CC109102992 Lineage Power, CC109102992 Datasheet - Page 31

CC109102992

Manufacturer Part Number

CC109102992

Description

Module DC-DC 1-OUT 12V 10A 10-Pin Quarter-Brick

Manufacturer

Lineage Power

Type

Step Downr

Datasheet

1.108965518.pdf (37 pages)

Specifications of CC109102992

Package

10Quarter-Brick

Output Current

10 A

Output Voltage

12 V

Input Voltage

48 V

Number Of Outputs

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Data Sheet

June 15, 2009

Thermal Considerations

The power modules operate in a variety of thermal environ-

ments; however, sufficient cooling should be provided to help

ensure reliable operation of the unit. Heat-dissipating compo-

nents are mounted on the top side of the module. Heat is

removed by conduction, convection and radiation to the sur-

rounding environment. Proper cooling can be verified by

measuring the temperature of selected components on the

topside of the power module (See 56). Peak temperature

(Tref) can occur at any of these positions indicated in Figure

50.

Note:Top view, pin locations are for reference only.

Figure 56. Temperature Measurement Location.

The temperature at any one of these locations should not

exceed per 1 to ensure reliable operation of the power mod-

ule. The output power of the module should not exceed the

rated power for the module as listed in the Ordering Informa-

tion table.

Although the maximum Tref temperature of the power mod-

ules is per 1, you can limit these temperatures to a lower

value for extremely high reliability.

Table 1.

Lineage Power

Thermocouple

Location T

Output Voltage

1.0V

1.2V

1.5V

1.8V

2.5V

3.3V

12V

Device Temperature

ref

Airflow

Device

Tref1

Tref2

Tref3

Tref1

Thermocouple

Location T

QRW010/025/035/040 Series Power Modules; dc-dc Converters

ref

Thermocouple

Location T

Temperature (°C)

116

119

118

117

118

114

112

130

113

118

36 Vdc - 75 Vdc Input, 1.0 to 12 Vdc Output; 10 A to 40 A

ref

Heat Transfer Without Heat Sinks

Increasing airflow over the module enhances the heat trans-

fer via convection. Figures 57 through 64 shows the maxi-

mum current that can be delivered by the corresponding

module without exceeding the maximum case temperature

versus local ambient temperature (TA) for natural convection

through 2 m/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, sys-

tems 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 output power derating curve is shown in the fol-

lowing example.

What is the minimum airflow necessary for a QRW035A0F

operating at VI = 48 V, an output current of 23A, and a maxi-

mum ambient temperature of 70 °C.

Solution

Given: VI = 48V

Io = 23A

TA = 70 °C

Determine airflow (v) (Use Figure 62):

v = 1m/sec. (200ft./min.)

Figure 57. Output Power Derating for QRW040A0S1R0

Figure 58. Output Power Derating for QRW040A0P (Vo =

(Vo = 1.0V) in Transverse Orientation with No

Baseplate; Airflow direction from VIN (+) to

VIN (–); VIN = 48V.

LOCAL AMBIENT TEMPERATURE, T (°C)

1.2V) in Transverse Orientation with No

Baseplate; Airflow direction from VIN (+) to

VIN (–); VIN = 48V.

LOCAL AMBIENT TEMPERATURE, T (°C)

CC109102992 Lineage Power, CC109102992 Datasheet - Page 31

CC109102992

Specifications of CC109102992

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