Q48SG12034NRFA Datasheet, PDF(10/26 Page) Delta Electronics, Inc. – Delphi Series Q48SG Quarter Brick Family Full Digital Control DC/DC Power Modules:

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Q48SG12034NRFA Datasheet, PDF (10/26 Pages) Delta Electronics, Inc. – Delphi Series Q48SG Quarter Brick Family Full Digital Control DC/DC Power Modules:

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FEATURES DESCRIPTIONS

Over-Current Protection

The modules include an internal output over-current

protection circuit. If the output current exceeds the OCP

set point, the modules will shut down, and enter hiccup

mode or latch mode. For hiccup mode, the module will

try to restart after shutdown. If the overload condition

still exists, the module will shut down again. This restart

trial will continue until the overload condition is

corrected. For latch mode, the module will shut down

and not attempt to restart. The latch is reset by either

cycling the input power or by toggling the primary on/off

signal for one second. The OCP threshold and

protection mode can be reconfigured by the PMBus

Interface; the default configuration is hiccup mode.

Over-Voltage Protection

The modules include an internal output over-voltage

protection circuit. If output voltage exceeds the

over-voltage set point, the module will shut down, and

enter in hiccup mode or latch mode. For hiccup mode,

the module will try to restart after shutdown. If the output

overvoltage condition still exists, the module will shut

down again. This restart trial will continue until the

over-voltage condition is corrected. For latch mode, the

module will shut down and not attempt to restart. The

latch is reset by either cycling the input power or by

toggling the primary on/off signal for one second. The Vo

OVP threshold and protection mode can be reconfigured

by the PMBus Interface; The default configuration is

hiccup mode.

Over-Temperature Protection

The modules include an internal over-temperature

protection circuit. If the module temperature exceeds the

over-temperature threshold the module will shut down,

and enter in auto-recovery mode or latch mode. For

auto-recovery mode, the module will monitor the module

temperature after shutdown. Once the temperature is

dropped and within the specification, the module will be

auto-recovery. For latch mode, the module will shut

down and not attempt to restart. The latch is reset by

either cycling the input power or by toggling the primary

on/off signal for one second. The OTP threshold and

protection mode can be reconfigured by the PMBus

Interface; The default configuration is hiccup mode.

Primary Remote On/Off

The primary remote on/off feature on the module can be

either negative or positive logic. Negative logic turns the

module on during a logic low and off during a logic high.

Positive logic turns the modules on during a logic high

and off during a logic low.

DS_Q48SG12034_06272013

The primary remote on/off can be controlled by an

external switch between the on/off terminal and the Vi(-)

terminal. The switch can be an open collector or open

drain. If the remote on/off feature is not used, for negative

logic, please short the on/off pin to Vi(-); For positive logic,

please leave the on/off pin floating. The module will not

response to the remote on/off signal which is less than

120us. The primary remote on/off logic can be

reconfigured by the PMBus Interface.

Vi(+)

Vo(+)

ON/OFF

Load

Vi(-)

Vo(-)

Figure 17: Remote on/off implementation

Secondary Remote On/Off

Reference to the Vo(-) terminal, there is a C2 pin. The

default configuration is set to ignore this input. And such

pin can be reconfigured as secondary remote on/off pin

by the PMBus interface including either negative or

positive logic. Negative logic turns the module on during

a logic low and off during a logic high. Positive logic

turns the modules on during a logic high and off during a

logic low. The secondary remote on/off can be controlled

by an external switch between the on/off terminal and

the Vo(-) terminal. The switch can be an open collector

or open drain.

Parallel and Droop Current Sharing

The modules are capable of operating in parallel, and

realizing current sharing by droop current sharing

method. There is about 500mV output voltage droop

from 0A to full output Load, and there is no current

sharing pin. By connectting the Vin pin and the Vo pin of

the parallel module together, the current sharing can be

realized automatically.

Vin+

Vo+

On/off Module I

Vin

Vin-

Vo-

Load

Vin+

Vo+

On/off Module II

Vin-

Vo-

Figure 18: Parallel and droop current sharing configuration for

no redundancy requirement system

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