SU1401574A1 - Pulse shaper - Google Patents

Abstract

The invention can be used in control devices for multiple connectors of automatic telephone exchanges. The aim of the invention is to increase the reliability that is achieved with the help of an automatic lockable key in the charging circuit and an inserted key stage when the key is unlocked in the discharge circuit. The former contains a charging circuit, which consists of a lockable key 1 connected to a constant voltage source, in series with which a storage capacitor 2 is turned ON, the discharge circuit of which consists of the primary winding 3 of the output transformer 4, diode 5 and key 6 on the thyristor, diode 7, the first 8 and the second 10 output windings of the additional transformer 9, the key stage i 1, the input winding 12 of the transformer 9 connected to the alternating voltage source 13. Lockable key 1 is made on transistor 14, resistor, 15 and diode 16, Keypad. Stage 11 is complete on field-effect transistor 17 and transistor 18, downstream diode 20, capacitor 21 and resistors 19 and 22. Load 23 is connected to the secondary winding of transformer 4. 2 3.p. f-ly, 1 ill. ABOUT)

Description

01

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The invention relates to a pulse technique, namely, devices for controlling multiple connectors of automatic telephone exchanges.

The aim of the invention is to increase reliability with the help of an automatically lockable key in the charging circuit and an inserted key stage when unlocking the key in the discharge circuit.

The drawing shows a pulse driver circuit with an embodiment of its nodes.

The pulse shaper contains a charging circuit that is connected to a constant voltage source and consists of a lockable key 1 connected to it, in series with which a storage capacitor 2 is connected, the discharge circuit of the latter consists of serially connected primary windings 3 of the output transformer 4, diode 5 and a key (thyristor) 6, the cathode of which is connected to a common viewport. A current-limiting element, such as a resistor or choke (not shown), a series connection of the diode 7 and the first output winding 8 of the additional transformer 9 is connected in parallel with the switch 6, can be connected in series with the lockable key 1. The second output winding 10 of the additional transformer 9 is connected to the input of the key stage 11 connected to a common outlet, the other output of which is connected to the control electrode of the lockable key 1, and the input winding 12 of the additional transformer 9 is connected to the source m 13 alternating voltage.

The lockable key 1 in the charge circuit of the storage capacitor 2 can be made on a transistor 14 whose base is connected via a resistor 15 to a collector and a power source, and the control junction is shunted by an on-line diode 16, which serves to protect the base-emitter junction of this transistor. Key stage 11 can be built on a field-effect transistor 17 and a transistor 18, the emitter junction — the base of which is shunted by an output resistor 19, which is ON between the drain of the field-effect transistor 17 and the common transistor. Diode 20 serves to rectify an alternating signal.

transformer 9 arising in the winding 10, and the capacitor 2 is a filter that is connected between the gate and the drain of the field-effect transistor 17, the source of which through the limiting resistor 22 is connected to a constant voltage source. As a source of 13 variable

0 voltage can be used multivibrator or other alternating signal generator. The transistor 18, the collector of which is connected to the output of the key stage, is

5 element lock up. To the secondary winding of the output transformer 4 is connected load 23.

The pulse shaper operates as follows.

0 When the shaper is connected to the power source, the storage capacitor 2 through the open lockable key 1 is charged before the voltage of the power source. In this way,

5 in the initial state the storage capacitor 2 is charged, in the switch 6 it is turned off. An alternating voltage source 13 generates signals on the input winding 12 of an additional transformer 9. In the output windings 8 and 10 of this transformer, an emf is induced. There is no current in the winding 8, since the key 6 is turned off. Winding voltage 10 Holds the key stage

5 Iv original off state. When a start signal is applied to the control switch of switch 6, the storage capacitor 2 is discharged through the circuit: primary winding 3 of output transformer 4, diode 5, switch 6. At this time, a voltage pulse occurs in the secondary winding of transformer 4 and in load 23 ,. and output winding 8 additional

5, the transformer 9 is short-circuited through the switched on key 6. As a result, the voltage on the winding 10 of the transformer 9 decreases, turn on. The key stage 11 and turns off the lockable key 1 in the charging circuit. When the storage capacitor 2 is discharged, the switch 6 is turned off, the current in the winding 8 of the additional transformer 9 stops, and the voltage in the winding IO of this transformer turns off the key stage 11, returning it to its original state. Lockable key 1 in the charge circuit will open, accumulator 0 will be charged

When a trace of a thin start signal is applied to the control electrode of the switch 6, the process of the driver operation is repeated. When there is voltage on the winding 10 of the additional transformer 9, the field-effect transistor 17 is closed; when this voltage is applied, the transistor 17 opens. As a result, the lockable key 1 in the charge circuit of the storage capacitor 2 is closed.

In the proposed device, even at a very small magnitude and rate of increase of the charging current as compared with the discharge current, the possibility of short-circuiting a constant voltage source to serially connected keys of the charging and discharging circuit of the storage capacitor is excluded and the thyristor is reliably switched on in the discharge circuit this capacitor after the formation of the output pulse.

Claims (3)

Invention Formula I. A pulse shaper containing a charging circuit that is connected to a constant voltage source and consists of a lockable key connected in accordance with it, a storage capacitor is connected in series with KOTopbw, the discharge circuit of the latter, which consists of a key whose cathode is connected to a common an output, a load, and also a locking element, the output of which is connected to a control electrode of a lockable key, characterized in that, in order to increase reliability, two diodes are inserted into it, the output and additional transformers source of alternating voltage and the key stage, the cathodes of the first and second diodes are connected to the anode of the key, the anode of the first diode is connected to the primary winding of the output transformer, another one of which is connected via a storage capacitor to the common output, and the secondary winding is connected to the load, the first output 0 to the winding of the additional transformer through the second diode is connected in parallel with the key; the output winding of the additional voltage is connected to the output of the alternating voltage source. 5 transformer, and its second output winding - to the input of a key stage connected to a DC source and to a common terminal, between which and another terminal 0 the lock element is included in the key cascade. 2. Pulse Forming Clause 1, different. the fact that a transistor was used as a lockable key, between the collector and the control electrode of which a resistor is turned on, and the control junction is shunted by a counter diode. 3. Pulse Forming Section 1, characterized by the fact that at the input of the key stage a diode connected in series and a capacitor are connected between the gate and the drain of the field-effect transistor, the source of which is connected to a constant voltage source through a limiting resistor and the drain is connected to the common source through you - 0 running resistor that is shunted by the base-emitter junction of the transistor. It is an element of the lock, the collector of which is connected to the outlet of the key cascade. 0 five