ISL6146AFRZ-T7A Intersil, ISL6146AFRZ-T7A Datasheet - Page 17

ISL6146AFRZ-T7A

Manufacturer Part Number

ISL6146AFRZ-T7A

Description

Hot Swap & Power Distribution LW VOLT ORING FET CONTRLR 3X3 8LD DFN

Manufacturer

Intersil

Datasheet

1.ISL6146AFUZ-T7A.pdf (28 pages)

Specifications of ISL6146AFRZ-T7A

Product Category

Hot Swap & Power Distribution

Rohs

yes

Product

Controllers & Switches

Current Limit

6 A

Supply Voltage - Max

20 V

Supply Voltage - Min

1 V

Operating Temperature Range

- 40 C to + 125 C

Mounting Style

SMD/SMT

Package / Case

DFN-8

Input / Supply Voltage (max)

20 V

Input / Supply Voltage (min)

1 V

Number Of Channels

Supply Current

25 uA

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Functional Description

Functional Overview

In a redundant power distribution system, similar potential and

parallel power supplies each contribute to the load current

through various active and passive current sharing schemes.

Typically OR-ing power diodes are used to protect against reverse

current flow in the event that one of the power supplies falls

below the common bus voltage or develops a catastrophic

failure. However, using a discrete OR-ing diode solution has some

significant drawbacks. The primary downside is the increased

power dissipation loss in the OR-ing diodes as system power

requirements increase. At the lowest voltages where the ISL6146

is designed for use, the voltage distribution losses across an

OR-ing diode can be a significant percentage, in some cases

approaching 70%. Another disadvantage when using an OR-ing

diode is failure to detect a shorted or opened current path, which

jeopardizes system power availability and reliability. An open

diode may reduce the system to a single point of failure while a

shorted diode eliminates the system’s power protection.

Using an active OR-ing FET controller, such as the ISL6146, helps

with these potential issues. The use of a low on-resistance FET as

the OR-ing component allows for a more efficient system design

as the voltage across the FET is much lower than that across a

forward biased diode. Additionally, the ISL6146 has a dedicated

fault (FAULT) output pin that indicates when there is a conditional

or FET fault short providing the diagnostic capability that a diode

is unable to.

The ISL6146 is designed to OR together voltages as low as 1V

when supplied with a separate bias supply of 3V or greater.

Otherwise, the ISL6146 is designed to be biased from and OR

voltages across the 3V to 20V nominal supply range.

In a single FET configuration as voltage is first applied to a VIN

pin, the FET body diode conducts providing all the ISL6146s

connected on a common bus circuit, bias via the VOUT pins. As

individual power supply voltages ramp up in excess of the rising

POR threshold, the ISL6146’s internal charge pump activates to

provide a floating gate drive voltage for the external N-channel

OR-ing MOSFET, thus turning the FETs on once V

ISL6146 continuously monitors the drain and source of the

OR-ing FET and provides a reverse voltage (N-channel MOSFET

indicates a reverse current condition. Once this threshold is

exceeded, the ISL6146 turns off the OR-ing FET by pulling down

the GATE pin to GND. The ISL6146 also provides high speed

VIN failure. The ISL6146 additionally provides for adjustment of

the V

ISL6146 with an external resistor to GND. This allows adjusting

the V

system voltage fluctuations, thus eliminating unnecessary

reaction by the ISL6146.

The total V

and the external programmed VR Vth.

OUT

- V

> V

- V

) detection threshold (VR) that, when exceeded,

OUT

transient protection as in the case of a catastrophic

- V

reverse voltage Vth(VR Vth) via the ADJ pin of the

voltage threshold level to compensate for normal

OUT

VR Vth is the sum of both the internal offset

> V

OUT

. The

ISL6146

In the event of a V

either with a high or low current pull-down on the GATE pin

depending on whether the High Speed comparator (HSCOMP)

has been activated or not. The HSCOMP determines if the VR

occurred within 1μs, by continuously monitoring the FET VDS and

if so, the high pull-down current is used to turn off the OR-ing FET.

In the event of a falling VIN transition in <1μs, (i.e., a catastrophic

failure of the power source) the HSCOMP protects the common

bus from the individual faulted power supply short by turning off

the shorted supply’s OR-ing MOSFET in less than 300ns, ensuring

the integrity of the common bus voltage from reverse current to

the damaged supply.

Once the correct V

ISL6146 again turns on the FET.

The FAULT pin is an open drain, active low output indicating that

a fault or specific condition has occurred, these include:

• GATE is OFF (GATE < V

• Faults resulting in V

• An open FET resulting in body diode conduction

• Excessive current through FET

• FET Faults monitored and reported include

On the ISL6146C version, a conditional fault is also signalled if

the V

The ISL6146 has an on-chip over-temperature fault threshold of

~+140°C with a 20°C hysteresis. Although the ISL6146 itself

produces little heat, it senses the environment in which it is,

likely including a close by FET.

The ISL6146A/D and ISL6146B/E are functional variants with an

enabling input of either polarity. This feature is used when the

need to interrupt the current path via signaling is necessary. This

is accomplished by implementing two FETs in series so that there

is a body diode positioned to block current in either direction.

This functionality is considered an additional enhancement to

the OR-ing diode it replaces.

The ISL6146C employs the use of a programmable Undervoltage

Lock Out (UVLO) and a programmable Overvoltage Protection (OVP)

input. This allows the GATE to only turn-on when the monitored

voltage is between the programmed lower and upper levels. This

application would use the back-to-back FET configuration. In the

event that the current path does not need to be interrupted then the

EN, UVLO and OVP inputs can all be overridden.

The ISL6146D and ISL6146E are variants of the ISL6146A and

ISL6146B respectively, the difference being the former do not

respond to a nonconduction condition (when enabled and

VIN>VOUT, the GATE is not on) unlike the latter that do signal

a fault.

just not on. ISL6146D and ISL6146E do not respond to this

condition

- G-D, gate unable to drive to Q-pump voltage

- G-S, gate unable to drive to Q-pump voltage

- D-S shorts, when GATE is OFF VDS < 2V

- V

- Missing V

- V

is not within the programmed UVLO and OVP levels.

< POR

shorted to GND

OUT

> V

OUT

- V

+0.2V). Lack of conduction, not a fault,

OUT

relationship is established again, the

condition, the ISL6146 responds

> 0.57V when ON

April 26, 2013

FN7667.4

ISL6146AFRZ-T7A Intersil, ISL6146AFRZ-T7A Datasheet - Page 17

ISL6146AFRZ-T7A

Specifications of ISL6146AFRZ-T7A

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