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Generator Voltage control

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Synchronous generator construction and voltage regulator

Tecnologia
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SYNCHRONOUS GENERATOR J.Majumder MIE Senior Faculty
SYNCHRONOUS GENERATOR
Brushless Generator Rotor
PARTS OF THE ROTOR
Brushless Generator Excitation
ROTARY EXCITER BRUSHLESS SYSTEM CT G K L K L SPACE HEATER A.C. GENERATOR F1 S1 Sil Ex Fz J K Rc Sz Siz RT H1 H2 H1 H2 R S T R S T 3A 4A 3A 4A T1S1R1 A B AVR 123 CW RISE VR CCR ACB AUX. CONT DCT k l k l k l K LCCT l1k1 l2k2 k l R S T AC 1 SWITCH BOARD
VOLTAGE BUILD UP IN BRUSHLESS GENERATOR An unloaded generator builds up voltage due to residual voltage in the winding Star connected Reactor coil L2 is only the load of the generator. The inductive current which appears in the reactor coil will appear in primary winding P1. This current will induce current In secondary winding S Field
Connection diagram of Generator
AVR The actual function of the voltage regulator is to provide a bypass for a variable portion of the current supplied by the excitation equipment for controlling the generator voltage. The thyristor regulator module consists of two assemblies: the regulator module and the firing module with thyristor in buck circuit.
AVR The three-phase generator voltage, having been reduced to 24V by the measuring-circuit transformers, is applied to terminals 17,18 and 19. A direct voltage of approx. 30 V (terminal 20 to terminal 13 or 14) is produced at the output of the rectifier bridge under the rated voltage of the generator. This rectified voltage provides the actual pulse signal and the supply voltage the control amplifier. The regulator module supplies output terminal 15 with a control voltage of approx. 1 to 10 V, which is proportional to the control deviation.
AVR In the control circuit of the firing module, a time adjustable firing impulse for the thyristor is formed from the control voltage of terminal 15 in comparison with a saw tooth voltage. The overvoltage protector operates at voltages over 600 V between terminals 1 and 5, then switches the thyristor through. The excitation current is normally bucked with a single pulse. If higher excitation is required, two firing modules for two pulse "buck" operation will be provided.
Mode of operation of regulator The generator voltage is fed to the regulator via plug connector X1 in a single-phase, two-circuit arrangement. Transformer T1 steps down the generator voltage which is then rectified by the load-side rectifier bridge V1, V4. This rectified voltage provides the actual pulse signal "Uist“ the setpoint voltage Usoll and the supply voltage ① for the regulator. If the system uses a reactive current compensator, Current transformer T15 or interposing transformer T4 of the excitation unit is connected to load resistor R1 via plug-in contacts X2/5 and X2/9. In this operating mode the actual voltage is composed of the secondary voltage of transformer T1 and the voltage of load resistor R1.
The magnitude of the resulting reduction in generator voltage can be set with potentiometer S. If an external set point selector is used, this is connected by contacts X2/1 (A1) and X2/3 (A3). In this case micro switch S1/3 of the regulator must be opened. A DC voltage of 0 to 10 V can be fed in via plug-in contacts X2/6 and X2/2. This voltage acts on the comparator point of the control amplifier. The set point can thus, for instance, be preset by higher-level equipment.
Control amplifier ② (proportional again adjustable by potentiometer K and reset time by potentiometer T) outputs a DC voltage which is converted into a time adjustable firing pulse for thyristor V18 or V28 via the load side pulse unit ③ .The generator excitation circuit is fed from rectifier bridge V29. Resistor R48 and thyristor V28 form a parallel bypass circuit to the field winding through which part of the current supplied by the excitation unit flows. This method provides for generator voltage control. In order to optimize the correcting action, a disturbance variable is injected into the control amplifier via resistor R47.
Regulator gain, set point voltage integral action The control module comprises potentiometers U, K, T, R 47 and S. The rated generator voltage has been adjusted by potentiometer U, and the dynamic behaviour of the regulator on potentiometers K, T and R 47. Potentiometer K is used to adjust the controller gain and potentiometer T is used to adjust the integral action time, whereas potentiometer R 47 is used to inject a disturbance variable into the comparator point of the control amplifier in order to adjust dynamic behaviour. Turning the knob of K and R 47 in the direction of descending numerals and that of T in the direction of ascending numerals normally stabilizes the control circuit and reduces the control rate.
Voltage Droop When the generator is operating by itself, the thyristor voltage regulator controls the generator voltage to the preset reference value. Frequency changes due to the droop characteristics of the prime mover do not influence the accuracy of the generator output voltage.
Parallel operation by droop compensation equipment Droop compensating equipment ensures uniform distribution of the reactive power and reduces the generator output voltage in linear with the increase in reactive current. Regarding generators with current transformer for droop compensation, potentiometer S in the regulator is adjusted so that there is no reduction in the generator voltage at unity p.f. but a 4% reduction at zero p.f.

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Generator Voltage control

  • 4. PARTS OF THE ROTOR
  • 5.
  • 7. ROTARY EXCITER BRUSHLESS SYSTEM CT G K L K L SPACE HEATER A.C. GENERATOR F1 S1 Sil Ex Fz J K Rc Sz Siz RT H1 H2 H1 H2 R S T R S T 3A 4A 3A 4A T1S1R1 A B AVR 123 CW RISE VR CCR ACB AUX. CONT DCT k l k l k l K LCCT l1k1 l2k2 k l R S T AC 1 SWITCH BOARD
  • 8. VOLTAGE BUILD UP IN BRUSHLESS GENERATOR An unloaded generator builds up voltage due to residual voltage in the winding Star connected Reactor coil L2 is only the load of the generator. The inductive current which appears in the reactor coil will appear in primary winding P1. This current will induce current In secondary winding S Field
  • 10. AVR The actual function of the voltage regulator is to provide a bypass for a variable portion of the current supplied by the excitation equipment for controlling the generator voltage. The thyristor regulator module consists of two assemblies: the regulator module and the firing module with thyristor in buck circuit.
  • 11. AVR The three-phase generator voltage, having been reduced to 24V by the measuring-circuit transformers, is applied to terminals 17,18 and 19. A direct voltage of approx. 30 V (terminal 20 to terminal 13 or 14) is produced at the output of the rectifier bridge under the rated voltage of the generator. This rectified voltage provides the actual pulse signal and the supply voltage the control amplifier. The regulator module supplies output terminal 15 with a control voltage of approx. 1 to 10 V, which is proportional to the control deviation.
  • 12. AVR In the control circuit of the firing module, a time adjustable firing impulse for the thyristor is formed from the control voltage of terminal 15 in comparison with a saw tooth voltage. The overvoltage protector operates at voltages over 600 V between terminals 1 and 5, then switches the thyristor through. The excitation current is normally bucked with a single pulse. If higher excitation is required, two firing modules for two pulse "buck" operation will be provided.
  • 13. Mode of operation of regulator The generator voltage is fed to the regulator via plug connector X1 in a single-phase, two-circuit arrangement. Transformer T1 steps down the generator voltage which is then rectified by the load-side rectifier bridge V1, V4. This rectified voltage provides the actual pulse signal "Uist“ the setpoint voltage Usoll and the supply voltage ① for the regulator. If the system uses a reactive current compensator, Current transformer T15 or interposing transformer T4 of the excitation unit is connected to load resistor R1 via plug-in contacts X2/5 and X2/9. In this operating mode the actual voltage is composed of the secondary voltage of transformer T1 and the voltage of load resistor R1.
  • 14. The magnitude of the resulting reduction in generator voltage can be set with potentiometer S. If an external set point selector is used, this is connected by contacts X2/1 (A1) and X2/3 (A3). In this case micro switch S1/3 of the regulator must be opened. A DC voltage of 0 to 10 V can be fed in via plug-in contacts X2/6 and X2/2. This voltage acts on the comparator point of the control amplifier. The set point can thus, for instance, be preset by higher-level equipment.
  • 15. Control amplifier ② (proportional again adjustable by potentiometer K and reset time by potentiometer T) outputs a DC voltage which is converted into a time adjustable firing pulse for thyristor V18 or V28 via the load side pulse unit ③ .The generator excitation circuit is fed from rectifier bridge V29. Resistor R48 and thyristor V28 form a parallel bypass circuit to the field winding through which part of the current supplied by the excitation unit flows. This method provides for generator voltage control. In order to optimize the correcting action, a disturbance variable is injected into the control amplifier via resistor R47.
  • 16. Regulator gain, set point voltage integral action The control module comprises potentiometers U, K, T, R 47 and S. The rated generator voltage has been adjusted by potentiometer U, and the dynamic behaviour of the regulator on potentiometers K, T and R 47. Potentiometer K is used to adjust the controller gain and potentiometer T is used to adjust the integral action time, whereas potentiometer R 47 is used to inject a disturbance variable into the comparator point of the control amplifier in order to adjust dynamic behaviour. Turning the knob of K and R 47 in the direction of descending numerals and that of T in the direction of ascending numerals normally stabilizes the control circuit and reduces the control rate.
  • 17. Voltage Droop When the generator is operating by itself, the thyristor voltage regulator controls the generator voltage to the preset reference value. Frequency changes due to the droop characteristics of the prime mover do not influence the accuracy of the generator output voltage.
  • 18. Parallel operation by droop compensation equipment Droop compensating equipment ensures uniform distribution of the reactive power and reduces the generator output voltage in linear with the increase in reactive current. Regarding generators with current transformer for droop compensation, potentiometer S in the regulator is adjusted so that there is no reduction in the generator voltage at unity p.f. but a 4% reduction at zero p.f.