QBDW025A0B Datasheet, PDF(10/32 Page) Lineage Power Corporation – 36-75Vdc Input; 12.0Vdc, 25.0A, 300W Output

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QBDW025A0B Datasheet, PDF (10/32 Pages) Lineage Power Corporation – 36-75Vdc Input; 12.0Vdc, 25.0A, 300W Output

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Data Sheet

QBDW025A0B Barracuda Series; DC-DC Converter Power Modules

36-75Vdc Input; 12.0Vdc, 25.0A, 300W Output

Feature Descriptions (continued)

Load Sharing

For higher power requirements, the QBDW025A0 power

module offers an optional feature for parallel operation (-P

Option code). This feature provides a precise forced output

voltage load regulation droop characteristic. The output set

point and droop slope are factory calibrated to insure

optimum matching of multiple modulesâ load regulation

characteristics. To implement load sharing, the following

requirements should be followed:

ï§ The VOUT(+) and VOUT(-) pins of all parallel modules must be

connected together. Balance the trace resistance for each

moduleâs path to the output power planes, to insure best

load sharing and operating temperature balance.

ï§ VIN must remain between 40Vdc and 75Vdc for droop

sharing to be functional.

ï§ It is permissible to use a common Remote On/Off signal to

start all modules in parallel.

ï§ These modules contain means to block reverse current

flow upon start-up, when output voltage is present from

other parallel modules, thus eliminating the requirement

for external output ORing devices. Modules with the âP

option will self determine the presence of voltage on the

output from other operating modules, and automatically

increase its Turn On delay, Tdelay, as specified in the Feature

Specifications Table.

ï§ When parallel modules startup into a pre-biased output,

e.g. partially discharged output capacitance, the Trise is

automatically increased, as specified in the Feature

Specifications Table, to insure graceful startup.

ï§ Insure that the load is <50% IO,MAX (for a single module) until

all parallel modules have started (load full start > module

Tdelay time max + Trise time).

ï§ If fault tolerance is desired in parallel applications, output

ORing devices should be used to prevent a single module

failure from collapsing the load bus.

Remote Sense

Remote sense minimizes the effects of distribution losses by

regulating the voltage at the remote-sense connections (See

Figure 15). The SENSE(-) pin should be always connected to

VO(â).The voltage between the remote-sense pins and the

output terminals must not exceed the output voltage sense

range given in the Feature Specifications table:

[VO(+) â VO(â)] â [SENSE(+) ] ï£ 0.5 V

Although the output voltage can be increased by both the

remote sense and by the trim, the maximum increase for

the output voltage is not the sum of both. The maximum

increase is the larger of either the remote sense or the trim.

The amount of power delivered by the module is defined as

the voltage at the output terminals multiplied by the output

current. When using remote sense and trim, the output

voltage of the module can be increased, which at the same

output current, would increase the power output of the

module. Care should be taken to ensure that the maximum

output power of the module remains at or below the

maximum rated power (Maximum rated power = Vo,set x

Io,max).

Figure 15. Circuit Configuration for remote sense.

Configurable Control Pins

The QBDW025A0B contains two configurable control pins,

T/C1 and C2, referenced to the module secondary SIG_GND.

See Mechanical Views for pin locations. The following table

list the default factory configurations for the functions

assigned to these pins. Additional configurations can be

accomplished via the PMBus command,

MFR_CPIN_ARA_CONFIG. Following the table, there is a

feature description for each function.

Designation/Function

T/C1

On/Off (O) Power Good

Trim

On/Off (O)

Trim

Power Good

On/Off (O) Power Good

Module

Code

w/o -P

with -P

Configuration

Factory Default

Via PMBus

Factory Default

Remote On/Off(o)

The module contains an additional remote on/off control

input On/Off(o), via either the T/C1 or C2 pin, reference to the

VO(-) terminal. The factory default configuration is set to

ignore this input, unless activated by the PMBus command,

MFR_ CPIN_ON_OFF_CONFIG. This command is also used to

configure the logic for the On/Off(o) pin. Positive logic

remote on/off turns the module on during a logic HI voltage

on the ON/OFF pin, and off during a logic LO. Negative logic

remote on/off turns the module off during a logic HI, and on

during a logic LO. The On/Off(o) circuit is powered from an

internal bias supply, referenced to SIG_GND. To turn the

power module on and off, the user must supply a switch to

control the voltage between the On/Off (o) terminal and the

VO(-) terminal (Von/off(o)). The switch can be an open collector

or equivalent (see Figure 13). A logic LO is Von/off(o) = -0.3V to

0.8V. The typical Ion/off(o) during a logic LO is 330ÂµA. The

switch should maintain a logic LO voltage while sinking

TBDÂµA. During a logic HI, the maximum Von/off(o) generated

by the power module is TBDV. The maximum allowable

leakage current of the switch at Von/off(o) = 2.0V is 130ÂµA. If

using an external voltage source, the maximum voltage

Von/off on the pin is 3.3V with respect to the Vi(-) terminal.

If not using the Remote On/Off(o) feature, the pin may be left

N/C.

Feature Descriptions (continued)

Power Good, PG

The QBDW025A0B module provides a Power Good (PG)

feature, which compares the moduleâs output voltage to the

moduleâs POWER_GOOD_ON and POWER_GOOD_OFF

May 9, 2013

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