ISL6144IRZA Intersil, ISL6144IRZA Datasheet - Page 15

ISL6144IRZA

Manufacturer Part Number

ISL6144IRZA

Description

IC CTRLR O-RING MOSFET HV 20-QFN

Manufacturer

Intersil

Datasheet

1.ISL6144IVZA.pdf (29 pages)

Specifications of ISL6144IRZA

Applications

Telecom/Datacom Systems

Fet Type

N-Channel

Number Of Outputs

Internal Switch(s)

Delay Time - On

1ms

Delay Time - Off

250ns

Voltage - Supply

10 V ~ 75 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

20-VQFN Exposed Pad, 20-HVQFN, 20-SQFN, 20-DHVQFN

Rohs Compliant

Yes

Package

20QFN EP

Output Voltage

-0.3 to 100 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Supply

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISL6144IRZA

Manufacturer:

Intersil

Quantity:

135

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ISL6144IRZA

Manufacturer:

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Company:

Bonase Electronics (HK) Co., Limited

Part Number:

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Manufacturer:

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Quantity:

4 800

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Input Voltage Range (+9V to +75V)

The ISL6144 can operate in equipment with voltages in the

+9V to +75V range. The ISL6144 can also be used in

systems with negative voltages -9V to -75V, but it has to be

placed on the return (high) side. For example, in ATCA

systems, an ORing of both the low (-48V) and high (-48V

Return) sides is required. In this case the ISL6144 can be

used on the high side.

The ISL6144 draws bias from both the input and output

sides. External bias voltage rail is not needed and cannot be

used. As soon as the Input voltage reaches the minimum

operational voltage, the internal charge pump turns on and

provides gate voltage to turn-on the ORing FET.

Multiple Feed ORing (ISL6144EVAL1Z)

In today’s high availability systems, two or more power

supplies can be paralleled to provide redundancy and fault

tolerance. These paralleled power supplies operate in an

active ORing mode where all of these supplies share the

load current, depending on the redundancy scheme

implemented in the particular system. The power system

must be able to continue its normal operation, even in the

event of one or more failures of these power supplies. Faults

occurring on the power supply side need to be isolated from

the common bus point connected to the system critical

loads. This fault isolation device is known as the ORing

device. The function of the ORing device is to pass the

forward supply current flowing from the power supply side

and block the reverse fault current. A fault current might flow

if a short occurs on the input side (typically this could be a

power supply output capacitor short). In this case, the input

voltage drops and current may flow in the reverse direction

from the load to the input, causing the common bus to drop

and the system to fail. Although ORing diodes are simple to

implement in such systems, they suffer from many

drawbacks, as outlined earlier.

The ISL6144 (with an external N-Channel MOSFET)

provides an integrated solution to perform the ORing

function in high availability systems, while increasing power

system efficiency at the same time.

Operating Instructions and Functional

Tests

Test setup for ISL6144EVAL1Z is shown in Figures 16 and

17 with two options for the input power sources.

Option 1: Using two identical bench power supplies (BPS)

connected directly to the ISL6144EVAL1Z Control Board

(refer to Figure 16). Just make sure to program the voltages

on PS1_V1 and PS2_V2 to identical values so that they

share the load current. A MOSFET (Q

the Input of one or both feeds as close as possible to the

input connectors of the ISL6144EVAL1Z board. Slow turn-off

of the input BPS can be performed by the on/off button

short

) is connected at

ISL6144

(depending on the output capacitance value of the power

supply/module, a local loading resistor might be needed to

help discharge the BPS output capacitor). An output

capacitor C

in the final power system solution) is connected to the

Common Bus point (V

used (power resistors, electronic load or simply another

DC/DC converter).

Option 2: Using a custom designed DC/DC converter Power

Board which consists of two DC/DC modules connected in

current sharing configuration, each DC/DC module output

can be turned off slowly using the ON/OFF pin or can be

shorted using on-board Power MOSFET (Refer to

Figure 17). In this case also, similar considerations for C

and type of load apply as in option 1.

BENCH POWER

SUPPLIES

*Power Modules Board can be replaced by bench power supplies or

any discrete DC/DC modules. Just make sure to adjust both V

and V

two modules (Refer to option 1 and Figure17).

*Auxiliary power supply is used to power the LED circuit. If V

less than 16V, J1 can be connected directly to V

higher than 16V, we still can use V

zener diode has to be connected from FAULT to GND to clamp the

voltage across the pin to 16V or lower.

AUX PS

BENCH POWER

+48V

PS1

PS2

AUX PS*

SUPPLIES

OUT2

+48V

FIGURE 17. TEST SETUP USING DC/DC MODULES

PS1

PS2

FIGURE 16. TEST SETUP USING BENCH PS

PS1_V1RTN

PS2_V2

PS2_V2RTN

PS1_V1

close to each other to allow current sharing between the

OUT

PS1_V1 = V

PS1_V1RTN

PS2_V2 = V

PS2_V2RTN

(equivalent to the capacitor that will be used

USED ONLY FOR POWERING THE LEDs

POWER MODULES

USED ONLY FOR POWERING THE LEDS

PRI_GND

OUT

IN1

IN2

BOARD*

DC/DC 1

DC/DC 2

SHORT

). Different types of loads can be

OUT2

OUT1

GND

OUT

to replace AUX PS, but a

ISL6144EVAL1Z

GND

ISL6144EVAL1Z

IN1

IN2

GND

CONTROL

IN1

IN2

CONTROL

BOARD

OUT

5V_AUX

GND

OUT

GND

OUT

(J5). If V

January 6, 2011

OUT

FN9131.6

OUT

OUT1

OUT

ISL6144IRZA Intersil, ISL6144IRZA Datasheet - Page 15

ISL6144IRZA

Specifications of ISL6144IRZA

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