Input and Output
Characteristics
Figure 3 - Input to Output Voltage Drop
Voltage Drop, typ
600 mV
500 mV
400 mV
300 mV
200 mV
100 mV
0 mV
Output:
Input:
Attributes
Number of inputs
Number of outputs
Input voltage
Input voltage range
Voltage drop, input to output
Input current
Output current
Reverse current
Reverse voltage
Output capacitance
(1) The average value (R.M.S. value) of the output current must not exceed the values of the continuous output current.
Depending on
Load Share
Regulation
Input / Output Current
0
5 A
10 A
15 A
20 A
0
2 x 2.5 A
2 x 5 A
2 x 7.5 A
2 x 10 A
Rockwell Automation Publication 1606-RM107A-EN-P - July 2020
Values
—
2
—
1
Nom
DC 24...28V ±25%
—
18...35V DC
Typ
0.1...0.5V
Typ
0.2...0.5V
Typ
0.24...0.5V
Nom
2 x 0...12 A
Nom
2 x 0...10 A
(1)
Nom
2 x 17 A
Max
2 x 700 A
Nom
24 A
Nom
20 A
Nom
32.5 A
Max
26 A
Max
1 mA
Max
40V DC
Typ
320 μF
Figure 4 - Test Setup for Voltage Drop Measurements
Power
I
Supply
A
24V, 12 A +
V
U
-
60 °C
25 °C
Power
I
Supply
A
24V, 12 A +
V
U
-
25 A
2 x 12.5 A
I
=
I
U
=
U
1
2
1
2
Notes
—
—
—
—
at 2 x 5 A, load share dependent on function, see
at 2 x 10 A, load share dependent on function, see
at 2 x 12 A, load share dependent on function, see
continuous, ambient temperature < 45 °C (113 °F)
continuous, ambient temperature < 70 °C (158 °F)
for 5 s max
for 1 ms max
continuous, ambient temperature < 45 °C (113 °F)
continuous, ambient temperature < 70 °C (158 °F)
for 5 s max
in overload /short-circuit (voltage < 6V). Ensure that the sum of
input currents does not exceed this value.
at 24V, per input, -40...+70 °C (-40...+158°F)
voltage applied to the output, continuously allowed
—
1606-XLERED20Y
1
Input 1
Output
1
2
Input 2
2
Voltage Drop
Figure 3
Figure 3
Figure 3
Output
Variable
Load,
I
OUT
0...24 A
A
V
U
OUT
=
U
-
U
1
OUT
7