INDUCTION MOTORS 123
Table 5.12. Limits to motor ratings due to
system voltage
Motor power
rating (kW)
Appropriate system
line voltage (volts)
Up to 250 LV e.g. 380 to 440
150 to 3000 HV e.g. 2400 to 4160
200 to 3000 HV e.g. 3300 to 7200
1000 to 15,000 HV e.g. 6600 to 13,800
cross-sectional area of the conductors becomes large. The typical kW limits for various voltages are
given in Table 5.12, see also IEC60034 part 1 clause 29.
5.7 Effect of the System Fault Level
Motors are controlled by circuit breakers or contactors. With high voltage motors it is necessary
to ensure that the main terminal box and the terminals inside can withstand the effects of a major
three-phase fault inside the box. This applies especially to motors that are to be used in a hazardous
area. As a guide to the level of safeguard, Table 5.13 may be used.
When contactors are backed up by fuses it is possible to reduce the fault levels considerations.
The current versus let-through-time characteristics of the fuses need to be studied if the above fault
levels are to be reduced.
5.8 Cable Volt-drop Considerations
The conductor size and length of the motor feeder cable need to be chosen carefully and the following
points should be considered:-
- Normal running current.
- Starting current.
- Ambient temperature.
- Laying cables in air or buried in the ground.
- Laying cables vertically or horizontally.
- Derating factors for grouping cables.
Table 5.13. Correspondence between system voltage and fault
level at the motor terminals
System line
voltage (volts)
System peak fault
current (kApk)
System fault level
(MVA)
3300 to 4160 85 to 110 150 to 250
6600 to 7200 70 to 110 350 to 500
11,000 to 13,800 65 to 80 500 to 750