SU545038A1 - Device for automatic control of frequency and active power of energy - Google Patents

Description

from the set values, it is connected to the output of the frequency setpoint adjuster, the second input is connected to the output of the mains frequency meter, the third input is connected to the output setpoint adjuster of the exchangeable power flow, the fourth input is connected to the output of the exchangeable power flow meter. The output of this block is connected to the input of the increment distribution block between control stations, the outputs of which, in turn, are connected to the first inputs of the formation blocks of the resulting control actions for individual control stations ..

The first input of the high-level control increment detection unit is connected to a control sensor of this level, and its output is connected to the input of the high-level control action increment block, the outputs of which are connected to the second inputs of the formation of the resulting control actions for individual stations, and to the inputs of the adder increments. The output of the latter is connected to the second input of the increment detection unit and the fifth input of the control action incrementing unit when the current values of the frequency and the flow of exchange power deviate from their specified values. Due to such a construction, the proposed device allows the reception and distribution of the control action of a higher level with maximum speed, which preserves the specified static and dynamic characteristics of the latter; the priority in the implementation by regulating stations of the control action of a higher level by adjusting the setpoint of the setpoint of the flow of exchange power in accordance with the magnitude and sign of this effect.

The drawing shows a block diagram of the device.

According to the invention, the device comprises a control action increment block 1 when the current values of the frequency and the exchange power flow deviate from their predetermined values, the distribution of these increments between control stations using the CCD, the control action blocks 3 for individual stations, unit 4 for detecting the increments of the control action of a higher level, unit 5 for distributing these increments between the control stations and the adder 6 for the increments of the controlling influence Twi higher layer transmitted in blocks 3.

During one period of time quantization in the proposed device, the following occurs.

In block 4, the current value of the control action coming from the highest level is compared with the value of the control action of the highest level transmitted in

blocks 3 in previous periods of quantization in time.

If these values are not equal, block 4 forms the increment of the control action of a higher level. It enters unit 5, where it is distributed using KDU control stations. From the output of block 5, the increments of control actions of the highest level for individual stations are simultaneously received at the inputs of blocks 3 and adder 6.

In each of blocks 3, the corresponding increment is algebraically added to the previously accumulated value of the control action of the highest level for the stations, and the result obtained is memorized. By means of telemechanics, it is transmitted to the appropriate station.

In adder 6, all increments for a given quantization period over time are summed and algebraically added to the previously accumulated value of the control action of the highest level and stored. From the output of the adder 6, this value is applied simultaneously to the inputs of block 4 and block 1. In the first, it is used to detect increments of the control action of a higher level, and in the second, to correct the setpoint of the exchange power flow setpoint.

If in the next quantization period in time the 4 values compared in block turn out to be equal, then the subsequent operations in this period do not occur, since this means that the device has implemented control, its high level effect.

Claims (1)

Invention Formula A device for automatic control of the frequency and active power of an interconnection operating in parallel with another interconnection, comprising a control increment generation unit when the current frequency and exchange power flow deviate from their predetermined values, the first input of which is connected to the frequency setting unit, the second input is connected to the output of the network frequency meter, the third input is connected to the setpoint of the setpoint of the exchange power flow, the fourth input is connected to the output L of the exchangeable power flow, the unit of distribution of the increments of the control action, the input of which is connected to the output of the unit of formation of the increments of the control action, and the outputs of the distribution unit are connected to the first inputs of the units of formation of the resulting control actions for the regulating power plants, I of the control action of the highest level, it is equipped with a detection unit for the control levels of control of its impact of the highest level, the distribution unit of these increments and sum Ator them, the first the input of the detection unit is connected to a higher level control action sensor, its output is connected to the input of an increment distribution unit, the outputs of which are connected to the second inputs of the formation of the resulting control actions for individual control stations and to the inputs of the increment adder, the output of the latter is connected to the second input of the detection unit and the fifth input of the control formation incrementing unit when the current frequencies and the exchange power flow deviate from their specified values. / g 3 R,