SU811389A1 - Device for protecting synchronous machine from excitation loss - Google Patents

Description

no less than a predetermined setpoint, control the operating mode parameters of a synchronous machine, generate an additional signal, and if both of these signals are present, generate a signal to turn off the synchronous machine, after forming the main signal, withstand the predetermined time required for the tune-up of the generator, and An additional signal is formed by measuring the half-width of the change in the excitation current and comparing it with the setpoint, i.e., the minimum allowable half-period. FIG. 1 shows a block diagram of a security device, realizing, its proposed method; in fig. 2 is a curve of a change in the excitation current of a synchronous machine when its asynchronous mode occurs after the excitation voltage disappears at time 0, where ti is the first time that the excitation current reaches the specified setpoint equal to zero value of the excitation current in the considered example; Ii and 2 are the first and second settings of the time delay block; t is the time when zash, ity is activated. The protection device of the synchronous machine 1 with the switch 2, the excitation winding 3 and the exciter 4 comprises an excitation current measurement unit 5, an excitation current current comparison unit 6 with a predetermined setpoint and formation of a main signal, a fixing unit 7 of the first moment of time for the excitation current reaching the setpoint time with two settings TI and G2 and the formation of signals for the expiration of both time delays and block 9 performing the function I. This method is implemented as follows. The magnitude of the excitation current of the synchronous machine 1 is measured in block 5 and fed to block 6, where this value is compared with the predetermined setpoint and a main signal is generated if the excitation current is less than the predetermined setpoint. This signal is sent to block 9, which performs the function I. At block 7, the first moment of time the current reaches the setpoint is reached and the signal is generated to activate the block 8 time delay with two settings T and T at this time. The first time delay TI is selected in this way to provide protection detuning with a decrease in the excitation current in the synchronous oscillation mode of the synchronous machine. The setpoint T of the second time delay is greater than setpoint 1 for a time greater than the time of half rotation of the rotor in asynchronous modes to be disconnected, i.e. where 7 is the maximum period of rotation of the rotor in asynchronous modes to be disconnected; D / is the maximum allowable frequency difference due to the increased rotor speed of the synchronous machine in asynchronous mode compared to the frequency in the power system. In block 8, a signal is generated that the first time delay has elapsed, i.e., an additional signal that is fed to block 9 that performs the AND function, and exists there until the time delay T expires. At the time point from block 6 to block 9 again the main signal is received when the excitation current reaches a predetermined setpoint equal to zero value of the excitation current in the considered example of the protection device operation. If there is a main and auxiliary signal in the time interval., - T, from block 9 a signal is received to turn off switch 2. After the time delay T has expired, block 8 returns to its original state and the supply of the additional signal from block 8 to block 9 stops. The setpoint T can be chosen so that the time period Af TZ-TI is longer than half the rotor turn in any practically possible asynchronous modes of the synchronous machine, resulting from the loss of excitation. With this choice of Gg will be provided with protection in all these modes. However, some asynchronous modes are characterized by a non-dangerous increase in rotor speed for a synchronous machine. By setting the maximum allowed value for the synchronous machine A /, which characterizes the increase in the rotor speed relative to the frequency in the power system, you can select the time A.t T2-Ti such that the protection will only disable the modes dangerous for the synchronous machine. Thus, a device made in this way and giving a command to turn off when there are two signals, with the main signal generated if the excitation current is less than the specified setpoint, and with an additional signal formed according to the nature of the change of the excitation current in asynchronous modes when the excitation is lost , ensures reliable operation of the protection, taking into account the maximum allowable increase in the rotor speed in asynchronous modes. The use of the invention allows to create with the help of elements

Claims (2)

SUMMARY OF THE INVENTION A method for protecting a synchronous machine from 1 loss of excitation, which measures the parameter of the field winding mode, for example, the field current, compares it with a given set point and generates a main signal if the field current is less than the specified set point, controls the parameters of the synchronous machine operating mode, generate an additional signal and, in the presence of both of these signals, form a signal to turn off the synchronous machine, 2 characterized in that, in order to increase the reliability of the protection and After protection is applied, the maximum allowable increase in rotor speed in the asynchronous 5 modes of the synchronous machine is taken into account, after the formation of the main signal, the predetermined time necessary to detune the protection from the oscillation mode of the generator is maintained, and the additional signal is generated by measuring the half-period of the excitation current and comparing it with setting, i.e. the minimum allowable half-cycle. 5 Sources of information taken into account in the examination 1. USSR Copyright Certificate No. 396784, cl. Η 02H 7/06, 1974. 0 2. Copyright certificate of the USSR .№ 553708, cl. Η 02H 7/06, 1977. FIG. 2