JFW150F1 Lineage Power, JFW150F1 Datasheet - Page 16

JFW150F1

Manufacturer Part Number

JFW150F1

Description

CONVERTER DC/DC 3.3V 99W OUT

Manufacturer

Lineage Power

Series

JFWr

Type

Isolatedr

Datasheet

1.JFW150F1.pdf (24 pages)

Specifications of JFW150F1

Output

3.3V

Number Of Outputs

Power (watts)

99W

Mounting Type

Through Hole

Voltage - Input

36 ~ 75V

Package / Case

Module

1st Output

3.3 VDC @ 30A

Size / Dimension

2.40" L x 2.28" W x 0.50" H (61mm x 57.9mm x 12.7mm)

Power (watts) - Rated

99W

Operating Temperature

-40°C ~ 100°C

Efficiency

80%

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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dc-dc Converters; 36 to 75 Vdc Input; 3.3 Vdc Output; 33 W to 99 W

Thermal Considerations

Introduction

The JFW-Series power modules operate in a variety of

thermal environments; however, sufficient cooling

should be provided to help ensure reliable operation of

the units. Heat-dissipating components inside the units

are thermally coupled to the case. Heat is removed by

conduction, convection, and radiation to the surround-

ing environment. Proper cooling can be verified by

measuring the case temperature. Peak temperature

Note: Top view, measurements shown in millimeters and (inches).

Figure 27. Case Temperature Measurement

The temperature at this location should not exceed

100 °C. The output power of the module should not

exceed the rated power for the module as listed in the

Ordering Information table.

Although the maximum case temperature of the power

modules is 100 °C, you can limit this temperature to a

lower value for extremely high reliability.

For additional information regarding this module, refer to

the Thermal Management JC-, JFC-, JW-, and JFW-

Series 50 W to 150 W Board-Mounted Power Modules

Technical Note (TN97-008EPS).

Heat Transfer Without Heat Sinks

Increasing airflow over the module enhances the heat

transfer via convection. Figure 28 shows the maximum

power that can be dissipated by the module without

exceeding the maximum case temperature versus local

ambient temperature (T

through 4 m/s (800 ft./min.).

7.6 (0.30)

) occurs at the position indicated in Figure 27.

Pin locations are for reference only.

Location

38.0 (1.50)

) for natural convection

TEMPERATURE HERE

MEASURE CASE

8-1397 (C).a

Note that the natural convection condition was mea-

sured at 0.05 m/s to 0.1 m/s (10 ft./min. to 20 ft./min.);

however, systems in which this power module may be

used typically generate a natural convection airflow

rate of 0.3 m/s (60 ft./min.) due to other heat dissipating

components in the system. The use of Figure 28 is

shown in the following example.

Example

What is the minimum airflow necessary for a JFW150F

operating at V

maximum ambient temperature of 40 °C?

Solution

Given: V

Determine P

Determine airflow (v) (Use Figure 28.):

Figure 28. Forced Convection Power Derating with

v = 1.85 m/s (370 ft./min.)

= 20 A

= 54 V

= 40 °C

0.1 m/s (NAT. CONV.)

= 16W

No Heat Sink; Either Orientation

(Use Figure 32.):

LOCAL AMBIENT TEMPERATURE, T

= 54 V, an output current of 20 A, and a

(20 ft./min.)

4.0 m/s (800 ft./min

3.5 m/s (700 ft./min

3.0 m/s (600 ft./min

2.5 m/s

2.0 m/s

1.5 m/s (300 ft./min

1.0 m/s (200 ft./min

0.5 m/s (100 ft./min

Lineage Power

(500 ft./min

(400 ft./min

April 2008

(˚C)

8-1150 (C).a

100

JFW150F1 Lineage Power, JFW150F1 Datasheet - Page 16

JFW150F1

Specifications of JFW150F1

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