Insulation resistance, The megohmmeter, Stator insulation resistance test – Bryant ASPAS1BBA015 User Manual

Page 16

SECTION 1.4

TESTING, CLEANING AND DRYING

PART 1

GENERAL INFORMATION

INSULATION RESISTANCE

The insulation resistance of stator and rotor windings
is a measurement of the integrity of the insulating
materials that separate the electrical windings from
the generator steel core. This resistance can degrade
over time or due to such contaminants as dust, dirt,
oil, grease and especially moisture. In most cases,
failures of stator and rotor windings is due to a
breakdown in the insulation. And, in many cases, a
low insulation resistance is caused by moisture that
collects while the generator is shut down. When
problems are caused by moisture buildup on the
windings, they can usually be corrected by drying the
windings. Cleaning and drying the windings can
usually eliminate dirt and moisture built up in the
generator windings.

THE MEGOHMMETER

GENERAL:
A megohmmeter, often called a "megger", consists of
a meter calibrated in megohms and a power supply.
Use a power supply of 500 volts when testing stators
or rotors. DO NOT APPLY VOLTAGE LONGER
THAN ONE (1) SECOND.

TESTING STATOR INSULATION:
All parts that might be damaged by the high megger
voltages must be disconnected before testing. Isolate
all stator leads (Figure 2) and connect all of the stator
leads together. FOLLOW THE MEGGER
MANUFACTURER'S INSTRUCTIONS CAREFULLY.
Use a megger power setting of 500 volts. Connect
one megger test lead to the junction of all stator
leads, the other test lead to frame ground on the
stator can. Read the number of megohms on the
meter.

The MINIMUM acceptable megger reading for stators
may be calculated using the following formula:
EXAMPLE: Generator is rated at 120 volts AC.
Divide "120" by "1000" to obtain "0.12". Then add
"1" to obtain "1.12" megohms. Minimum
Insulation resistance for a 120 VAC stator is 1.12
megohms.
If the stator insulation resistance is less than the
calculated minimum resistance, clean and dry the
stator. Then, repeat the test. If resistance is still low,
replace the stator.
Use the Megger to test for shorts between isolated
windings as outlined "Stator Insulation Tests”.
Also test between parallel windings. See "Test
Between Parallel Windings" on next page.

TESTING ROTOR INSULATION:
Apply a voltage of 500 volts across the rotor positive
(+) slip ring (nearest the rotor bearing), and a clean
frame ground (i.e. the rotor shaft). DO NOT EXCEED
500 VOLTS AND DO NOT APPLY VOLTAGE
LONGER THAN 1 SECOND. FOLLOW THE
MEGGER MANUFACTURER'S INSTRUCTIONS
CAREFULLY.

ROTOR MINIMUM INSULATION RESISTANCE:

1.5 megohms

CAUTION: BEFORE ATTEMPTING TO
MEASURE INSULATION RESISTANCE, FIRST
DISCONNECT AND ISOLATE ALL LEADS OF
THE WINDING TO BE TESTED. ELECTRONIC
COMPONENTS, DIODES, SURGE
PROTECTORS, RELAYS, VOLTAGE
REGULATORS, ETC., CAN BE DESTROYED
IF SUBJECTED TO HIGH MEGGER
VOLTAGES.

HI-POT TESTER:
A "Hi-Pot" tester is shown in Figure 1. The model
shown is only one of many that are commercially
available. The tester shown is equipped with a
voltage selector switch that permits the power supply
voltage to be selected. It also mounts a breakdown
lamp that will illuminate to indicate an insulation
breakdown during the test.

Figure 1. One Type of Hi-Pot Tester

STATOR INSULATION RESISTANCE TEST

GENERAL:
Units with air-cooled engines are equipped with (a)
dual stator AC power windings, (b) an excitation or
DPE winding, (c) a battery charge winding and (d) an
engine run winding. Insulation tests of the stator
consist of (a) testing all windings to ground, (b) testing
between isolated windings, and (c) testing between

MINIMUM INSULATION

GENERATOR RATED VOLTS

RESISTANCE

=

__________________________

+1

(in "Megohms")

1000