Xylem MN 414 AC Submersible Pump Motors User Manual

Installation & Operation 2−3

MN414

Grounding In the USA consult the National Electrical Code, Article 430 for information on grounding of motors and

generators, and Article 250 for general information on grounding. In making the ground connection, the

installer should make certain that there is a solid and permanent metallic connection between the ground

point, the motor or generator terminal housing, and the motor or generator frame. In non−USA locations

consult the appropriate national or local code applicable.
Motors with resilient cushion rings usually must be provided with a bonding conductor across the resilient

member. Some motors are supplied with the bonding conductor on the concealed side of the cushion ring

to protect the bond from damage. Motors with bonded cushion rings should usually be grounded at the

time of installation in accordance with the above recommendations for making ground connections. When

motors with bonded cushion rings are used in multimotor installations employing group fusing or group

protection, the bonding of the cushion ring should be checked to determine that it is adequate for the

rating of the branch circuit over current protective device being used.
There are applications where grounding the exterior parts of a motor or generator may result in greater

hazard by increasing the possibility of a person in the area simultaneously contacting ground and some

other nearby live electrical parts of other ungrounded electrical equipment. In portable equipment it is

difficult to be sure that a positive ground connection is maintained as the equipment is moved, and

providing a grounding conductor may lead to a false sense of security.
Select a motor starter and over current protection suitable for this motor and its application. Consult motor

starter application data as well as the National Electric Code and/or other applicable local codes.
Adjustable Frequency Power Inverters used to supply adjustable frequency power to induction motors

produce wave forms with lower order harmonics with voltage spikes superimposed. Turn−to−turn,

phase−to−phase, and ground insulation of stator windings are subject to the resulting dielectric stresses.

Suitable precautions should be taken in the design of these drive systems to minimize the magnitude of

these voltage spikes. Consult the drive instructions for maximum acceptable motor lead lengths, and

proper grounding.
Thermal Protection
Thermostat leads marked P1 & P2 must be connected in series with the stop button of the 3−wire pilot

circuit of the magnetic motor controller, so that the thermostat will open the circuit before dangerous

temperatures are reached. Thermostats are automatic reset for use in a normally closed circuit where the

thermostat is connected In series with the holding coil of the magnetic starter. Thermostats provide “Over

Temperature” Protection in accordance with NEMA MG 1−12.53. Thermostats do not provide winding

over temperature protection (locked rotor). It is suggested that over current protection be used in the

motor starter to ensure locked rotor protection.

Figure 2-2 Thermal Protection Circuit

Starter

AC Line

Motor

T1 T2 T3

GND

P1

P2

Stop

Start



L1
L2
L3

GND

P1 & P2 N.C. Thermostat Leads (N.O. Contacts unacceptable to UL)

Starter Holding Coil

 Holding Coil Contacts (N.O.)

Volts
AC
110-120
220-240
440-480
550-600

Continuous
Amps
3.0
1.5
0.75
0.6

Inrush
Amps
30
15
7.5
6.0

Motor Power Cable Lead Color

Black

White

Red

Orange

Green

T1

T2

T3

-

Ground

T1

T4

TA

-

Ground

Polyphase
Single Phase