CS244155B1 - Device for regulation of cos f consumption from busbar voltage - Google Patents

Abstract

The device according to the presented solution is part of the excitation synchronous compensator, the task of which is to maintain a certain quality of cos ψ* of the electrical energy consumption from the voltage busbar. It is applied in such substation arrangements where two or more synchronous compensators operate with the possibility of either independent connection to the VHV busbars or parallel cooperation on the HV connection. The device allows to regulate the c«J^ of the consumption during various substation transformations without the need to switch external voltage and current sensors. Binary information about the substation transformation will perform such an adjustment of the cos ψ regulation structure within the excitation set of synchronous compensators, so that during power factor compensation all connected synchronous compensators share the delivered reactive power in an appropriate manner. The device consists of active and reactive power sensors or current drawn from the voltage busbar, reactive power sensor or compensator current, voltage regulation feedback element, cos Ý controller, switching element, auxiliary input of the comparison and regulation element of the reactive power controller and auxiliary output of the cos f controller.

Description

The device according to the present invention is part of an excitation synchronous compensator whose task is to maintain a certain quality of the cos * power consumption from the busbar. It is used in switchgear configurations where two or more synchronous compensators operate with the possibility of either independent connection to the HV busbars or parallel co-operation on the HV connection.

The device makes it possible to regulate the consumption of various substations without switching external voltage and current sensors. The binary substation transfiguration information within the excitation set of synchronous compensators will adjust the cos regulace control structure such that all connected synchronous compensators share the reactive power output appropriately in power factor compensation.

The device consists of the active and reactive power sensors or current drawn from the voltage busbar, the reactive power sensor or compensator current, the voltage regulating feedback element, the cos regul regulator, the switching member, the auxiliary input of the comparative and regulating power regulator and the auxiliary output of the cos f regulator.

244 155

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BACKGROUND OF THE INVENTION The present invention relates to a device for regulating cos power consumption from a busbar.

Until now, a voltage busbar has been used to control the cos V * of the busbars on which several synchronous compensators have been connected to a device that includes central members and controllers for the individual synchronous compensators. The central members evaluate the deviation * cos of the busbar consumption and distribute the reactive power supply to the individual compensators via the excitation controllers of the individual synchronous compensators.

The first aspect of the invention is that the first input of the cos regul controller is connected to the output of the active power sensor or the active current drawn from the voltage bus and that the second input of the cos controller is connected to the output of the reactive power or reactive current drawn from the voltage bus. cos is connected to the auxiliary output of the cos V controller and to the first input of the switching member, the second input of which is connected to the auxiliary input of the comparator and reactive power regulator, and that the switching member output is connected to the first input of the comparator and The second input is connected to the output of the synchronous compensator reactive power sensor.

An advantage of the device according to the invention is that the auxiliary output of the cos ^ controller can be connected to the auxiliary input of the comparator and control element of the reactive power controller and via a switching member to the first input of the comparator and control element.

- 2 244 155 of reactive power regulator of another similar device for regulation of cos consumption from voltage busbar · This eliminates the need to use central elements in regulation of cos ^ voltage consumption busbar to which two or more synchronous compensators are connected ·

An example of a practical embodiment of the invention is shown in the block diagram of the accompanying drawing. The device according to the invention consists of a ^cos controller 2 whose first input 1.1 is connected to output 18.3 of an active power sensor 18 or active current drawn from the voltage busbar. 16 busbar voltage to 14 busbar voltage. and whose second input

18.2 is connected via the voltage busbar converter 17 to the voltage busbar 14. The second input 1.2 of the cos V controller is coupled to the output 19.3 of the reactive power sensor or the reactive current drawn from the voltage busbar, the first input 19.1 being coupled to the busbar current converter 17 the second input 19.2 of which is connected via a busbar voltage converter 16 to a voltage busbar 14. The voltage busbar 14 is connected both to the input 15.1 of the voltage busbar 15 and secondly through a block transformer 13 to the stator winding 802. of the synchronous compensator 8. The output 1.3 of the cos Z controller is connected to the first input 4, 1 regulator cos. 4.2 input switching element 5 ^e 2 is connected to the auxiliary input 2 reference and a control member reactive power controller. The output 4.3 of the switching member 6 is connected to the first input 5.1 of the comparator 2 of the reactive power regulator, the second input 5.2 of which is connected to the output 12.3 of the reactive power sensor 12 or the reactive current of the synchronous compensator. The second input 12.2 is connected via the converter of the synchronous compensator to the stator winding 802 of the synchronous compensator 8. Output 5.3 of the comparator and regulator

The reactive power regulator element 2 of the 3 244 15S is connected to the first input 6 of the voltage comparison and control circuit 6, the second input 6.2 of which is connected to the output 11.3 of the voltage feedback control element 11 of which the first input 11.1 is connected through the voltage converter 2. on the stator winding 802 of the synchronous compensator 8. The second input 11.2 is connected to the converter 10 of the synchronous compensator current. The output 6.3 of the voltage regulator comparator 6 is connected to the input 7.1 of the actuator actuator 2, the output 7.2 of which is connected to the rotor winding 801 of the synchronous compensator 8. The cos controller 2 consists of a setpoint potenoiometer 101. the second end is coupled to zero potential and the slider is connected first to the input 103 of the analog multiplier 102. whose second input 104 is connected to the first input 1.1 of the controller 2 cos · The output 105 of the analog multiplier 102 is connected via the first resistor 106 to the inverting input of the operational amplifier 109. In addition, the inverting input of the operational amplifier 109 is connected via a second resistor 107 to a second input

1.2 of the ^cos regul regulator 2 ^and through the third resistor 8 the output of the operational amplifier 109. The output of the operational amplifier 109 is further connected to the output 1.3 of the 2 cos V regulator. ^and whose switching contact is connected to the second input 4.2 of the switching member 2 · The switching contact of the switching member 401 is connected to the output 4.3 of the switching member 2 ·

The device according to the invention operates in the following way: the output signal from the active power sensor 18 or the current drawn from the voltage bus supplied to the input 1.1 of the cos controller 2 is multiplied in multiplier 102 by the signal taken from the slider potentiometer 101 by the coefficient Kás 1. at the input of the operational amplifier 109, it is compared with the output signal of a reactive power sensor 19 or a reactive current drawn from the voltage busbar. Thus, the output signal of the opamp 109 is proportional to the expression K.P - Q, where

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P is the effective power drawn from the voltage bus and Q is the reactive power drawn from the voltage bus. With a large amplification of the operational amplifier 109, even a small value will provide an output signal over the entire linear range of the operational amplifier 109. If this signal is a setpoint of one or more reactive power controllers, then the reactive power of one or more synchronous compensators fe Q, which implies cos. cos (aretg K). Thus, the slider position of the potentiometer 101, which determines the magnitude of the constant K, can be used to specify the desired magnitude of the cos * f of the voltage supply. The use of a reactive power controller whose output signal is a voltage control circuit setpoint is necessary for even synchronous compensators to be distributed evenly. If two synchronous compensators, each equipped with a device according to the invention, are connected to the voltage busbar 19, then one device according to the invention has a switch 401 in the switching member 6 in the rest position and in the other the switch is closed. The signal from the cos regulator / first device according to the invention is applied via its auxiliary output 6 of the cos regulator to the auxiliary input 2 of the comparative and control element of the reactive power regulator of the second device according to the invention. The function is similar for several synchronous compensators connected to the voltage busbar. *

The device for regulating the cos consumption from the voltage busbar is used in controlled excitation systems of synchronous compensators at the power take-off points, where the ratio of active and reactive power consumption fluctuates strongly.

AND

- 5 SCOPE OF THE INVENTION

Claims (1)

244 15S Device for the control of cos power take-off from the voltage busbar, consisting of the active power or active current drawn from the voltage bus bar, the reactive power sensor or the current drawn from the voltage bar, the auxiliary output of the cos controller, the auxiliary input of the comparator , a switching member, a comparator, a reactive power regulator, a reactive power sensor, or a synchronous compensator current, wherein the output of the comparator and reactive power regulator is connected to a first input of the comparator and regulator of a voltage control circuit to a second input the output of the voltage regulator feedback circuit is connected, and the output of which is connected via a field actuator to a rotor winding of a synchronous compensator whose stator winding is connected on the one hand through the voltage converter of the synchronous compensator to the first input of the voltage regulator feedback circuit and to the second input of the reactive power sensor or the hive current of the synchronous compensator, on the other hand through the current converter to the first input of the reactive power sensor or the reactive current sensor of the synchronous voltage regulating circuit and on the primary winding of the block transformer, the secondary winding of which is connected to the voltage busbar to which both the load is connected, and through the voltage busbar converter the first input of the active power sensor or active current drawn from the voltage busbar power or reactive current taken from the voltage busbar, and second through the voltage bus current converter, the second input of the active power or active current taken from the voltage busbar and the first input of the reactive power sensor or reactive current drawn from the voltage busbar, characterized in that the first input (1.1) of the cos ^ j® controller (1) is connected to the output (18.3) of the active power sensor or busbar current drawn from the busbar. voltage, and that the second input (1.2) of the cos controller (1) is connected to the output (19.3) of the reactive power sensor (19) or the reactive current drawn from the busbar «voltage and output (1 * 3) of the oos controller (1) connected to the auxiliary output (3) of the cos V controller and to the first input (4 · 1) of the switching member (4), the second input (4 · 2) of which is connected to the auxiliary input (2) and that the output (4 · 3) of the switching member (4) is connected to the first input (5.1) of the comparator and control member (5)