SU935926A1 - Inductive load automatic compensator - Google Patents

Description

one

The invention relates to devices for automatic control of the electrical network load parameters and can be used to automatically maintain a predetermined (programmed) value of the power factor, automatically limit the deviations of the network voltage from the predetermined value and automatically limit the power consumed from the network.

The automatic capacitor battery power regulator is known, which contains a measuring element with a sensitive element varying element, two control channels Turn On and Off, a switch that has switching signal outputs according to the number of capacitor battery sections, and a one-shot, whose input is connected to the channel outputs through a logic element control, and the output is to the control input of the elements of change in the sensitivity zone 1 J,

The disadvantage of this regulator is that it cannot ensure the maintenance of high values of the power factor without setting up this factor and the width of the insensitivity zone, which are performed several times a day. These overshoots require constant maintenance from the staff, monitoring the equipment and reduce the effect of automation. These shortcomings are also characteristic of other known automatic compensators with discrete-action actuators (for example, groups of capacitors switched on by means of main starters).

The closest to the proposed is an automatic power factor regulator for industrial plants, containing a measuring

body, deadband positioners and width adjusters with adjustable resistors, control channels More, Less, output switch.

However, this device can provide a coarse adjustment of the power factor only in a narrow range of network load changes.

The aim of the invention is to improve the accuracy of its work.

The goal is achieved by the fact that an automatic inductive load compensator, containing a measuring organ, whose outputs are connected to control amplifiers More or Less, to the inputs of which are connected controllers of the value and width of the dead zone with resistive inputs, and the outputs of the control amplifiers of the control channels are connected via a register and a coder with a wired switch that switches capacitor battery steps, a TIRE ORDER circuit is introduced, and the number of resistive inputs in the setpoint generator and the unit is less than the number of steps of the capacitor battery, with the inputs of the EXCLUSIVE OR circuit connected to the outputs of the register, and the outputs to the resist, unit inputs of the magnitude and width of the deadband.

The drawing shows a structural diagram of an automatic compensator and inductive load.

The proposed automatic inductive load compensator contains a measuring element, for example, a tangent sensor 1, whose input receives a linear voltage directly from the network and the voltage from a current transformer. Sensor 1 is connected to unit 2 of the magnitude and width of the dead zone, which contains resistive inputs 3, which ensure the rotation of the current vector relative to the voltage vector in sensor 1 of the tangent V. The polarity and magnitude of the signal at the output of sensor 1 of the tangent f depends on the deviation of the actual power factor relative to the control point set by unit 2. The output of sensor 1 is connected to the input. home amplifier 4 having two outputs connected to the input of amplifier 5 Smaller and to the input of amplifier 6 More via switch 7, which provides switching of compensation modes either by the signal from sensor 1 of tangent V, or by the signal of sensor 8 by line voltage. Amplifier k is also connected to a preset 9 of the width of the dead zone, which has resistive inputs 10 Amplifier outputs 5 Smaller and 6 More connected to two inputs

block P of the prohibition, which is an OR-NOT logic circuit, and with two inputs of the alarm sensor 12, an alarm signal, in addition, the output More is connected to the addition key 13, and the output is Less than the subtractor key C. Inhibit block 11 serves to control the pulse-generator 15. Alarm sensor 12 is designed to switch off the compensator when amplifier 5 and 6 are faulty, when the More More Less signals appear at their outputs. The keys 13 and 1 are logic circuits I. The generator 15 is designed to generate pulses with an adjustable period of them. follow up. The output of the pulse generator 15 is connected to the addition key 13 and the subtraction key H. The output of the key 13 is connected to the input of the addition 16 of the reverse shift register 17, and the output of the key H is connected to the subtraction input 18 of the same register 17. The outputs of the register 17, the number of which corresponds to the number of switching stages of the capacitor batteries, are connected to the inputs of the encoder 19 which is designed to select a combination connecting capacitor bank steps and for controlling output switch 20c. The number of outputs of the encoder 19 corresponds to the number of stages of controlled capacitor banks. The outputs of the shift register 17 are connected to the inputs of the EXCLUSIVE OR 21 circuit, the outputs of which are connected to the resistive inputs 3 and 10 of the setpoint size 2 and the width 9 of the dead zone, respectively.

Automatic compensator inductive load works as follows.

In case of deviation. {For example, decreasing) tangent in the network from the given

Claims (2)

A setting 2 signal appears at the output of sensor 1. A signal that is less than that supplied to channel Less than 22 amplifier 4 appears. If this signal 5 is larger than the width of the dead zone, set by the setting 9 of the dead zone, the output 22 appears less than the amplifier. to the input of the amplifier 5 Less. Amplified signal at the output of the amplifier 5 Less opens the key AND subtracting and removes the voltage ban from the output of the sensor 11 of the ban. In the case when the signal Less than during time T does not decrease once below the threshold value, the generator 15 outputs a pulse which passes through the subtract key lA to the input 18 to subtract the reverse shift register 17. The position of the shift register 17 is changed and a signal appears at its output, which is fed to the input of the encoder 19 and to the input of the EXCLUSIVE OR 21 circuits. The encoder 19 selects the combination of connecting the capacitor batteries of the next switching stage and instructs the output switch 20 to enable or disable the corresponding cosine capacitors C. Total connected compensating power is reduced. The circuit is EXCLUSIVE OR by the signal of the register 17 connects the resistive inputs 3, 10 setting units of the dead zone size and its widths s. When the tangent V deviates from a given value in the direction of increasing, the regulator works similarly, the only difference is that the More signal appears, which passes through the More channels. 6 The use of the proposed compensator makes it possible to increase the accuracy of power factor control for any network loads. Claims of the invention An automatic inductive load compensator containing a measuring element whose outputs are connected to control amplifiers More and Less. The inputs of which are connected to the dead-end zone width and resistive inputs are connected to the inputs, and the outputs of the control channel amplifiers are connected through a register and encoder to an output switch, switching the stages of capacitor banks, characterized in that, in order to increase the workmanship of his work, the scheme EXCLUSIVE1 DEE OR, and the number of resistive inputs in the setter is one less than the number of steps of the capacitor battery, the inputs of the exclusive OR circuit are connected to the outputs of the register, and the outputs are connected to the resistive inputs of the sets of the deadband size and width. Sources of information taken into account during the examination 1. USSR author's certificate number 39796, cl. G 05 F 1/70, 1972. 2. USSR author's certificate number 603973, cl. G 05 F 1/70, 197.