LT1577CS-3.3/ADJ Linear Technology, LT1577CS-3.3/ADJ Datasheet - Page 12

LT1577CS-3.3/ADJ

Manufacturer Part Number

LT1577CS-3.3/ADJ

Description

IC LDO REG 3.3V/ADJ DUAL 16-SOIC

Manufacturer

Linear Technology

Type

Positive Fixed and Adjustabler

Datasheet

1.LT1575CN8-2.8.pdf (20 pages)

Specifications of LT1577CS-3.3/ADJ

Number Of Outputs

Voltage - Output

3.3V, Adjustable

Current - Supply

12mA

Voltage - Input

5 ~ 22 V

Operating Temperature

0°C ~ 70°C

Package / Case

16-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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APPLICATIONS

LT1575/LT1577

diagram and clamps the positive swing of the COMP node

in the main error amplifier to a voltage that provides an

output load current of 50mV/R

ues as long as the output current overload persists. The

second event is that a timer circuit activates at the SHDN

pin. This pin is normally held low by a 5 A active pull-down

that limits to 100mV above ground. When current limit

activates, the 5 A pull-down turns off and a 15 A pull-up

current source turns on. Placing a capacitor in series with

the SHDN pin to ground generates a programmable time

ramp voltage.

The SHDN pin is also the positive input of COMP1. The

negative input is tied to the internal 1.21V reference. When

the SHDN pin ramps above V

Q4 and Q5. This action pulls the COMP and GATE pins low

and latches the external MOSFET drive off. This condition

reduces the MOSFET power dissipation to zero. The time

period until the latched-off condition occurs is typically

equal to C

on the SHDN pin yields a 74ms ramp time. In short, this

unique circuit block performs a current limit time-out

function that latches off the regulator drive after a pre-

defined time period. The time-out period selected is a

function of system requirements including start-up and

safe operating area. The SHDN pin is internally clamped to

typically 1.85V by Q6 and R2. The comparator tied to the

SHDN pin has 100mV of typical hysteresis to provide

noise immunity. The hysteresis is especially useful when

using the SHDN pin for thermal shutdown.

Restoring normal operation after the load current fault is

cleared is accomplished in two ways. One option is to

recycle the nominal 12V LT1575 supply voltage as long as

an external bleed path for the Shutdown pin capacitor is

provided. The second option is to provide an active reset

circuit that pulls the SHDN pin below V

SHDN pin below V

source and reactivates the 5 A pull-down. If the SHDN pin

is held below V

continues to operate in current limit into a short. This

action requires being able to sink 15 A from the SHDN pin

at less than 1V. The 5 A pull-down current source and the

15 A pull-up current source are designed low enough in

value so that an external resistor divider network can drive

the SHDN pin to provide overvoltage protection or to

SHUT

(1.11V)/15 A. For example, a 1 F capacitor

REF

during a fault condition, the regulator

turns off the 15 A pull-up current

INFORMATION

REF

SENSE

, the comparator drives

. This action contin-

REF

. Pulling the

provide thermal shutdown with the use of a thermistor in

the divider network. Diode-ORing these functions to-

gether is simple to accomplish and provides multiple

functionality for one pin.

If the current limit amplifier is not used, two choices

present themselves. The simplest choice is to tie the INEG

pin directly to the IPOS pin. This action defeats current

limit and provides the simplest, no frills circuit. An appli-

cation in which the current limit amplifier is not used is

where an extremely low dropout voltage must be achieved

and the 50mV threshold voltage cannot be tolerated.

However, a second available choice permits a user to

provide short-circuit protection with no external sensing.

This technique is activated by grounding the INEG pin.

This action disables the current limit amplifier because

Schottky diode D1 clamps the amplifier’s output and

prevents Q2 from pulling down the COMP node. In addi-

tion, Schottky diode D2 turns off pull-down transistor Q1.

Q1 is normally on and holds internal comparator COMP3’s

output low. This comparator circuit, now enabled, moni-

tors the GATE pin and detects saturation at the positive rail.

When a saturated condition is detected, COMP3 activates

the shutdown timer. Once the time-out period occurs, the

output is shut down and latched off. The operation of

resetting the latch remains the same. Note that this tech-

nique does not limit the FET current during the time-out

period. The output current is only limited by the input

power supply and the input/output impedance. Setting the

timer to a short period in this mode of operation keeps the

external MOSFET within its SOA (safe operating area)

boundary and keeps the MOSFET’s temperature rise under

control.

Unique circuit design incorporated into the LT1575 allevi-

ates all concerns about power supply sequencing. The

issue of power supply sequencing is an important topic as

the typical LT1575 application has inputs from two sepa-

rate power supply voltages. If the typical 12V V

voltage is slow in ramping up, insufficient MOSFET gate

drive is present and therefore, the output voltage does

not come up. If the V

typical 5V supply voltage tied to the IPOS pin has not

started yet, then the feedback loop wants to drive the

GATE pin to the positive V

supply voltage is present, but the

rail. This would result in a

supply

LT1577CS-3.3/ADJ Linear Technology, LT1577CS-3.3/ADJ Datasheet - Page 12

LT1577CS-3.3/ADJ

Specifications of LT1577CS-3.3/ADJ

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