CS254507B1 - A device for ensuring the proper functioning of the rotor current limiter circuits of a synchronous machine - Google Patents

Abstract

The invention relates to the field of automatic control of excitation of synchronous machines. The device solves the problem of increasing the reliability of the excitation system function in the case of rotor current limiter circuits. In the event of a malfunction or malfunction, the changeover to the rotor current limiter of the spare voltage control circuit ensures voltage. The device can be used for excitation regulators of synchronous steam and water power plants.

Description

(54) Devices for ensuring the proper functioning of the synchronous machine rotor current limiter circuits

The solution concerns the field of automatic regulation of synchronous machine excitation. The device solves the problem of increasing the reliability of the excitation set function in case of failure of the rotor current limiter circuits. In the event of a malfunction or malfunction, switching to the rotor current limiter provides a replacement voltage control circuit. The device can be used for control of excitation of synchronous machines of steam and hydro power plants.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for ensuring proper operation of a rotor current limiter circuit of a synchronous machine.

Until now, rotor current limiter circuits have been used in the synchronous machine excitation controllers, which by their properties, for example using a non-linear element and suppressing a positive output signal, make it impossible to use conventional diagnostic methods, such as two out of three. This disadvantage is also reflected in the reliability of the entire excitation system. E.g. if the rotor current limiter fails, the synchronous machine can be undesirably impacted and the operating point of the synchronous machine can pass to the forbidden area, resulting in machine failure.

The disadvantages of the present invention are to eliminate the device for ensuring correct operation of the rotor current limiter circuits of a synchronous machine according to the invention, characterized in that the parallel connected first and fourth inputs of the logic operation member are connected to the signal output of the rotor current limiter. is connected to the signal output of the diagnostic rotor current limiter. The third input of the logic operation member is connected to the signal output of the rotor current limiter of the replacement voltage control circuit, and the fifth input of the logic operation member is connected to the output of the synchronous machine operating point evaluation circuit, its input being connected to the reactive current or output of the synchronous machine. The logic operation member output is connected to the control input of the switch.

The advantage of the device is that in the event of a failure of the rotor current limiter of the main voltage control circuit, this condition is immediately evaluated and switched to the rotor current limiter of the substitute voltage control circuit. This will prevent a malfunction of the field controller, which may result in a power block failure.

An example of a practical embodiment of the invention is shown in the attached drawing.

The apparatus consists of a main voltage control circuit rotor current limiter which is connected to its main voltage control circuit input 4.1 by its control output 6.1, the signal output 6.2 of the main voltage control circuit current limiter 6 connected to the inputs 11.1 and 11.4 of the member 11 connected in parallel. to the fifth input 11.5 the output 10.2 of the synchronous machine operating point evaluation circuit 10 is connected and to the second input 11,2 the signal output 8.2 of the rotor current limiter 2 is connected and to the third input 12.3 the signal output 7.2 of the rotor limiter current of spare control circuit voltage 2 ·

The control output 7.1 of the rotor current limiter of the spare voltage control circuit 1 is connected to the input 5.1 of the spare voltage control circuit 2 ^{and the} output 5.2 is connected to the second input 3.2 of the switch 3 whose first input 3.1 is connected to output 4.2 of the main voltage control circuit 2. input 3.3 is connected to output 11.6 of logic operation member 11 and whose output 3.4 is connected to input 2.1 of actuator actuator 2, output 2.2 is connected to rotor winding 1.1 of synchronous machine 2 ·

The reactive current or power sensor of the synchronous machine is connected via its output 9.1 to the input 10.1 of the synchronous machine operating point evaluation circuit 10. Furthermore, the rotor current limiter of the main voltage control circuit 6 comprises an evaluation circuit 61, a non-linear positive output voltage suppression member 62, and a rotor current limiter function signaling member 63.

The evaluation circuit 61 is connected with its output 61.1 to the input 62.1 of the non-linear member 62 with suppression of the positive output signal, whose output 62.2 is connected to the input

63.1 of the rotor current limiter function signaling member 63 and, on the other hand, to the rotor current limiter current control circuit 6.1 of the main voltage control circuit 6, its signaling output 6.2 is connected to the output 63.2 of the rotor current limiter function signaling 63.

The current limiter of the replacement voltage control circuit 7 and the rotor current diagnostic limiter 8 have the same composition and wiring as the above-described rotor current limiter of the main voltage control circuit 2. The logic operation member 11 comprises an inverter 111, the input 111.1 of the inverter 111 is connected to the first input 11.1 of the logic operation member 11, its output 111.2 is connected to the first input 113.1 of the three-input product 113, the second input 113.2 of which is connected to the second input 11.2 of the logic operation 11 and whose third input 113.3 is coupled to the third input 11.3 of the logic operation member 11 and whose output 113.4 is coupled to the first input 114.1 of the two-input summation member 114.

The second input 114.2 of the two-input summation member 114 is connected to the output 112.3 of the two-input product 112, whose first input 112.1 is connected to the input 11.4 of the logic operation member 11 and whose second input 112.2 is connected to the fifth input 11.5 of the logic operation member 11. The output 114.3 of the two input summation member 114 is coupled to the output 11.6 of the logic operation member 11.

The device according to the invention operates in the following manner so that if there is no fault in the monitored circuits of the rotor current limiter of the main voltage control circuit 6, the switch 2 is in the rest position and interconnects input 3.1 with output 3.4. In the event of a malfunction or malfunction of the rotor current limiter of the main voltage control circuit 6, the described device performs an evaluation of this condition and, by a signal from the logic operation member 11, switches the switch 2 to position 3.2. put into operation the current limiter of the spare voltage control circuit

The failure evaluation of the rotor current limiter of the main voltage control circuit 2 ^is performed in the logic operation element 11 from the signals applied to its inputs 11.1, 11.2, 11.3, 11.4, 11.5. The setting of the rotor current limiter parameters of the substitute voltage 2 control circuit is identical to the setting of the diagnostic rotor current limiter 2, but the parameters of the rotor current limiter of the main voltage control circuit 6 are set so that its intervention occurs at a lower rotor current level of the controlled synchronous machine. of the monitored current limiter of the main voltage control circuit 6, two kinds of possible errors are evaluated by said device. In the first case, if the excitation current is exceeded due to the failure of the rotor current limiter of the main control circuit, the voltage 2 / is not affected, ie at its signal output 6.2 the signal level remains in log L. voltage 7 ^and θ · 2 of the rotor current diagnostic limiter 2 is the signal level of log H.

Thus, at the inputs of the logical operation member 11, these logical levels are at the first input

11.1 is the log L level, the second input 11.2 and the third input 11.3 the log H. The signal level on the fifth input 11.5 can be arbitrary. Inverter 111 inverts the input signal

Thus, at the inputs 113.4, the three-input product 113, there is a log H level, which is applied to the input 114.1 of the two-input sum member 114. At its output 114.3 and thus at the output 11.6 logical operation member 21, the level of the log H which ensures the switch 3. This disconnects faulty rotor current limiter main control circuit 2 ^{and the} voltage limiter connects the rotor current of the replacement control circuit voltage 2 · ^{in the} second case, the current limiter of the rotor main control circuit voltage 6, due to malfunction, improperly intervening in the area of the underarm of the machine. This case evaluates the two-input product member 112 of the logic operation member 11. At its input 112.1, in the event of a failure of the rotor current limiter of the main control circuit voltage 6, the signal level is log H.

When the synchronous machine 2 is operating ⁱⁿ the under-excitation area, the log H level at the second input 112.2 of the dual-input product 112 is consequently. At its output 114.3 and hence at the output 11.6 of the logic operation member 11, there is a log H level that will switch the switch 2 ^to the rotor current limiter of the replacement re254507 voltage circuit 7. The underarm state of the synchronous machine 7 is evaluated by the operating point evaluation circuit 10 of the synchronous machine. If the machine is in the overdrive area, the log L signal output level 10, output 10 of the synchronous machine evaluation circuit 10 is output, and the log H level in the undercurrent condition.

The device according to the invention can be used in excitation systems of large synchronous machines working on hydroelectric and steam power plants, where the reliability of the function of the device is emphasized.

Claims (1)

SUBJECT OF THE INVENTION A device for ensuring the proper operation of synchronous machine rotor current limiter circuits, consisting of a diagnostic rotor current limiter, a reactive current sensor or synchronous machine power, a synchronous machine operating point evaluation circuit, and a logic operation member connected to the switch control input, is connected to the input of the actuator, the output of which is connected to the rotor winding of the synchronous machine, the first input of the switch being connected to the output of the main voltage control circuit, the input of which is connected to is connected to the output of the spare voltage control circuit, its input being connected to the control output of the current limiter of the spare voltage control circuit, characterized in that the first and fourth inputs (11.1, 11.4) of the logic operation member (11) are connected in parallel to the signal output (6.2) of the main current control circuit (6) of the rotor current limiter, that the second input (11.2) of the member (11) the logic operation is connected to the signal output (8.2) of the rotor current diagnostic limiter (8) that the third input (11.3) of the logic operation member (11) is connected to the output current limiter (7) of the rotor current limiter (7) and the fifth the input (11,5) of the logic operation member (11) is connected to the output (10.2) of the synchronous machine operating point evaluation circuit (10), its input (10.1) being connected to the output (9.1) of the reactive current or power sensor (9) the output (11.6) of the logic operation member (11) is connected to the control input (3.3) of the switch (3).