GPH3V3-40 Galaxy Semi-Conductor Holdings Limited, GPH3V3-40 Datasheet - Page 7

GPH3V3-40

Manufacturer Part Number

GPH3V3-40

Description

Manufacturer

Galaxy Semi-Conductor Holdings Limited

Datasheet

1.GPH3V3-40.pdf (8 pages)

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GPH5V0-40 is:

Thermal Considerations:

Thermal considerations are an important factor in the

reliable operation of the converter. The maximum

operating baseplate temperature is 100°C. The

maximum recommended operating baseplate

temperature is 90°C. The baseplate temperature is a

function of the losses within the converter, the converter

ambient temperature, and airflow across the heat sink.

The reference baseplate temperature is measured at the

center coordinates of the baseplate.

The baseplate temperature can be approximated by the

following equation:

Where:

Recommended Input Filter, Fuse and Case

Connections: A fuse is required in series with the plus

or minus side of the 48V input to meet safety

requirements. The following input filter circuit is

recommended for all applications. The fuse should be

inserted between the capacitors and the plus or minus

input of the converter. The case should be connected to

the output return.

Hercules Series, Page 7

The resistor value in Kohms for the GPH5V0-30 and

BASEPLATE

converter

η is the efficiency of the converter (see table on page

baseplate to the ambient environment. This is a

function of the heat sink and air velocity. See table

on page 5 for thermal resistance characteristics.

BASEPLATE

AMBIENT

BASEPLATE

TRIM

= P

is the local ambient temperature around the

OUTPUT

is the temperature of the baseplate.

AMBIENT

= —————— + 1.0KΩ

*—————*R

1 – η

is the thermal resistance from the

1.0

– 5.0)

BASEPLATE

AMBIENT

Application Notes

+ T

WWW.GALAXYPWR.COM

AMBIENT

Paralleling Converters: Two to five converters can be

paralleled as long as the following conditions are met.

When all of the converters are from the same

manufacturer the current share pins must be connected

together and the sync pins may be connected together if

desired.

When converters from different manufacturers are

paralleled, the current share pins must be connected

together and the sync pins must NOT be connected

together.

The maximum output current for paralleled

configurations is shown in the table on page 5.

When a converter fails in a parallel configuration it may

or may not deassert its MODOK_L signal.

It should also be noted that current for the control

circuit in the converter flows through the – SENSE lead.

For this reason it is important to keep the impedance

between the – SENSE pins on the converters in a

parallel configuration low. The best approach is to

connect the – SENSE pins together with as large of an

etch as possible (250 milliohms maximum

recommended) and then run a single set of sense leads

to the remote sense point at the load.

In (+)

In (–)

48V RTN

100V

1µF

48V

C2-C4 1µF, 100V Ceramic capacitor

100V

1µF

Common Mode Inductor

270µF, 63V Aluminum Electrolytic Capacitor

270µF

Input

–

P Enable

Case

63V

Converter

DC/DC

Output

Part No. 98–002 Rev. 1.1

100V

1µF

–

In (+)

In (–)

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GPH3V3-40 Galaxy Semi-Conductor Holdings Limited, GPH3V3-40 Datasheet - Page 7

GPH3V3-40

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