FLTR75V05 Lineage Power, FLTR75V05 Datasheet - Page 8
FLTR75V05
Manufacturer Part Number
FLTR75V05
Description
DC FILTER MODULE 75V 5A T/H
Manufacturer
Lineage Power
Datasheet
1.FLTR75V05Z.pdf
(13 pages)
Specifications of FLTR75V05
Filter Type
Power Line
Current
5A
Mounting Type
Through Hole
Termination Style
PCB Pins
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Inductance
-
75 Vdc Input Maximum, 5 A Maximum
Application
Figures 9, 10 & 11 show some experimental results for
various Lineage Power modules obtained by using the fil-
ter module, together with the recommended external
components shown in Figures 5 and 6. Measured
noise is highly dependent on layout, grounding, cable
orientation, and load characteristics and will, vary from
application to application.
Thermal Considerations
The case temperature must be kept below 100 °C. The
case temperature (T
tion indicated in Figure 8. Therefore, for a particular
current and ambient temperature, the airflow at the fil-
ter must be adequate.
Example:
Given: I
Therefore ΔT
Determine airflow required (Figure 1): v = 2.0 m/s
(400lfm)
Note: Top view, pin locations are for reference only. Measurements
Figure 8. Case Temperature Measurement
8 8
are shown in millimeters and (inches).
O, max
V
GND
V
I
I
(-)
(+)
Location
, max
= 4 A; T
(continued)
allowable = 5 °C
C
) should be measured at the posi-
A, max
V
V
O
O
(-)
(+)
(0.24)
6.1
= 95 °C
(0.5)
12.7
MEASURE CASE
TEMPERATURE HERE
1-0146
Other Considerations
It is essential for good EMI performance that the input
lines not be contaminated with noise after passing
through the filter. Filtered input traces should therefore
be kept away from noise sources such as power mod-
ules and switching logic lines. If input voltage sense
traces must be routed past the power modules from the
quiet side of the filter module, they should be filtered at
the point where they leave the quiet input lines. Input
traces should be kept as far away from output power
traces as possible.
The fundamental switching frequency noise spike can
be somewhat reduced by adding a high-frequency
capacitor of a few microfarads across the input lines of
the filter module.
Adding additional components to the input filter to
improve performance usually has very limited payback,
and may actually increase the noise conducted onto
the input lines. Adding Y caps to the input side of the fil-
ter module couples any noise in the ground plane
directly into the input lines, usually degrading perfor-
mance. Adding additional X and Y caps to the power
module side of the filter module produces low-
impedance loops for high-frequency currents to flow,
possibly degrading performance.
Adding additional common-mode or differential-mode
filtering to the power module output leads decreases
the power module output noise, and also frequently
reduces the input noise by decreasing the noise cou-
pled from output leads to input leads. Common-mode
output filtering is particularly important if the load is tied
to chassis ground. If common-mode filtering is added
to the power module output, ensure that remote-sense
leads sense the output voltage before the common-
mode filter. Do not use remote-sense on the load side
of an output common-mode filter.
If input noise performance is unsatisfactory after apply-
ing the filter module as described previously, the best
remedy is to modify the layout and grounding scheme.
It is often useful to make a model of the power card,
using copper tape and a vector card, to experiment
with various layout and grounding approaches prior to
committing to a printed-wiring board.
October 2009
Lineage Power
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