12/3/2009 | 71-022 V6
D30R
21
3
Coil Resistance testing
Principles of Coil Resistance testing
The coil resistance test is a very simple test to perform and is an immediate indication of the
health of the conductor(s) in a winding. The coil resistance test consists of injecting a known
constant current through the winding, measuring the voltage drop across the winding, and
calculating the coil resistance using Ohm’s law. If a coil is shorted somewhere in the interior of
the winding the resistance will be lower than normal. This lower coil resistance can be
compared to previous measurements of the same coil, measurements of identical coils, or
compared to the motor name-plate value to identify a “bad” coil.
The measured resistance is affected by the variation of copper conductivity with temperature.
Therefore, the measured resistance value should be “corrected” to a common temperature,
usually 25
o
C, before comparing two different measurements. MTA for Windows, a data
logging application for the D12R/D6R/D3R, does this correction. See IEEE 118 for more
information on correcting resistance measurements to 25
o
C.
Since the windings found in many motors have very low resistances, the injected current
might have to be as high as 10 amps to accurately measure the voltage drop across the coil.
One of the difficulties encountered measuring the voltage drop across the coil itself is, the
affect of the contact resistance of the clip leads used to connect to the motor’s winding.
Contact resistances can be comparable or even greater than the resistance of some coils. The
effects of contact resistance are reduced by using a four wire or Kelvin measurement. Baker
testers use this technique.
Resistance Test Display
Resistance test checklist
1)
Disconnect the high voltage test leads and move them aside. The tester resistance test
circuitry is protected internally by relays, which ground the resistance test leads when a
surge or HiPot test is selected. However, the protection relays are in no way rated for
any type of live electrical buss or circuit. It is possible to cause severe damage to the
instrument if the resistance test leads are attached while surge testing, HiPot testing, or
while line voltage is present at the motor leads.
2)
Connect the resistance test leads to leads 1-2 of the motor.
Summary of Contents for D30R
Page 6: ...Table of Contents 12 3 2009 71 022 V6 D30R 6...
Page 12: ...Safety precautions CE compliance 12 3 2009 71 022 V6 D30R 12...
Page 24: ...Coil Resistance Testing 12 3 2009 71 022 V6 D30R 24...
Page 28: ...Principles of High Voltage DC Testing 12 3 2009 71 022 V6 D30R 28...
Page 38: ...High Voltage DC Testing 12 3 2009 71 022 V6 D30R 38...
Page 50: ...Surge Testing 12 3 2009 71 022 V6 D30R 50...
Page 70: ...Data Recording Retrieving 12 3 2009 71 022 V6 D30R 70...