SU383214A1 - Ferroresonance DECAD DISTRIBUTOR - Google Patents

Description

one

The device belongs to the field of automation and is designed to distribute a series of pulses at its input to separate electrical circuits.

Decade distributors of impulses are known in which ferroresonant relays consisting of controlled chokes and capacitors are connected to an AC network through a common capacitor.

However, they have low sensitivity and are critical to the duration and amplitude of the control pulses.

The proposed device differs from the known ones in that the primary windings of chokes of ferroresonant relays are connected to an AC power source through diodes and thyratrons, and the secondary windings of each previous relay are connected via a diode in parallel to a resistor through which the control electrode of the thyratron of each subsequent relay is connected to the positive pole source control pulses. The secondary winding of the throttle of the last relay is connected via a diode to the nets of the first relay and thyratron thyratron, the output of which is connected to the input of the next decade.

This increases the sensitivity of the circuit and increases reliability.

The drawing shows the electrical principle of the proposed distributor.

The proposed distributor contains ferroresonance relays consisting of throttles / with capacitors 2 connected in series with them, load resistances 5, a common capacitor 4 through which the ferroresonance relays are connected to an AC network, switching thyratrons 5, isolation 6 and rectifying 7 diodes.

The value of the capacitor 4 is chosen such that the voltage at the terminals of the resonant circuits is meager than the voltage at which the relay would spontaneously operate, and when two ferroresonant relays are turned on, the voltage would be less than the turn-off voltage. Thus, the valve has two states: either all relays are turned off, or one relay is turned on.

The proposed distributor works as follows.

When the power supply is turned on for the interstitial grid — the cathode is under the first of the thyratrons 5, since one of the resistors of its divider is grounded by a capacitor. As the capacitor charges, the thyratron is turned on over the gap of the anode - cathode, providing the magnetisation of the throttles / current pulses with a half-wave filling. With

Thereby, the current through the control winding of the throttles 1 and the capacitor 2 increases, which leads to an increase in the voltage on the secondary winding, from which a negative bias is applied to the grid of the second thyratron 5.

When the nerve impulse is delivered to the distributor's input, the day for the grid current of the second thyratron 5 closes through the internal resistance of the pulse generator, as a result of which the tetragrone is switched on, providing a bias of the second droplet 1 and current flowing through the load 3. At the same time, the voltage on the first relay decreases , which leads to its shutdown and dropping of the positive displacement on the grid of the first tiratroi 5. In the interface between the nmuyles, the tiratrons are maintained in the state with the help of the chain, connected in parallel apod - cathode.

When the second pulse arrives, the third thyratron 5 is turned on, including the third relay, and so on.

The ninth pulse triggers the switching of the relay and the supply of positive bias to the thyratrons 8 and 9. Therefore, with the iodine of the tenth of the impulse, the pointing point thyratrons are ignited and the first relay turns on

off. In addition, a thyratron 9 is turned on, through which the discharge current of the capacitor 10 flows, causing a voltage drop across the resistor 11, and the start of the next decade of the distributor.

Present Invention

Ferroresonade decade distributor

pulses, containing ferroresonance relays, connected to the AC power source through a common capacitor, and switching elements, a cold cathode panrimer, characterized in that

In order to increase the sensitivity and reliability of the distributor, the primary windings of the chokes of the ferroresopans relays are connected to the power source of the Jeremeine current through the diodes and thyratrons, and the secondary

Drosel winding of each relay is connected through a diode in parallel to a resistor, through which the control electrode of each subsequent thyratron is connected to the positive pole of the control source

impulses, with the secondary winding of the throttles of the near-low relay through a diode connected to the grids of the first thyratron and the squelch thyratron of the next decade of the distributor.