JHW350R1 Datasheet, PDF(12/16 Page) Lineage Power Corporation – 18 - 36Vdc or 36

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JHW350R1 Datasheet, PDF (12/16 Pages) Lineage Power Corporation – 18 - 36Vdc or 36 - 75Vdc Input; 28Vdc Output; 350W

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Data Sheet

March 26, 2008

JHC/JHW350 Power Module; dc-dc Converter

18 â 36Vdc or 36 â 75Vdc Input; 28Vdc Output; 350W

Thermal Considerations

The power modules operate in a variety of thermal

environments; however, sufficient cooling should be

provided to help ensure reliable operation of the unit.

Heat-dissipating components inside the unit are

thermally coupled to the case. Heat is removed by

conduction, convection, and radiation to the

surrounding environment. Proper cooling can be

verified by measuring the case temperature. Peak

temperature (TC) occurs at the position indicated in

Figure 20.

Considerations include ambient temperature, airflow,

module power dissipation, and the need for increased

reliability. A reduction in the operating temperature of

the module will result in an increase in reliability. The

thermal data presented here is based on physical

measurements taken in a wind tunnel.

For reliable operation this temperature should not

exceed 100ÂºC threshold.

MEASURE CASE

TEMPERATURE HERE (Tc)

VI(+)

ON/OFF

30.5

(1.20)

CASE

VI(-)

VO(+)

+ SEN

TRIM

- SEN

VO(-)

29.0

(1.14)

Figure 20. Metal Case (Tc ) Temperature

Measurement Location (top view).

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 Tc temperature of the power

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

lower value for extremely high reliability.

Please refer to the Application Note âThermal

Characterization Process For Open-Frame Board-

Mounted Power Modulesâ for a detailed discussion of

thermal aspects including maximum device

temperatures.

Heat Transfer via Convection

Increased airflow over the module enhances the heat

transfer via convection. Following derating figures

shows the maximum output power that can be

delivered by each module in the respective orientation

without exceeding the maximum TC temperature

versus local ambient temperature (TA) for natural

convection through 2m/s (400 ft./min).

Note that the natural convection condition was

measured at 0.05 m/s to 0.1 m/s (10ft./min. to 20

ft./min.); however, systems in which these power

modules may be used typically generate natural

convection airflow rates of 0.3 m/s (60 ft./min.) due to

other heat dissipating components in the system. The

use of Figure 21 is shown in the following example:

Example

What is the minimum case temperature must be

maintained to operate a JHW350R at Vin = 48 V, an

output power of 300W in longitudinal orientation.

Solution:

Given: VI = 48V

Po = 300W

Determine case temperature (Use Figure 21):

TC = 92 Â°C

400

350

300

250

200

150

100

20 30 40 50 60 70 80 90 100 110

CASE TEMPERATURE, TC (Â°C)

Figure 21. Output Power Derating for JHC/JHW350R

(Vo = 28V) in Longitudinal Orientation; Airflow

Direction From Vin(â) to Vout(--); Vin = Vin, nom

LINEAGE POWER.

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