1189868 PUMP AND MOUNTING GP Caterpillar parts
312B
Rating:
Alternative (cross code) number:
CA1189868
118-9868
1189868
CA1189868
118-9868
1189868
EXCAVATOR,
Compatible equipment models: 1189868:
Information:
Voltage Droop
The method used to control the magnetizing power of an generator is called "voltage droop". It has been explained previously that speed droops in governors is used to divide the kilowatt loading of engine-driven generators. An engine that tends to speed up and carry more than its proportionate share of the load will, with a governor having speed droop, tend to speed up and again pick up its proportionate share of the load. Also, remember that active power (KW) loading is determined by the governor setting and the regulator should increase the magnetizing power in excess of its proportionate share for the system, it is necessary to reduce the exciter output of this unit to bring its level of magnetizing power back to the proper value.The increase in magnetizing power shows up as an increase in line amperes so the use of a circuit sensitive to line amperes should furnish the necessary control. This circuit should act to reduce the magnetizing level of the generator as the line amperes increase. Since, for an individually operating generator, this would cause a decrease in voltage, the circuit is called a "voltage droop" circuit. It generally operates as follows: An increase in line amperes causes a voltage to be generated in the secondary of a current transformer. This voltage is added to the generator voltage impressed on the regulator. The regulator senses the increase in voltage and acts as though the generator terminal voltage is too high. It reduces the magnetizing power of the exciter field by reducing the exciter voltage and correspondingly reducing the power to the generator field and the magnetizing power of this field. Since the voltage of a paralleled generator cannot change, but must remain the same as the bus voltage, the reduction in magnetizing power acts only to reduce the magnetizing amperes being furnished by the generator. Conversely, if the magnetizing power of the generator is too low, this circuit acts, within its capacity, to cause the voltage regulator to increase the magnetizing power of the paralleled generator so it will be furnishing its share of magnetizing power to the system. A voltage droop adjustment causing a 3% to 8% drop in voltage from no load to full load at rated power factor is usually required for satisfactory division of ampere loading. The largest amount of droop that can be tolerated by the load should be used to insure stable operation.Voltage droop circuits can mistakenly be connected in reverse. In this case, the voltage from the current transformer secondary subtracts from the voltage of the generator terminals. The regulator acts as though the generator voltage were too low and increases the magnetizing power of the generator. This causes the ampere output of the generator to become excessive. The increase in amperes acts to increase the voltage subtracting from the generator voltage impressed on the regulator and the regulator continues to act to increase the magnetizing power of the generator. This power can increase to the
The method used to control the magnetizing power of an generator is called "voltage droop". It has been explained previously that speed droops in governors is used to divide the kilowatt loading of engine-driven generators. An engine that tends to speed up and carry more than its proportionate share of the load will, with a governor having speed droop, tend to speed up and again pick up its proportionate share of the load. Also, remember that active power (KW) loading is determined by the governor setting and the regulator should increase the magnetizing power in excess of its proportionate share for the system, it is necessary to reduce the exciter output of this unit to bring its level of magnetizing power back to the proper value.The increase in magnetizing power shows up as an increase in line amperes so the use of a circuit sensitive to line amperes should furnish the necessary control. This circuit should act to reduce the magnetizing level of the generator as the line amperes increase. Since, for an individually operating generator, this would cause a decrease in voltage, the circuit is called a "voltage droop" circuit. It generally operates as follows: An increase in line amperes causes a voltage to be generated in the secondary of a current transformer. This voltage is added to the generator voltage impressed on the regulator. The regulator senses the increase in voltage and acts as though the generator terminal voltage is too high. It reduces the magnetizing power of the exciter field by reducing the exciter voltage and correspondingly reducing the power to the generator field and the magnetizing power of this field. Since the voltage of a paralleled generator cannot change, but must remain the same as the bus voltage, the reduction in magnetizing power acts only to reduce the magnetizing amperes being furnished by the generator. Conversely, if the magnetizing power of the generator is too low, this circuit acts, within its capacity, to cause the voltage regulator to increase the magnetizing power of the paralleled generator so it will be furnishing its share of magnetizing power to the system. A voltage droop adjustment causing a 3% to 8% drop in voltage from no load to full load at rated power factor is usually required for satisfactory division of ampere loading. The largest amount of droop that can be tolerated by the load should be used to insure stable operation.Voltage droop circuits can mistakenly be connected in reverse. In this case, the voltage from the current transformer secondary subtracts from the voltage of the generator terminals. The regulator acts as though the generator voltage were too low and increases the magnetizing power of the generator. This causes the ampere output of the generator to become excessive. The increase in amperes acts to increase the voltage subtracting from the generator voltage impressed on the regulator and the regulator continues to act to increase the magnetizing power of the generator. This power can increase to the
Caterpillar SIS machinery equipment:
Parts pump Caterpillar catalog:
5I8143
PUMP GP
312B
312B
1192733
PUMP LINES
311B, 312B
311B, 312B
1859112
PUMP GP
312B
312B
1211504
PUMP GP-MAIN HYDRAULIC
312B, 312B L
312B, 312B L
1195408
PUMP GP-PISTON & GEAR
312B, 312B L
312B, 312B L
1319856
PUMP LINES
311B, 312B
311B, 312B
1336717
PUMP GP
312B
312B
4I1023
PUMP GP-GEAR
311, 311B, 312, 312B, 312B L, 315, 315B, 315B FM L, 315B L, 317, 317B LN, 318B, 320 L
311, 311B, 312, 312B, 312B L, 315, 315B, 315B FM L, 315B L, 317, 317B LN, 318B, 320 L
1262078
PUMP GP-GEAR
311B, 311C, 312B, 314C, 315B FM L, 317B LN, 318B
311B, 311C, 312B, 314C, 315B FM L, 317B LN, 318B
1252989
PUMP ASSEM.
311, 311B, 312B, 320B, 320N, 321B
311, 311B, 312B, 320B, 320N, 321B
1252946
PUMP GROUP
311B, 312B, 320B
311B, 312B, 320B
6E1279
PUMP GP-PISTON
12G, 130G, 140G, 160G
12G, 130G, 140G, 160G
3156001
PUMP & MTG GP-SECONDARY STEER
980K, 980K HLG
980K, 980K HLG
4217100
PUMP GP-FUEL INJECTION
312D2, 312D2 GC, 312D2 L, 313D2, 313D2 LGP
312D2, 312D2 GC, 312D2 L, 313D2, 313D2 LGP
1597324
PUMP GP-FUEL PRM & SEC FILTER
3406E, 3456, PM3456
3406E, 3456, PM3456
4330771
PUMP GP-LUBRICATION
M318D, M322D
M318D, M322D
9P1832
PUMP GP-GEAR
571G, D7G, D8K, D9H
571G, D7G, D8K, D9H
7E2971
PUMP GP-ENGINE OIL
3114, 446, 446B, 446D, 910E, 918F, 924F, IT12B, IT14B, IT14F, IT18F, IT24F, RT100
3114, 446, 446B, 446D, 910E, 918F, 924F, IT12B, IT14B, IT14F, IT18F, IT24F, RT100
1339550
PUMP GP-WATER
CB-534B, CB-535B, CP-433C, CS-323C, CS-431C, PS-200B, PS-300B
CB-534B, CB-535B, CP-433C, CS-323C, CS-431C, PS-200B, PS-300B
3505644
PUMP GP-WATER
3.4B IOPU, 311F LRR, C3.4B, CD-54B, CW-14
3.4B IOPU, 311F LRR, C3.4B, CD-54B, CW-14
5N7009
PUMP GP-AUXILIARY
D379, D379A, D398, D398A, D399
D379, D379A, D398, D398A, D399