PKM4510EPIHSLA Ericsson Power Modules, PKM4510EPIHSLA Datasheet - Page 34

PKM4510EPIHSLA

Manufacturer Part Number

PKM4510EPIHSLA

Description

DC/DC CONVERTERS

Manufacturer

Ericsson Power Modules

Datasheet

1.PKM4510EPIHSLA.pdf (37 pages)

Specifications of PKM4510EPIHSLA

Package

8Quarter-Brick

Current page: 34 of 37
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Over Temperature Protection (OTP)

The PKM 4000E Series DC/DC converters are protected

from thermal overload by an internal over temperature

shutdown circuit . When the PCB temperature adjacent to

the PWM control circuit exceeds 120 ºC the converter will

shut down immediately . The converter will make continuos

attempts to start up (non-latching mode) and resume normal

operation automatically when the temperature has dropped

>10ºC below the temperature threshold .

Operating Information

PKM 4000E PI Datasheet

Current Limit Protection

The PKM 4000E Series DC/DC converters include current

limiting circuitry that allows them to withstand continuous

overloads or short circuit conditions on the output . The out-

put voltage will decrease towards zero for output currents in

excess of max output current (Iomax) .

The converter will resume normal operation after removal

of the overload . The load distribution system should be

designed to carry the maximum output short circuit current

specified .

Over Voltage Protection (OVP)

The PKM 4000E Series DC/DC converters have output over-

voltage protection . In the event of an overvoltage condition,

the converter will shut down immediately . The converter will

make continuous attempts to start up (non-latching mode)

and resume normal operation automatically .

Input And Output Impedance

The impedance of both the power source and the load will

interact with the impedance of the DC/DC converter . It is

most important to have a ratio between L and C as low as

possible, i .e . a low characteristic impedance, both at the in-

put and output, as the converters have a low energy storage

capability . The PKM 4000E Series DC/DC converters have

been designed to be completely stable without the need

for external capacitors on the input or the output circuits .

The performance in some applications can be enhanced by

addition of external capacitance as described under maxi-

mum capacitive load . If the distribution of the input voltage

source to the converter contains significant inductance, the

addition of a 100µF capacitor across the input of the con-

verter will help insure stability . This capacitor is not required

when powering the DC/DC converter from a low impedance

source with short, low inductance, input power leads .

Maximum Capacitive Load

Parallel Operation

The PKM 4000E Series DC/DC converters can be paralleled

for redundancy if external o-ring diodes are used in series

with the outputs . It is not recommended to parallel the PKM

4000E Series DC/DC converters for increased power without

using external current sharing circuits .

When powering loads with significant dynamic current

requirements, the voltage regulation at the load can be

improved by addition of decoupling capacitance at the load .

The most affective technique is to locate low ESR ceramic

capacitors as close to the load as possible, using several

capacitors to lower the effective ESR . These ceramic ca-

pacitors will handle short duration high-frequency compo-

nents of dynamic load changes . In addition, higher values of

electrolytic capacitors should be used to handle the mid-fre-

quency components . It is equally important to use good de-

sign practise when configuring the DC distribution system .

Low resistance and low inductance PCB (printed circuit

board) layouts and cabling should be used . Remember that

when using remote sensing, all resistance, inductance and

capacitance of the distribution system is within the feed-

back loop of the converter . This can affect on the convert-

ers compensation and the resulting stability and dynamic

response performance . As a “rule of thumb”, 100µF/A of

output current can be used without any additional analysis .

For example with a 25A converter, values of decoupling

capacitance up to 2500 µF can be used without regard to

stability . With larger values of capacitance, the load transient

recovery time can exceed the specified value . As much of

the capacitance as possible should be outside the remote

sensing loop and close to the load . The absolute maximum

value of output capacitance is 10 000 µF . For values larger

than this, please contact your local Ericsson Power Modules

representative .

PKM4510EPIHSLA Ericsson Power Modules, PKM4510EPIHSLA Datasheet - Page 34

PKM4510EPIHSLA

Specifications of PKM4510EPIHSLA

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