SU675551A1 - Simistor control device - Google Patents

Description

(54) CONSTITUTION FOR CHMHCTOiPOM MANAGEMENT

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The invention relates to electrical engineering and can be used in regulators of a constant-voltage or constant-voltage system.

Known control devices are simistarann, which contain diodes, resistors, capacitors, transistors, relays T. These devices do not meet their requirements in many cases for their adjusting properties and circuitry solutions. They lack galvanically isolated the inputs makes it difficult to control saiUKHyTbix control systems and there is no smooth control of the phase in a wide range. The closest technical solution to the invention is a control device with a Sistor 9m containing relaxation Ion generator HS-chain, a threshold element connected to the control electrode of the triac Yusch MCM 2. In this apparatus not obespechivaet full range uprayl shtsego phase adjusting signal, the possibility of administration. feedback signals and its inclusion in a closed loop control system.

The aim of the invention is to expand the range of the regular. In addition, this device allows several talvanic processes for inputs to be received.

This is achieved by the fact that the device for

An simulator control containing a relaxed RC-chain oscillator, a CO-chain, a threshold element, and resistors is additionally equipped with a magnetic modulator with a working voltage and control windings, a rectifier,

a transistor and a voltage divider, the voltage divider to which the RC and CD chains are connected is connected via a threshold circuit and a resistor to the rectifier, one nz of the control windings of the magnetic modulator

connected in parallel to the capacitor of the RC chain is a resist f and a transistor, the base of which is connected to DD through a resistor with a capacitor of the YE chain, the diode of which is connected to a capacitor, the working winding of the magnetic modulator is connected to the voltage divider and the other to the control cnimistor electrode, controlling the transition with a saiuyHrajiOBaH resistor.

FIG. the scheme of the proposed device is given; pas figs. 2 - voltage diagrams showing the operation of the circuit.

The device contains a full-wavelength wiring 1, connected through a stabilizing chain of resistor 2 and zener diode 3 to a resistor, 4, to which, as a divider, is connected, several circuits are connected. Drink: diode 5 resistor 6, capacitor 7 (RC-chain), daodo 8, capacitor 9 (CD-chain), 1 operating winding 10, resistor 11, in parallel with which the triac control circuit 12 is connected. To the capacitor in the RC-chain is connected the control winding 13 through the resistor 14 and the transistor 15, in the base circuit of which a resistor 16 is installed. A signal from the feedback circuits can be supplied to the winding 17.

.Slux full-wave rectifier with station-. the bilizing chain (resistor 2, zener diode 3) transforms a sinusoidal voltage with a frequency of 50 Hz and a trapezoidal pulse with a frequency of 100 Hz (see Fig. 2 a, b). From the moment the next trapezoidal pulse arrives in the circuit, the following occurs: the diode 5 and the resistor 6 are charged to the capacitor 7 (Fig. 2, c), the capacitor 9 is charged through the diode 8, the magnetic modulus core is magnetized. At the moment of saturation of the core, the resistance of the 1st winding 10 decreases sharply and resistor 11 increases sharply (Fig. 2 d) the pads of HIH, which are the control signal for the triac 12. The angle of the HIH; 3te5f signal is the interval (a) from t ayzeidalibgo pulse to the moment of damaging the core. The more the heart is demagnetized in the interval of the 1 rapecetide-n ° pulses interval, the longer it will be magnetised by the trapezoidal impulse, the greater; the angle of the game; ...

In circuits between the keystone of the Tympy pulse and the voltage of the capacitor 9, it is supplied to the base of the transistor 15 through the resistor 16 and opens it. Through the open span 15, the resistor 14 and the control winding 13 (which is connected to the winding 10}, capacitor 7 is discharged;; thus demagnetizes the core of the magnetic modulator. Obviously, the larger the capacitor 7 will be charged Yes, the capacitor 7 and the magnitude of demagnetization of the core, the longer the magnetisation of the core by trapezoidal pulses and the greater the angle A. Thus, as the resistance value of the resistor 6 changes, the time constant of the charge circuit changes. voltage 7 on the capacitor 7 to the end of the trapezoidal pulse (Fig. 2c) and the regulation Angle A (Fig. 2g). Similarly, the angle a can be adjusted from 10 to 170 °. connections, which allows its use in closed automatic control systems and obtains the required characteristics of the converter.

The feedback signal can be fed to the winding 17 or to the input of the transistor 15.,

Claims (2)

1. Auen, L. F. Non-Contact Switching of the Jipe (Lethye circuits on thyristors M., Energie, 1968, p. 115; 2. USSR author's certificate number 545050; : H 02 M 1/08, J974. r lj-CrUu L1 /one Fi & /