LTC4224-2 Linear Technology, LTC4224-2 Datasheet - Page 10

LTC4224-2

Manufacturer Part Number

LTC4224-2

Description

Compact Dual Low Voltage Hot Swap Controller

Manufacturer

Linear Technology

Datasheet

1.LTC4224-2.pdf (16 pages)

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APPLICATIONS INFORMATION

LTC4224-1/LTC4224-2

If there is signiﬁ cant supply lead inductance, a severe

output short may collapse the input to ground before the

LTC4224 can bring the current under control. In this case,

the undervoltage lockout activates after an 8μs ﬁ lter delay,

and the GATE is pulled down by 1.5mA.

Resetting Faults

Following an overcurrent fault, the LTC4224-1 latches

off while the LTC4224-2 automatically restarts after a

four second cool down period. An overcurrent fault on

either supply causes the ECB for that supply to turn off

the MOSFET and pull the FAULT pin low. Faults are reset

by pulling the ON pin high for at least 20μs, after which

the FAULT pin releases and the turn-on sequence begins.

Taking the lower supply below V

supply’s fault and the turn-on sequence commences im-

mediately. Pulling the higher supply below V

both supplies’ faults and the turn-on sequence begins after

a 160ms UV turn-on delay. When both supplies are above

2.5V, either supply going low only resets its own fault.

For the auto-retry version (LTC4224-2), if the fault is not

cleared within four seconds, the latched fault will be cleared

automatically. FAULT will go high and the turn-on sequence

will begin. A persistent fault results in an auto-retry duty

cycle of about 0.1%. Figure 9 shows an auto-retry sequence

as a result of an overcurrent fault.

5V/DIV

1A/DIV

2V/DIV

FAULT

GATE

OUT

Figure 9. Auto-Retry After Overcurrent Fault

1s/DIV

CCLO(UVL)

clears only that

422412 F09

CC(UVL)

clears

Gate Pin Voltage

The gate drive is compatible with logic level MOSFETs, but

caution is required if one supply is low. The guaranteed

range of gate drive is 4.5V to 7V, with a typical value of

5.5V. Each GATE pin is clamped with respect to V

higher of the two input supplies. When V

GATE pins can be as high as 12V above ground. If the

lower supply is at 0V, the gate-to-source voltage of its

MOSFET can be 12V. In such applications, MOSFETs with

gate-to-source breakdown ratings of 12V or greater are

recommended.

Active Current Loop Compensation

The active current loop is compensated by the parasitic

capacitance of the external MOSFET. No further compensa-

tion components are normally required. In the case where a

MOSFET with less than 600pF of gate capacitance is chosen,

a 600pF compensation capacitor connected between the

GATE pin and ground may be required.

Supply Transient Protection

In applications where the supply inputs are fed directly

from the regulated output of the backplane supply, bulk

bypassing assures a spike-free operating environment.

In other applications where bulk bypassing is located far

from the LTC4224, spikes generated during output short-

circuit events could exceed the absolute maximum ratings

for V

heavier trace plating to reduce the power trace inductance.

SMAJ5.0A

Figure 10. Input Supply Transient Protection

Network for Applications without Input Capacitance

CC2

. To minimize such spikes, use wider traces or

10Ω

SNUB

0.1μF

SNUB

GND

CC2

0.010Ω

SENSE2

LTC4224

FDS6911

GATE2

is at 5V, both

LOAD2

422412 F10

OUT

422412fa

, the

LTC4224-2 Linear Technology, LTC4224-2 Datasheet - Page 10

LTC4224-2

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