CS227129B1 - Circuitry of synchronous machine underexcitation limit scanner - Google Patents

Description

The invention relates to an undercurrent limiter monitor of a synchronous machine comprising a circuit under evaluation of the undercurrent limit of a synchronous machine, a control member, a drive current sensor of a synchronous machine and a derivative member.

Until now, wiring has not been used which did not include a synchronous machine drive current sensor and a derivative member. Stability of the control circuit of the synchronizer machine undercurrent control circuit can only be achieved in these circuits with a small gain of the control member. This results in in some cases the undercurrent limiter intervention of the synchronous machine its insufficient function.

This disadvantage is overcome by the object of the invention that the output of the undercurrent limit evaluation circuit of the synchronous machine is connected to the first input of the control member, the output of which is connected to the output. The output of the derivative member is connected to its second input, to which the output of the synchronous machine excitation current sensor is connected.

One possible practical embodiment of the present invention is illustrated in the accompanying drawing, in which the wiring diagram is shown.

The output 1, y of the undercurrent limit evaluation circuit of the synchronous machine is connected to the first input 2.1 of the control member 2, whose output 2.9 is the output of the wiring. To its second input 2.2 is connected the output 4.4 of the derivative member 4, to the input 4.1 of which the output 3.7 of the drive current sensor 6 of the synchronous machine is connected.

The undercurrent limit evaluation circuit 1 of the synchronous machine comprises a synchronous machine reactive current sensor 1.1, a potentiometer 1.5 of the first and second resistors 1.4 and 1.6 and is implemented as follows: First output 1.2 The synchronous machine reactive current sensors 1.1 are connected via a first resistor 1.4 to output 1.7 of circuit 1

227 129 evaluation of the under-limit of the synchronous machine. The second output of the 1.1x reactive current sensor of the synchronous machine is connected to zero potential, the rotentiometer 1.5 has one end connected to the source 1.5 of positive DC voltage, the other end to the zero potential and the slider potentiometer 1.8 is connected circuit 1 of the undercurrent limit evaluation of the synchronous machine.

Control element »2 contains operational amplifier 2.6. diodes

2.5 and 2.7, first capacitor 2.4, third and fourth resistors 2.3 and

2.8 and is implemented as follows:

The non-inverting input of operational amplifier 2.6 is connected to zero potential while its inverting input is connected to inputs 2.1 and 2.2 of regulator 2, to the anode of the first diode 2.5 whose cathode is connected to the output of operational amplifier 2.6, and to the end of the third resistor. 2.3, the other end of which is connected via the first capacitor 2.4 to the cathode of the second diode 2.7, connected both via the fourth resistor 2.8 to the nU potential and to the output 2.9 of the control member 2, which is the output of the wiring. The anode of the second diode 2.7 is connected to the output of the operational amplifier 2.6

The excitation current controller 2 of the synchronous machine comprises a shunt 3.1 and a galvanic isolation member 3.2. One end of the shunt 3.1 is connected to the first input 3.3 of the galvanic isolation member 3 and the other end of the shunt is connected to the second input

3.4 of the 3 «2 galvanic isolation. The first output 3.5 of the galvanic isolation member 3.2 is connected to output 3.7 of the drive current sensor 6 of the synchronous machine and the second output 3.6 of the galvanic isolation member 2 is connected to zero potential.

The derivative member 4 is composed of a second capacitor 4.2, a fifth resistor 4.3 and is implemented as follows:

One end of the second capacitors 4.2 is connected to the input 4.1 of the differentiator 4 and the other end of the second capacitors 4.2 is connected to the fifth resistor 4.3 at the output 4.4 of the differentiator 4.

The connection works as follows. The undercurrent limit of the synchronous machine is set by the potentiometer 1.5 in the undercurrent limit evaluation circuit of the synchronous machine. If the reactive current of the synchronous machine is under-measured as measured by the sensor

1.1 of the synchronous machine current in the evaluation circuit 1

227 129 of the synchronous machine under-excitation limit is less than the synchronous machine reactive current in the under-excited state corresponding to the synchronous under-excitation setpoint, then a positive current flows from the output of the synchronous under-excitation limit evaluation circuit 1. .controller 2 zero. If the reactive current of the synchronous machine in the under-excited state is greater than the one set for the synchronization of the synchronous machine, then a negative current flows from the output of the synchronous machine arousal limit evaluation circuit 1 and output 2 _Λ 9 of the control member 2. synchronous machine excites. The voltage from the output 4.4 of the differentiating member 4, applied to the second input 2.2 of the regulating member, is approximately proportional to the derivation of the drive current of the synchronous machine and stabilizes the operation of the underload limiter of the synchronous machine. The control member 2 functions as a PI controller with an output of positive polarity only.

The circuit according to the invention finds application in excitation systems of large synchronous machines.

Claims (1)

ø fi E D M 5 Φ of vinal 227 129 Synchronous Machine Undervoltage Limiter Monitoring, consisting of a synchronous machine under-voltage evaluation circuit, a control member, a synchronous machine excitation current sensor and a derivative member, characterized in that the first input (2.1) of the control member (2) whose output (2.9) is the output the output (1.7) of the circuit (1) of the synchronous machine evaluation limit is connected, while its output (4.4) is connected to its second input (2.2) and the derivative (4) is connected to its output (4.1). 7) synchronous machine excitation current sensors (5).