ADC 2 Spezifikationen PDF herunterladen (Seite 14)

LTC4261/LTC4261-2

42612fd

For more information www.linear.com/LTC4261

100k

8 × 240Ω IN SERIES

1/4W EACH

VCC

0.1µF

1µF

MOC207

217 23

7.5k

R7A

10k

R7B

10k

5.1k

100k

R24

5.1k

R23

R22

R17

100k

Q11

2N5401

OUTPUT

SENSE

Q12

2N5401

R19

2.49k

OUT

R20

2.49k

R18

100k

20k

R21

LUCENT

FLTR100V10

–48V RTN OUTPUT

–

CASE

OUT

–

MICRO-

CONTROLLER

GND

SCL

SDA

ALERT

MBRM5100

4000µF

100V

0V TRANSIENT

RESEVOIR

CAPACITOR

RST

LUCENT

JW050A1-E

–

MOC207

ON/OFF

CASE

LTC2900

SUPPLY

MONITOR

RST

GND

OUT

–

343Ω

7 × 2.4k, 0805

EACH 28.7W

ANODE

HCPL-0300

GND

CATHODE

OUT

ANODE

Q6 Q7

42612 F02b

PS9113 PS9113

6N139

CATHODE

GND

ANODE

CATHODE

ANODE

CATHODE

GND

FLTIN

PGI

SCL

SDAI

PGIO

SDAO

ALERT

LTC4261CGN

INTV

ADIN

Figure 2b. 200W AdvancedTCA Hot Swap Controller with Input/Output Monitoring

and Power Good Watchdog Using LTC4261 in I

C Mode (Part Two)

the voltage at V

to 11.2V (V

) and provides power to the

GATE driver. The data converter and logic control circuits

are powered by an internal linear regulator that derives

5V from the 11.2V supply. The 5V output is available at

the INTV

pin for driving external circuits (up to 20mA

load current).

Bypass capacitors of 1µF and 0.1µF are recommended

at V

and INTV

, respectively. R

should be chosen to

accommodate the maximum supply current requirement

of the LTC4261/LTC4261-2 (5mA) plus the supply current

required by any external devices driven by the V

and

INTV

pins at the minimum intended operation voltage.

≤

48V(MIN)

– V

Z(MAX)

IN(MAX)

+ I

EXTERNAL

The maximum power dissipation in the resistor is:

MAX

48V(MAX)

– V

Z(MIN)

( )

If the power dissipation is too high for a single resistor,

use multiple resistors in series or supply external loads

from a separate NPN buffer as illustrated in Figure 3.

Initial Start-Up and Inrush Control

Several conditions must be satisfied before the FET turn-on

sequence is started. First the voltage at V

must exceed

its 9V undervoltage lockout level. Next the internal supply

INTV

must cross its 4.25V undervoltage lockout level.

This generates a 100µs to 160µs power-on-reset pulse

during which the FAULT register bits are cleared and the

CONTROL register bits are set or cleared as described in

the register section. After the power-on-reset pulse, the

voltages at the UVH, UVL and OV pins must satisfy UVH

> 2.56V, UVL > 2.291V and OV < 1.77V to indicate that

the input power is within the acceptable range and the EN

pin must be pulled low. All the above conditions must be

satisfied throughout the duration of the start-up debounce

delay that is set by an external capacitor (C

TMR

) connected

to the TMR pin. C

TMR

is charged with a pull-up current of

APPLICATIONS INFORMATION

RTN

100Ω

BCP56

INTV

10.5V OR 4.3V

42612 F03

Figure 3. NPN Buffer Relieves R

of Excessive Dissipation

when Supplying External Loads

1 2 ... 9 10 11 12 13 14 15 16 17 18 19 ... 33 34

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