EQW025A0P1 Datasheet, PDF(15/25 Page) Lineage Power Corporation – 36 - 75Vdc Input; 1.2Vdc to 5Vdc Output; 12A to 25A Output

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EQW025A0P1 Datasheet, PDF (15/25 Pages) Lineage Power Corporation – 36 - 75Vdc Input; 1.2Vdc to 5Vdc Output; 12A to 25A Output

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Data Sheet

December 12, 2008

EQW012/020/023/025 Series, Eighth-Brick Power Modules:

36 - 75Vdc Input; 1.2Vdc to 5Vdc Output; 12A to 25A Output

Feature Description (Continued)

Overcurrent Protection

To provide protection in a fault (output overload)

condiÂ¬tion, the module is equipped with internal

current-limiting circuitry, and can endure current

limiting continuously. At the instance of current-limit

inception, the output current begins to tail-out. When

an overcurrent condition exists beyond a few

seconds, the module enters a âhiccupâ mode of

operaÂ¬tion, whereby it shuts down and automatically

attempts to restart upon cooling. While the fault

condition exists, the module will remain in this hiccup

mode, and can remain in this mode until the fault is

cleared. The unit operates normally once the output

current is reduced back into its specified range.

Output Over Voltage Protection

The output overvoltage protection clamp consists of

control circuitry, independent of the primary regulation

loop, that monitors the voltage on the output

terminals. This control loop has a higher voltage set

point than the primary loop (See the overvoltage

clamp values in the Feature Specifications Table). In

a fault condition, the overvoltage clamp ensures that

the output voltage does not exceed Vo,ovsd, max.

This provides a redundant voltage-control that

reduces the risk of output overvoltage.

Input Undervoltage Lockout

At input voltages below the input undervoltage lockout

limit, the module operation is disabled. The module

will begin to operate at an input voltage between the

undervoltage lockout limit and the minimum operating

input voltage.

Overtemperature Protection

To provide protection under certain fault conditions,

the unit is equipped with a thermal shutdown circuit.

The unit will shutdown if the thermal reference point

Tref (Figure 43), exceeds 125oC (typical), but the

thermal shutdown is not intended as a guarantee that

the unit will survive temperatures beyond its rating.

The module will automatically restarts after it cools

down.

Thermal Considerations

The power modules operate in a variety of thermal

environments; however, sufficient cooling should be

provided to help ensure reliable operation.

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.

The thermal reference point, Tref used in the

specifications is shown in Figure 43. For reliable

LINEAGE POWER

operation this temperature should not exceed 115 oC.

The output power of the module should not exceed

the rated power for the module (Vo, set x Io, max).

Tref

Air Flow

Figure 43. Tref Temperature Measurement

Location.

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. Derating figures showing the

maximum output current that can be delivered by

each module versus local ambient temperature (TA)

for natural convection and up to 2m/s (400 ft./min) are

shown in the respective Characteristics Curves

section.

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