Application notes
PS2031-2410-0000
30
Version: 1.0
Peak current voltage drops
Typically from 24V to 6V
At 20A for 50ms, ohmic load
Typically from 24V to 12V
At 50A for 2ms, ohmic load
Typically from 24V to 3V
At 50A for 5ms, ohmic load
4.2
Output circuit breakers
Standard circuit breakers (or UL1077 circuit breakers) are generally used for AC supply systems and can
also be used for 24V branches.
Circuit breakers are used to protect wires and circuits. If the ampere value and the characteristics of the
circuit breaker are matched to the wire thickness used, the wiring is considered thermally safe, regardless of
whether the circuit breaker opens or not.
To avoid voltage drops and situations with undervoltage in adjacent 24V branches fed from the same source,
a fast (magnetic) trip of the circuit breaker is desirable. Fast switch-off within 10ms is required, which
approximately corresponds to the bridging time of PLC. This requires power supplies with high reserve
current and large output capacitors. In addition, the impedance of the faulty branch must be sufficiently small
for the current to actually flow. The strongest power supply is of no use if the ohmic law does not allow
current to flow. The following table contains typical test results that show which circuit breakers with B and C
characteristics trip magnetically, depending on the wire cross-section and the wire length.
Fig. 16: Test circuit
Maximum wire length
*)
for fast (magnetic) tripping:
0.75mm
2
1.0mm
2
1.5mm
2
2.5mm
2
C-2A
23m
28m
43m
69m
C-3A
18m
23m
34m
54m
C-4A
6m
12m
18m
28m
C-6A
3m
4m
6m
7m
C-8A
2m
3m
4m
5m
C-10A
1m
2m
3m
4m
0.75mm
2
1.0mm
2
1.5mm
2
2.5mm
2
B-6A
9m
14m
19m
33m
B-10A
4m
5m
6m
9m
B-13A
3m
4m
5m
8m
*)
Don't forget to double the distance to the load (or the cable length) when calculating the total cable length
(plus and minus cable).