LTC4253CGN Linear Technology, LTC4253CGN Datasheet - Page 28

LTC4253CGN

Manufacturer Part Number

LTC4253CGN

Description

IC HOT SWAP CONTRLR -48V 16-SSOP

Manufacturer

Linear Technology

Type

Hot-Swap Controllerr

Datasheet

1.LTC4253CGNPBF.pdf (34 pages)

Specifications of LTC4253CGN

Applications

General Purpose

Internal Switch(s)

Voltage - Supply

11.2 V ~ 14.5 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

16-SSOP (0.150", 3.90mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LTC4253CGN

Manufacturer:

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

LTC4253CGN

Manufacturer:

LT/凌特

Quantity:

20 000

Current page: 28 of 34
Download datasheet (370Kb)

LTC4253/LTC4253A

applicaTions inForMaTion

Resetting a Fault Latch

A latched circuit breaker fault of the LTC4253/LTC4253A

has the benefit of a long cooling time. The latched fault can

be reset by pulsing the RESET pin high until the TIMER pin

is pulled below V

the RESET pulse, SS and GATE ramp up without an initial

timing cycle provided the interlock conditions are satisfied.

Alternative methods of reset include using an external

switch to pulse the UV pin below V

for the LTC4253A) or the V

Pulling the TIMER pin below V

then simultaneously releasing them also achieves a reset.

An initial timing cycle is generated for reset by pulsing the

UV pin or V

for reset by pulsing of the TIMER and SS pins.

Using Reset as an ON/OFF Switch

The asynchronous RESET pin can be used as an ON/OFF

function to cut off supply to the external power modules

or loads controlled by the LTC4253/LTC4253A. Pulling

RESET high will pull GATE, SS, TIMER and SQTIMER

low and the PWRGD signal high. The supply is fully cut

off if the RESET pulse is maintained wide enough to fully

discharge the GATE and SS pins. As long as RESET is

high, GATE, SS, TIMER and SQTIMER are strapped to V

and the supply is cut off. When RESET is released, if the

LTC4253/LTC4253A are in UVLO, UV, OV or V

turn-on is delayed until the interlock conditions are met

before recovering as described in the Operation, Interlock

Conditions section. If not, the GATE pin will ramp up in a

soft start cycle without going through an initial cycle as

in Figure 13c.

Analog Current Limit and Fast Current Limit

In Figure 14a, when SENSE exceeds V

by the analog current limit amplifier loop. When SENSE

drops below V

when a severe fault occurs, SENSE exceeds V

immediately pulls down until the analog current amplifier

establishes control. If the severe fault causes V

into the DRAIN pin and is multiplied by 8. This extra cur-

rent is added to the TIMER pull-up current of 200µA. This

DRNCL

, the DRAIN pin is clamped at V

pin, while no initial timing cycle is generated

ACL

TMRL

, GATE is allowed to pull up. In Figure 14b,

(1V) as shown in Figure 13b. After

TMRL

pin below (V

ACL

and the SS pin to 0V

UVLO

, GATE is regulated

DRNCL

FCL

LKO

OUT

SENSE

. I

DRN

and GATE

– V

to exceed

– V

> V

UVHST

flows

LKH

accelerated TIMER current of (200µA + 8 • I

a shorter circuit breaker fault delay. Careful selection of

impedance fault condition.

Soft-Start

If the SS pin is not connected, this pin defaults to a linear

voltage ramp, from 0V to 2.2V in about 300µs (0V to 1.4V

in about 200µs for the LTC4253A) at GATE start-up, as

shown in Figure 15a. If a soft-start capacitor, C

nected to this SS pin, the soft-start response is modified

from a linear ramp to an RC response (Equation 6), as

shown in Figure 15b. This feature allows load current to

slowly ramp-up at GATE start-up. Soft-start is initiated at

time point 3 by a TIMER transition from V

(time points 1 and 2), by the OV pin falling below the V

condition or by the RESET pin falling < 0.8V after a Reset

condition. When the SS pin is below 0.2V, the analog cur-

rent limit amplifier keeps GATE low. Above 0.2V, GATE is

released and 50µA ramps up the compensation network

and GATE capacitance at time point 4. Meanwhile, the SS

pin voltage continues to ramp up. When GATE reaches

the MOSFET’s threshold, the MOSFET begins to conduct.

Due to the MOSFET’s high g

reaches the soft-start control value of V

At time point 6, the GATE voltage is controlled by the current

limit amplifier. The soft-start control voltage reaches the

circuit breaker voltage, V

breaker TIMER activates. As the load capacitor nears full

charge, load current begins to decline below V

current limit loop shuts off and GATE releases at time

point 8. At time point 9, SENSE voltage falls below V

and TIMER deactivates.

Large values of C

time-out as V

during the circuit breaker delay. The load capacitor is un-

able to achieve full charge in one GATE start-up cycle. A

more serious side effect of a large C

duration may be exceeded during soft-start into a low

impedance load. A soft-start voltage below V

activate the circuit breaker TIMER.

, R

– V

and MOSFET helps prevent SOA damage in a low

OVHST

ACL

for the LTC4253A) threshold after an OV

(t) may marginally exceed the V

can cause premature circuit breaker

at time point 7 and the circuit

, the MOSFET current quickly

ACL

value is that SOA

(t) (Equation 7).

TMRH

DRN

) produces

ACL

to V

potential

, is con-

will not

(t). The

425353afd

TMRL

OVLO

LTC4253CGN Linear Technology, LTC4253CGN Datasheet - Page 28

LTC4253CGN

Specifications of LTC4253CGN

Available stocks

Related parts for LTC4253CGN