overcurrent condition. If the condition lasts

for a long enough period, as determined by the size of the

be shut down until the RUN/SS pin voltage is recycled.

If the overload occurs during start-up, the time can be

approximated by:

If the overload occurs after start-up, the voltage on C

will begin discharging from the Zener clamp voltage:

This built-in overcurrent latchoff can be overridden by

providing a pull-up resistor to the RUN/SS pin, as shown

in Figure 7. This resistance shortens the soft-start period

and prevents the discharge of the RUN/SS capacitor during

an over current condition. Tying this pull-up resistor to

Why should you defeat overcurrent latchoff? During the

prototyping stage of a design there may be a problem

with noise pickup or poor layout, causing the protection

circuit to latch off. Defeating this feature will easily allow

LO2

LO1

(as in Figure 7) defeats overcurrent latchoff.

and the speciﬁ ed discharge current, the controller will

≈ [C

= 2.7 • 10

begins discharging on the assumption that the

*OPTIONAL TO DEFEAT OVERCURRENT LATCHOFF

Figure 7. RUN/SS Pin Interfacing

(6 – 3.5)]/(1.2μA) = 2.1 • 10

(4.1 – 1.5 + 4.1 – 3.5)]/(1.2μA)

3.3V OR 5V

, is used initially to turn on and limit

)

RUN/SS

3728 F07

reaches

)

troubleshooting of the circuit and PC layout. The internal

short-circuit and foldback current limiting still remains

active, thereby protecting the power supply system from

failure. After the design is complete, a decision can be

made whether to enable the latchoff feature.

The value of the soft-start capacitor C

scaled with output voltage, output capacitance and load

current characteristics. The minimum soft-start capaci-

tance is given by:

The minimum recommended soft-start capacitor of

Fault Conditions: Current Limit and Current Foldback

The LTC3728 current comparator has a maximum sense

voltage of 75mV, resulting in a maximum MOSFET cur-

rent of 75mV/R

limit generally occurs with the largest V

ambient temperature—conditions that cause the highest

power dissipation in the top MOSFET.

The LTC3728 includes current foldback to help further

limit load current when the output is shorted to ground.

The foldback circuit is active even when the overload

shutdown latch previously described is overridden. If the

output falls below 70% of its nominal output level, then

the maximum sense voltage is progressively lowered from

75mV to 25mV. Under short-circuit conditions with very

low duty cycles, the LTC3728 will begin cycle skipping in

order to limit the short-circuit current. In this situation,

the bottom MOSFET will be dissipating most of the power

but less than in normal operation. The short-circuit ripple

current is determined by the minimum on-time t

of the LTC3728 (less than 200ns), the input voltage and

inductor value:

The resulting short-circuit current is:

ΔI

= 0.1μF will be sufﬁ cient for most applications.

L(SC)

> (C

25mV

= t

SENSE

OUT

ON(MIN)

)(V

SENSE

OUT

. The maximum value of current

) (10

L(SC)

/L)

–4

) (R

SENSE

)

may need to be

at the highest

ON(MIN)

3728fg

LTC3728EG Linear Technology, LTC3728EG Datasheet - Page 22

LTC3728EG

Specifications of LTC3728EG

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