FW300R1 Lineage Power, FW300R1 Datasheet - Page 12

FW300R1

Manufacturer Part Number

FW300R1

Description

CONVERTER DC/DC 28V 300W OUT

Manufacturer

Lineage Power

Series

FW300r

Type

Isolated with Remote On/Offr

Datasheet

1.FW300R1.pdf (20 pages)

Specifications of FW300R1

Output

28V

Number Of Outputs

Power (watts)

300W

Mounting Type

Through Hole

Voltage - Input

36 ~ 75V

Package / Case

Module

1st Output

28 VDC @ 10.7A

Size / Dimension

4.60" L x 2.40" W x 0.53" H (116.8mm x 61mm x 13.5mm)

Power (watts) - Rated

300W

Operating Temperature

-40°C ~ 100°C

Efficiency

90.5%

Approvals

CE, CSA, UL, VDE

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

3rd Output

2nd Output

4th Output

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FW250R1 and FW300R1 Power Modules: dc-dc Converters:

36 Vdc to 75 Vdc Input, 28 Vdc Output; 250 W to 300 W

Feature Descriptions

Overtemperature Protection

To provide protection in a fault condition, the unit is

equipped with an overtemperature shutdown circuit.

The shutdown circuit will not engage unless the unit is

operated above the maximum case temperature.

Recovery from overtemperature shutdown is

accomplished by cycling the dc input power off for at

least 1.0 second or toggling the primary referenced

on/off signal for at least 1.0 second.

Forced Load Sharing (Parallel Operation)

For either redundant operation or additional power

requirements, the power modules can be conﬁgured for

parallel operation with forced load sharing (see

Figure 17). For a typical redundant conﬁguration,

Schottky diodes or an equivalent should be used to

protect against short-circuit conditions. Because of the

remote sense, the forward-voltage drops across the

Schottky diodes do not affect the set point of the

voltage applied to the load. For additional power

requirements, where multiple units are used to develop

combined power in excess of the rated maximum, the

Schottky diodes are not needed.

Good layout techniques should be observed for noise

immunity. To implement forced load sharing, the follow-

ing connections must be made:

When not using the parallel feature, leave the

PARALLEL pin open.

The parallel pins of all units must be connected

together. The paths of these connections should be

as direct as possible.

All remote-sense pins should be connected to the

power bus at the same point, i.e., connect all

SENSE(+) pins to the (+) side of the power bus at the

same point and all SENSE(–) pins to the (–) side of

the power bus at the same point. Close proximity and

directness are necessary for good noise immunity.

(continued)

Figure 17. Wiring Conﬁguration for Redundant

Power Good Signal

The PWR GOOD pin provides an open-drain signal

(referenced to the SENSE(–) pin) that indicates the

operating state of the module. A low impedance

(<100 ) between PWR GOOD and SENSE(–) indi-

cates that the module is operating. A high impedance

(>1 M ) between PWR GOOD and SENSE(–) indi-

cates that the module is off or has failed. The PWR

GOOD pin can be pulled up through a resistor to an

external voltage to facilitate sensing. This external volt-

age level must not exceed 40 V, and the current into the

PWR GOOD pin during the low-impedance state

should be limited to 1 mA maximum.

Parallel Operation

CASE

ON/OFF

CASE

ON/OFF

(+)

(–)

(+)

(–)

PARALLEL

SENSE(+)

SENSE(–)

SENSE(+)

SENSE(–)

(+)

(–)

(+)

(–)

Tyco Electronics Corp..

March 2000

Data Sheet

8-581 (C)

FW300R1 Lineage Power, FW300R1 Datasheet - Page 12

FW300R1

Specifications of FW300R1

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