MQFL-28V-15S Datasheet, PDF(13/19 Page) SynQor Worldwide Headquarters

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MQFL-28V-15S Datasheet, PDF (13/19 Pages) SynQor Worldwide Headquarters – HIGH RELIABILITY DC-DC CONVERTER

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Technical Specification

MQFL-28V-15S

Output: 15V

Current: 6.5A

OUTPUT VOLTAGE TRIM: If desired, it is possible to increase

the MQFL converterâs output voltage above its nominal value. To

do this, use the +SENSE pin (pin 10) for this trim function instead

of for its normal remote sense function, as shown in Figure D.

In this case, a resistor connects the +SENSE pin to the âSENSE

pin (which should still be connected to the output return, either

remotely or locally). The value of the trim resistor should be chosen

according to the following equation or from Figure E:

[ ] Rtrim = 100 x

Vnom

Vout â Vnom â 0.025

where:

Vnom = the converterâs nominal output voltage,

Vout = the desired output voltage (greater than Vnom), and

Rtrim is in Ohms.

As the output voltage is trimmed up, it produces a greater voltage

stress on the converterâs internal components and may cause

the converter to fail to deliver the desired output voltage at the

low end of the input voltage range at the higher end of the load

current and temperature range. Please consult the factory for

details. Factory trimmed converters are available by request.

INPUT UNDER-VOLTAGE LOCKOUT: The MQFL converter has

an under-voltage lockout feature that ensures the converter will be

off if the input voltage is too low. This lockout only appears when

the boost-converter is not operating. The threshold of input voltage

at which the converter will turn on is higher that the threshold at

which it will turn off. In addition, the MQFL converter will not

respond to a state of the input voltage unless it has remained in

that state for more than about 200Âµs. This hysteresis and the delay

ensure proper operation when the source impedance is high or in

a noisy environment.

100,000

10,000

1,000

100

0.0

0.2

0.4

0.6

0.8

1.0

1.2

1.4

1.6

Increase in Vout (V)

Figure E: Output Voltage Trim Graph

INPUT OVER-VOLTAGE SHUTDOWN: The MQFL converter

also has an over-voltage feature that ensures the converter will be

off if the input voltage is too high. It also has a hysteresis and time

delay to ensure proper operation.

BACK-DRIVE CURRENT LIMIT: Converters that use MOSFETs as

synchronous rectifiers are capable of drawing a negative current

from the load if the load is a source of short- or long-term energy.

This negative current is referred to as a âback-drive currentâ.

Conditions where back-drive current might occur include paralleled

converters that do not employ current sharing, or where the current

share feature does not adequately ensure sharing during the

startup or shutdown transitions. It can also occur when converters

having different output voltages are connected together through

28 Vdc +

External bulk capacitor

RSTABILITY

CSTABILITY

open

means

1 +VIN

2 IN RTN

MQFL 3 STABILITY

4 ENA 1

5 SYNC OUT

6 SYNC IN

ENA 2 12

SHARE 11

+SNS 10

-SNS 9

OUT RTN 8

+VOUT 7

RTRIM

Load

Figure D: Typical connection for output voltage trimming.

Product # MQFL-28V-15S

Phone 1-888-567-9596

www.synqor.com

Doc.# 005-0005183 Rev. 1

04/16/09

Page 13

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