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ReFlex Power™
W
V
IRE
For applications where regulation is important, the contribution of the load
wiring to voltage drop from the output terminals of the AC module to the load
must be considered. The wire gauge must be selected to maintain an
acceptable total voltage drop for the load wiring under the maximum current.
The resistance of the load wiring must be determined for the sum total length of
the output lead and the return lead. The total voltage drop is the sum of the
individual drops in the output and return leads. Table 4-4 gives the resistance
per meter (m) of various wire gauges at 20 °C and 100 °C.
Use the following equation to calculate the resistance for other wire
temperatures:
R = R20°C x [1 + 0.004 x (T - 20°C)]
where,
The voltage drop (per output or return lead) could be calculated using the
following equation:
V = I x L x R20°C x [1 + 0.004 x (T - 20°C)]
where,
N
OISE AND
To minimize noise pickup or radiation from load circuits, load wires and remote
sense wires should be twisted-pair with minimum lead length. Shielding of the
sense leads may be necessary in high noise environments. Even if noise is not
a concern, the load and remote sense wires should be twisted-pairs to reduce
coupling between them, which could impact the stability of the output converter.
If connectors are utilized for the power and sense leads, be careful not to
introduce coupling between the leads. Ensure that the connector terminals for
the sense leads are in adjacent locations, and minimize the physical loop area
of the untwisted portions.
M380056-01 Rev L
D
OLTAGE
ROP
R = resistance, Ω/m, at temperature T
R20°C = resistance, Ω/m, at 20°C
T = temperature of wire, °C
V = total voltage drop, V
I = current, A
L = length of wire, m
R20°C = resistance of wire, Ω/m, at 20°C
T = temperature of wire conducting current, °C
I
E
MPEDANCE
FFECTS
AC Power Supplies
4-27
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