| |
| Illustration 1 | g00874841 |
|
PMG Generator Wiring Diagram (CR1-C6) Diodes (CR7) Varistor (L1) Exciter Field (Stator) (L2) Exciter Armature (Rotor) (L3) Main Field (Rotor) (L4) Main Armature (Stator) (L5) Pilot Exciter Armature (PM) Permanent Magnet (RFA) Rotating Field Assembly (CT1) Optional Voltage Droop Transformer (T0, T1, T2, T3, T7, T8, T9) Generator terminals | |
| TOOLS NEEDED | ||
| Part Number | Tool | Quantity |
| 142-5055 | Insulation Tester
Megohmmeter |
1 |
 |
|
Personal injury or death can result from electrocution. The megohmmeter is applying a high voltage to the circuit. To avoid electrocution, do not touch the instrument leads without first discharging them. When finished testing also discharge the generator windings. |
The following materials will cause the winding insulation to deteriorate:
- moisture (water)
- dust
- grease
- other foreign matter within the generator
This deterioration reduces the resistance of the insulation. This test will measure the resistance of the winding insulation.
The insulation tester (megohmmeter) produces a high potential voltage between the test leads. During the test, a small current flows. The tester converts this current to a resistance reading.
The insulation test is performed as part of periodic maintenance to detect the deterioration of the winding insulation. When there is a rapid decrease in the insulation resistance in a short amount of time, the generator needs to be cleaned.
Note: For information on generator cleaning, refer to Special Instruction, SEHS9124.
When generators have not been used for aperiodof time, moisture can accumulate. Therefore, the insulation test should be performed on generators that have been idle. If moisture is known to exist, the windings must be dried prior to testing. Refer to Testing and Adjusting, "Generator - Dry".
The winding needs reconditioned or the winding needs replaced in the following cases:
- The measured insulation resistance falls below the specified amount. The cleanup procedure does not correct the discrepancy.
- The measured insulation resistance falls below the specified amount. The drying procedure does not correct the discrepancy.
The specified insulation resistance is an approximate value. It can be possible to operate the generator with less than the specified value. However, a generator that has a low winding insulation resistance will be more likely to have a failure.
|
|
Personal injury or death can result from improper troubleshooting and repair procedures. The following troubleshooting and repair procedures should only be performed by qualified personnel familiar with this equipment. |
The insulation test gives accurate results only when the generator windings are free of moisture and the generator windings are at room temperature.
Each winding must have a minimum insulation resistance of 1 megohm.
- Remove the load from the generator by either opening the line circuit breaker or the load connections to (T1), (T2), (T3), and (T0). Prevent these wires from coming into contact with each other and prevent these wires from contacting ground.
- Isolate main armature (L4) from the voltage regulator by disconnecting wires 20, 22, and 24. If generator lead (T0) is connected to the generator frame or ground, open the connection.
- Connect one test lead of the insulation tester (megohmmeter) to the generator enclosure (ground).
- Connect the other test lead of the insulation tester (megohmmeter) to generator lead (T0).
- The insulation resistance must be 1 megohm or more.
- Isolate exciter field (L1) from the voltage regulator by disconnecting wires F1 and F2. Prevent these wires from coming into contact with each other and prevent these wires from contacting ground.
- Connect one test lead of the insulation tester (megohmmeter) to the generator enclosure (ground).
- Connect one test lead of the insulation tester (megohmmeter) to exciter field lead (F1 or F2).
- Measure the resistance of the exciter field winding insulation to ground. The insulation resistance must be a minimum of 0.25 megohm (250000 ohms).
- Isolate exciter armature (L2) from the rectifier circuit. Disconnect the three wires of the exciter armature from the rectifier blocks.
- Connect one test lead of the insulation tester (megohmmeter) to the rotor shaft.
- Connect one test lead of the insulation tester (megohmmeter) to any one exciter field lead.
- The insulation resistance must be a minimum of 0.25 megohm (250000 ohms).
- Isolate pilot exciter armature (L5) from the voltage regulator. Disconnect wires 26, 28, and 30 of the pilot exciter from the termination points. These wires are usually fused. These wires connect to a terminal strip or these wires connect to the voltage regulator.
- Connect one test lead of the insulation tester (megohmmeter) to the generator enclosure (ground).
- Connect the other test lead of the insulation tester (megohmmeter) to any one lead of the pilot exciter armature.
- The insulation resistance must be a minimum of 0.25 megohm (250000 ohms).