SU598250A1 - Single-cycle distributor - Google Patents

Description

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The invention relates to automation, in particular, to multi-channel control devices with static and pulsed output currents.

Known single-ended distributors l and 2J. The first one, which contains cascades with a series-connected load, a dynistor and a diode, and two DC sources, one of which is connected in series, a resistor and an input switch, has a complex control circuit and does not allow to receive Output pulse signals.

The closest solution to the invention is a single valve distributor consisting of single valves. cells each connected to a load in series, a dynistor to a diode, with the cathodes of the diodes of all the cells connected to the common bus and through a switch and a first resistor to the primary power source, and a second power source connected to the other load terminals. However, this distributor has a complex scheme, which reduces its

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reliability, and also does not allow to receive pulse output signals.

The aim of the invention is to increase the reliability and enhance the functionality of a single-acting distributor.

To do this, a zener diode and a second resistor are introduced into the proposed single-ended distributor, and a cell is each transistor of a RO-chain and an additional diode. Moreover, the cathode of the dynistor of each cell is connected via an additional diode to the output of the F C-chain and collector of the transistor, the emitter of which is connected to the anode of the dynistor of the previous cell. At the same time, another end of the RC chain of each cell is connected via a Zener diode to the common terminal of the first resistor and a key, and the transistor base of all cells is connected to the Second source {power supply) through the second resistor.

On drawing | The scheme of the distributor with three cascades is shown.

Single-ended distributor contains three cells of the same type, including, respectively, load, dinistort, diodes, transistors

SchizAn, resistors, capacitors and diodes, as well as a resistor 8, a key 9, a resistor 10, a stabilizer 11 and terminals 12 and 13 of the power supply. The clamp 13 through the resistor 10 is connected to the bases of the transistors, the emitters of which, respectively, through the load 3 are connected to the clamp 13, and through the cinstors to the anodes of the diodes. The cathodes of the last soyne dinene .. s. common bus connected through the key 9 with the anode of the Zener diode 11, podklk. contact through the resistor 8 to the clamp; 12. The cathode of the Zener diode through resistors and connected in parallel with them by capacitors are connected respectively to collectors of transistors connected via diodes to the anodes of the respective diodes. The distributor worked as follows. If the dynistor and, accordingly, the first cascade is open, and the dynistors and 2 3 3 are closed, there are two sources of direct current in the circuit: with one pin: ironed voltage EJ on the gate. 13 and with a high non-smoothed (pulsar-Kashim) voltage with amplitude U on clamp 12. The resistance RJ of resistors Bbt is taken according to the following inequality that takes into account the ballast resistance R from the resistor 8 of the input switch 9, where (is the resistance of the closed transistors on the collector side. Through the common the resistor 10, the dynistor and the diode flow the base current of the transistor, Therefore, the latter is open and the capacitor is charged before the voltage U "E L. The remaining transistors (and) are in the locked state, because the voltage drop across the resistor 10, close to E mixes their base-emitter transitions in the opposite direction. From inequality (1) it follows that the charge on the individual capacitors (and) is insignificant: and E J. The stabilization voltage of the Zener diode 11 is small and below U by an amount approximately The impact of the first input pulse causes Vft I to switch 9 for a time that is not less than their recovery time tgoc. The voltage of the capacitor charge (E x) is applied through Zener diode 11, switch 9 and the diode to the cathode. dynistor Thus, a total napr develops between the anode and the cathode of the dynistor; 1G |, Е + Е,, which causes its unlocking In addition, under the action of U j. the transistor in the inverted mode is transferred to the discontinuous state and the voltage E on the capacitor is applied negatively to the dynistor anode, causing it to be locked. During the time the capacitor discharges to a voltage close to zero, the transistor remains in the locked state, Since the voltage on the resistor 10 exceeds the voltage on the load. There is no transfer of parasitic Impulse from the anode to the cathode of the dinistors, which could cause the latter to be unlocked. But in the process of continuing to recharge the capacitor when the voltage across it is close to zero, the voltage difference across the resistor 10 and the load changes sign. In this case, a transistor transition in the open state, and a transistor into a locked state (by analogy with the processes in two-transistor output devices with emitter-related devices) occurs. Such a change in the states of the transistors could have been accomplished even more by opening the key 9, but then the total recovery time of the circuit would increase as the capacitor discharge continued through the considerable resistance of the resistor B. After changing the conductivities of the transistors and with the switch 9 closed, the circuit becomes stable condition. At this stage, Ipro is the second designation of stabilization. Litron 11 - prevention of shunting of a circuit from an open cascade and aero-emitter junction of a transistor connected to it from the side of a key 9 (closed) and base-collector circuits of the other transistors during a time determined by some charge of capacitors connected to them (operating here in parallel connection). As a result, the transistors could be unlocked in the inverted mode and a paraz-impulse with an amplitude of maximum E being generated on the load. Opening the switch 9 leads to charging the capacitor through a resistor 8 and an open transistor and a distor of an E 2 level. The circuit is ready for the second input pulse, as a result of which similar processes will lead to unlocking of the dynistor and locking of the primary.

Claims (2)

1. Smolensky V. A. On the issue of building transformerless ring counters on diode thyristors. Sat Polupr1 water-borne devices and their application: issue 27, rice, 2. 2. The copyright certificate. USSR No. 315293, cl. H 03 K 17/70, 08.21.68.