ISL6140IBZ Intersil, ISL6140IBZ Datasheet - Page 10

ISL6140IBZ

Manufacturer Part Number

ISL6140IBZ

Description

IC CONTROLLER HOT PLUG 8-SOIC

Manufacturer

Intersil

Type

Hot-Swap Controllerr

Datasheet

1.ISL6140CBZ.pdf (19 pages)

Specifications of ISL6140IBZ

Applications

General Purpose, VoIP

Internal Switch(s)

Voltage - Supply

36 V ~ 72 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (0.154", 3.90mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 10 of 19
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the requirement, and are also readily available

standard values.

The three resistors (R

approach for most cases. But if acceptable values can’t

be found, then consider 2 separate resistor dividers

(one for each pin; both from V

allows the user to adjust or trim either trip point

independently.

Note that the top of the resistor dividers is shown in

Figure 29 as GND (Short pin). In a system where cards

are plugged into a backplane (or any other case where

pins are plugged into an edge connector) the user may

want to take advantage of the order in which pins

make contact. Typically, pins on either end of the card

make contact first (although you may not know which

end is first). If you combine that with designating a pin

near the center as the short pin GND, and make it

shorter than the rest, then it should be the last pin to

make contact.

The advantage of doing this: the V

connections are made first. The IC is powered up, but

since the top of the resistor divider is still open, both

the UV and OV pins are pulled low to V

keep the gate off. This allows the IC time to get

initialized, and also allows the power supply to charge

up any input capacitance. By the time the resistor

divider makes contact, the power supply voltage on the

card is presumably stabilized, and the IC ready to

respond; when the UV pin reaches the proper voltage,

the IC will turn on the GATE of the FET, and starts the

controlled inrush current charging.

Note that this is not a requirement; if the IC gets

powered at the same time as the rest of the board, it

should be able to properly control the inrush current.

But if finer control is needed, there are many variables

involved to consider: the number of pins in the

connector; the lengths of the pins; the amount of

mechanical play in the pin-to-connector interface; the

amount of extra time versus the shorter pin length; the

amount of input capacitance versus the ability of the

power supply to charge it; the manufacturing cost

adder (if any) of different length pins; etc.

Applications: PWRGD/PWRGD

The PWRGD/PWRGD outputs are typically used to

directly enable a power module, such as a DC/DC

converter. The PWRGD (ISL6140) is used for modules

with active low enable (L version); PWRGD (ISL6150)

for those with active high enable (H version). The

modules usually have a pull-up device built-in, as well

as an internal clamp. If not, an external pull-up resistor

may be needed, since the output is open drain. If the

pin is not used, it can be left open.

For both versions, the PG comparator compares the

DRAIN pin to V

if the voltage drop exceeds VPG (1.7V nominal), that

implies the drop across the FET is too high, and the

PWRGD pin should go in-active (power-NO-GOOD).

(connected to the source of the FET);

, R

) is the recommended

to V

and V

). This also

, which will

ISL6140, ISL6150

ISL6140 (L version; Figure 6): Under normal

conditions (DRAIN < VPG), the Q2 DMOS will turn on,

pulling PWRGD low, enabling the module.

When the DRAIN is too high, the Q

(high impedance), and the pin will be pulled high by

the external module (or an optional pull-up resistor or

equivalent), disabling the module. If a pull-up resistor

is used, it can be connected to any supply voltage that

doesn’t exceed the IC pin maximum ratings on the

high end, but is high enough to give acceptable logic

levels to whatever signal it is driving. An external

clamp may be used to limit the range.

The PWRGD can also drive an opto-coupler (such as a

4N25), as shown in Figure 7 or LED (Figure 8). In both

cases, they are on (active) when power is good.

Resistors R

voltage, and the amount of current needed by the

loads.

(1.7V)

VPG (1.7V)

(SECTION OF) ISL6140

(L VERSION)

(SECTION OF) ISL6140

(L VERSION)

(1.7V)

VPG

FIGURE 7. ACTIVE LOW ENABLE OPTO-ISOLATOR

VPG

(SECTION OF) ISL6140

(L VERSION)

FIGURE 8. ACTIVE LOW ENABLE WITH LED

FIGURE 6. ACTIVE LOW ENABLE MODULE

or R

are chosen, based on the supply

PWRGD

DRAIN

PWRGD

DRAIN

PWRGD

DRAIN

DMOS will shut off

OPTO

ON/OFF

MODULE

ACTIVE

ENABLE

LED (GREEN)

LOW

OUT

PWRGD

FN9039.4

ISL6140IBZ Intersil, ISL6140IBZ Datasheet - Page 10

ISL6140IBZ

Specifications of ISL6140IBZ

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