DC1555A Linear Technology, DC1555A Datasheet - Page 11

DC1555A

Manufacturer Part Number

DC1555A

Description

LTC4365 High Voltage UV, OV And Reverse Supply Protection Controller

Manufacturer

Linear Technology

Series

-r

Datasheets

1.LTC4365CTS8TRMPBF.pdf (16 pages)

2.DC1555A.pdf (6 pages)

Specifications of DC1555A

Design Resources

DC1555 Design Files DC1555A Schematic

Main Purpose

Power Management, Voltage Protection, Over, Under

Embedded

Utilized Ic / Part

LTC4365

Primary Attributes

Secondary Attributes

Kit Application Type

Power Management

Application Sub Type

Overvoltage Protection

Features

Board Intended To Demonstrate Performance Of The LTC4365 High Voltage, Undervoltage Controller

Lead Free Status / Rohs Status

Not applicable / Not applicable

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APPLICATIONS INFORMATION

The resistor values can then be solved:

The closest 1% value: R3 = 1.82M:

The closest 1% value: R1 = 59k:

The closest 1% value: R2 = 243k

Therefore: OV = 17.93V, UV = 3.51V.

Reverse V

The LTC4365’s rugged and hot-swappable V

protect the more sensitive circuits at the output load. If

the input supply is plugged in backwards, or a negative

supply is inadvertently connected, the LTC4365 prevents

this negative voltage from passing to the output load.

The LTC4365 employs a novel, high speed reverse sup-

ply voltage monitor. When the negative V

R2 = 300k – 59k = 241k

3. R1 =

1. R1+ R2 =

2. R3 = 2 •

= –40V

GND

Figure 6. Reverse V

300k +1.82M

Protection

REVERSE V

COMPARATOR

10nA

2 • 18V

3mV

10nA

3mV

–

• (3.5V – 0.5V) =1.8M

= 300k

CLOSES SWITCH

WHEN V

= 58.9k

GATE

Protection Circuits

IS NEGATIVE

LTC4365

OUT

4365 F06

input helps

OUT

voltage is

TO LOAD

detected, an internal switch connects the gates of the

external back-to-back N-channel MOSFETs to the nega-

tive input supply.

As shown in Figure 6, external back-to-back N-channel

MOSFETs are required for reverse supply protection. When

internal switch, which in turn connects the gates of the

external MOSFETs to the negative V

diode (D1) of M1 turns on, but the body diode (D2) of M2

remains in reverse blocking mode. This means that the

common source connection of M1 and M2 remains about

a diode drop higher than V

M2 is shorted to V

rent can flow from V

voltage rating of M2 must withstand the reverse voltage

excursion at V

Figure 7 illustrates the waveforms that result when V

is hot plugged to –20V. V

ground just before the connection is made. Due to the

parasitic inductance of the V

voltage at the V

–20V. Therefore, a 40V N-channel MOSFET was selected

to survive the overshoot.

The speed of the LTC4365 reverse protection circuits is

evident by how closely the GATE pin follows V

the negative transients. The two waveforms are almost

indistinguishable on the scale shown.

goes negative, the reverse V

5V/DIV

–20V

GND

Figure 7. Hot Swapping V

and GATE pins ring significantly below

, M2 will be turned off and no cur-

OUT

to the load at V

500ns/DIV

, GATE and V

. Since the gate voltage of

and GATE connections, the

GATE

comparator closes the

to –20V

voltage. The body

OUT

LTC4365

OUT

. Note that the

4365 F07

start out at

during

4365f

DC1555A Linear Technology, DC1555A Datasheet - Page 11

DC1555A

Specifications of DC1555A

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