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EQW010A0B1 Datasheet, PDF (17/28 Pages) Lineage Power Corporation – 36 - 75Vdc Input; 1.0 to 12.0Vdc Output; 10 to 40A Output Current | |||
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Data Sheet
March 4, 2009
EQW010-040 Series Power Modules
36 â 75Vdc Input; 1.0 to 12.0Vdc Output; 10 to 40A Output Current
Feature Descriptions (continued)
following the over current condition. The module can
be restarted by cycling the dc input power for at least
one second or by toggling the remote on/off signal for
at least one second. If the unit is configured with the
auto-restart option (4), it will remain in the hiccup
mode as long as the overcurrent condition exists; it
operates normally, once the output current is brought
back into its specified range. The average output
current during hiccup is 10% IO, max.
Output Voltage Programming
Trimming allows the output voltage set point to be
increased or decreased, this is accomplished by
connecting an external resistor between the TRIM pin
and either the VO(+) pin or the VO(-) pin.
VIN(+)
VO(+)
ON/OFF
VOTRIM
VIN(-)
VO(-)
Rtrim-up
LOAD
Rtrim-down
Figure 62. Circuit Configuration to Trim Output
Voltage.
Connecting an external resistor (Rtrim-down) between
the TRIM pin and the Vo(-) (or Sense(-)) pin
decreases the output voltage set point. To maintain
set point accuracy, the trim resistor tolerance should
be ±1.0%.
The following equation determines the required
external resistor value to obtain a percentage output
voltage change of Î%
For output voltage: 1.0V to 12V
Rtrim â down
=
â¡ 511
â¢â£ Î %
â
10
.22
â¤
â¥â¦
ÎΩ
Where
Î%
=
ââââ
Vo
,
set â Vdesired
Vo, set
âââ â Ã 100
For example, to trim-down the output voltage of 2.5V
module (EQW035A0G/G1) by 8% to 2.3V, Rtrim-
down is calculated as follows:
Î% = 8
Rtrim âdown
=
â¡ 511
â¢â£ 8
â 10.22â¥â¦â¤ÎΩ
Rtrim â down = 53 .655 ÎΩ
Connecting an external resistor (Rtrim-up) between the
TRIM pin and the VO(+) (or Sense (+)) pin increases
the output voltage set point. The following equations
LINEAGE POWER
determine the required external resistor value to
obtain a percentage output voltage change of Î%:
For output voltage: 1.5V to 12V
Rtrim âup
=
â¡5.11à Vo,set à (100 +
â¢
â£
1.225 Ã Î%
Î%)
â
511
Î%
â 10.22â¥â¤ÎΩ
â¦
For output voltage: 1.0V to 1.2V
Rtrim âup
=
â¡5.11ÃVo,set à (100 +
â¢
â£
0.6 Ã Î%
Î%)
â
511
Î%
â 10.22â¥â¤ÎΩ
â¦
Where
Î%
=
ââââ
V
desired
V
o
â Vo
, set
,
set
âââ â Ã 100
For example, to trim-up the output voltage of 1.2V
module (EQW040A0P/P1) by 5% to 1.26V, Rtrim-up is
calculated is as follows:
Î% = 5
Rtrim â up
=
â¡ 5.11 Ã 1.2 Ã (100
â¢â£
0.6 Ã 5
+ 5)
â
511
5
â 10 .22 â¥â¦â¤ÎΩ
Rtrim âup = 102 .2ÎΩ
Alternative voltage programming for output
voltage: 1.0V to 1.2V (-V Option)
An alternative set of trimming equations is available
as an option for 1.0V and 1.2V output modules, by
ordering the âV option. These equations will reduce
the resistance of the external programming resistor,
making the impedance into the module trim pin lower
for applications in high electrical noise applications.
R trim â down
=
â¡ 100
â¢â£ Î %
â
2
â¤
â¥â¦
ÎΩ
R trim â up
=
â¡ 100
â¢â£ Î %
â¤
â¥â¦
ÎΩ
Where
Î%
=
ââââ
V
desired
V
o
,
âV
set
o
,
set
âââ â Ã 100
For example, to trim-up the output voltage of 1.2V
module (EQW040A0P/P1-V) by 5% to 1.26V, Rtrim-up
is calculated is as follows:
Î% = 5
R trim â up
=
â¡ 100
â¢â£ 5
â¤
â¥â¦
ÎΩ
Rtrim âup = 20 .0ÎΩ
The value of the external trim resistor for the optional
âV 1.2V module is only 20% of the value required with
the standard trim equations.
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