SU1043612A1 - Capacitor bank automatic adjusting device - Google Patents

Abstract

DEVICE FOR NVTOMATIC REGULATION OF CONDENSING BATTERY, containing a transformer, the secondary winding of which is connected via a rectifier to a threshold organ connected to the time delay organ, which is equipped with a power supply unit, which is simplified and improved in accuracy. An RC circuit, a capacitor, two potentiometers, two resistors and two diodes, and a threshold organ and: a time delay organ are executed on the operating amplifiers, and the positive side of the rectifier is connected to the inverting input of the rectifier, to its non-invert input: through a diode connected the output of a potentiometer connected between the positive and zero terminals of the power supply unit, between the output of the threshold organ and the zero output of the power supply unit is on an RP circuit whose common point is connected to the non-inverted input j time-delaying organ and through serially connected -condens (L sator and resistor to its output, also connected to the executive unit and to the second potentiometer, j the other output of which is connected to:; null OUT power supply, and i output of the second potentiometer through the second diode connected to the non-inverting input of the threshold organ.

Description

The invention relates to the automatic regulation of modes in electric networks and can be used in devices for local control of voltage and reactive power in a network using discrete devices, for example, using capacitor banks. Single-stage devices for adjusting the power of capacitor banks for voltage are known, which contain a regulator based on an electromagnetic minimum voltage relay in electromechanical time relays for tuning the short-term voltage fluctuations of the network. The disadvantages of such a device are the low accuracy of the controlled voltage monitored by the regulator. network, as well as the absence of the possibility of separately adjusting the settings for triggering and returning the device, which makes it difficult to the controllability is not within the required limits. The closest to the invention by its technical nature is a one-step automatic control device for a - capacitor battery using two voltage relays. The device consists of two threshold organs and two time delay organs. In order to ensure separate adjustment of the settings for triggering and returning the device (separate adjustment of the upper and lower deadband settings), the threshold organs are made in the form of two electromagnetic relays of minimum and maximum voltage. Bodies of time are made in the form of. Two electric time relays, one of which provides a time delay for filing the Enable command, the second - Disable With. The disadvantages of this device are complexity, large size, low reliability, high power consumption, low accuracy of tracking of the monitored network parameter. The purpose of the invention is to simplify and improve the accuracy of the device. The aim is to ensure that the device for automatic control of a capacitor battery, which contains a transformer, the secondary winding of which is connected to the threshold organ connected to the time trigger organ, rectifier unit, power unit, through a rectifier it is equipped with an RC circuit, a capacitor, two potentiometers with two resistors and two diodes, and the threshold organ and the time-delay organ are made on operational amplifiers, in addition to The positive input of the extractor is connected to the non-inverting input of the threshold organ through a diode; an output of a potentiometer connected between the positive and zero terminals of the power supply unit is connected, between the output of the threshold organ and the zero output of the power supply unit an RC circuit is connected, the common point of which is connected to the non-inverting input of the time-delaying organ and through its serially connected capacitor and resistor to its output, also connected with the executive unit and with the I second potentiometer, the other output of which is connected to the zero output of the power supply, and the output of the second potentiometer through the second diode is connected to the non-inverter ruyuschim input threshold body. The drawing is a diagram of the device. The device contains a voltage transformer 1, a rectifier 2, a filter capacitor 3, a potentiometer 4 turn on, dividing diodes 5 and 6, an operational amplifier 7 of the threshold organ, a resistor 8 of the master KS circuit, a capacitor 9 in the positive feedback circuit of the operational amplifier of the organ pg, time hold, capacitor 10 time of the master RC circuit, resistor 11 in the circuit of positive feedback of the operative amplifier of the time-delay organ, operational amplifier 12 of the time-delay organ, setpoint potentiometer 13 From to turn on. device actuator 14. The device is connected to the mains using a voltage transformer 1. The inverting input of the operational amplifier 7 of the threshold organ, made according to the comparator circuit, from the positive output of the rectifier 2 is supplied to the rectified voltage smoothed by the capacitor 3, which is proportional to the voltage of the network. The device triggering setting (lower deadband setting) to form the Enable command is determined by the positive sign voltage of the supplied signal non-inverted and the input of the operational amplifier 7 of the threshold organ through diode 5. This voltage is removed from potentiometer 4. The device operates as follows. In the mode when the voltage removed from the rectifier is higher than the voltage, the output voltage of the operational amplifier 7 is negative. At the same time, the output of the operational amplifier 12 is also negative. In this case, the executive unit is in an inoperative state, the capacitor battery is disconnected. When the network voltage drops to a level when the output voltage of the output voltage becomes less than the voltage Ug, the amplifier 7 switches, a positive voltage equal to the supply voltage Un is applied to its output, and through the resistor 8 it starts recharging the capacitor 10, which is previously charged up to a voltage equal to that of the power supply unit UE. When the voltage on the capacitor 10 reaches a value greater than zero, the operating amplifier 12 of the time lag switches and the executive device of the device va 14 comprising a capacitor bank. In this case, the capacitor 10 is quickly recharged to the voltage across the circuit: resistor 11 is capacitor 9. h, .. To achieve this, capacitor 9 and 10 have the same capacitance, and resistor 11 has much less resistance than resistor 8. the switching moment of the operational amplifier 12 at the output of the potentiometer, 13 a positive voltage C / opens a higher voltage C / on appears. This voltage through a diode b is supplied to the non-inverting input of the operational amplifier 7 iop), the setting of the operation of the regulator for the command will disable l (top of the dead zone). When the mains voltage increases, when the voltage at the output of the rectifier becomes greater than the voltage, UOTKA switches over amplifier 7 and J-Un appears at its output. This voltage starts to recharge the capacitor 10, previously charged before the voltage is “- U. When the voltage on the capacitor 10 decreases, the amplifier 12 switches to its output, the voltage U– appears at its output and the actuator and the output of the potentiometer 13 are disconnected from the non-inverting input of the amplifier 7. The capacitor 10 is quickly charged to the voltage across the circuit 11 - capacitor 9. The circuit, thereby, returns-. the state that occurred before the battery was turned on. The presence of deep positive feedback: resistor 11 - capacitor 10, at the time of switching the operational amplifier 12 allows to provide a stable time out from the moment of voltage change below or above the deadband to actuation or return of the actuator regardless of what time the shutdown takes place network voltage from the dead zone of the regulator. Thereby, the number of switchings of the battery is reduced with frequent oscillations of the network, which is necessary under the operating conditions of the capacitor banks and devices switching the batteries.

Claims (1)

DEVICE FOR AUTOMATIC CONTROL condenser battery comprising a transformer, the secondary winding is via the rectifier is connected to a threshold body connected to the shutter body of time the execution unit, a power unit, characterized in that, in order to simplify and improve the accuracy, it is provided with ^{I '_} C® drink, a capacitor, two potentiometers, two resistors and two diodes, and the threshold organ and the time delay organ are made on operational amplifiers, moreover, to the inverting input of the threshold organ The positive output of the rectifier is connected to its non-inverting input: through the diode, the output of the potentiometer connected between the positive and zero outputs of the power supply is connected, an RC circuit is connected between the output of the threshold organ and the zero output of the power supply, the common point of which is connected to the non-inverting input of the time delay device and through connected in series conditio * ¹ sator and resistor to its output, connected also to the executive unit and to the second potentiometer, I other output of which is connected to; zero output power supply, and: the output of the second potentiometer through the second diode is connected to a non-inverting input of a threshold organ,