SU961122A1 - Pulse-delaying device - Google Patents

Description

() DEVICE FOR DELAYING PULSES

The invention relates to a pulse technique and can be used in control systems of thyristor converters designed to control the speed of a direct current drive motor as an element of a control delay pulse with an adjustable time delay. - A device consisting of a variable resistor, a separating diode and a forming capacitor connected in series between the positive and negative terminals is known, the forming capacitor is bounded by a branch consisting of a series connection of the transformer primary winding and an output thyristor, the control electrode of which through a zener diode and the diode is connected to the first plate of the forming capacitor, and the cathode is connected to the second plate of the forming capacitor and to the negative terminal 1. It is a device o has insufficient delay nye stability and stability of the output pulse parameters. The purpose of the invention is to increase the stability of the delay time and the parameters of the output pulse. To achieve this goal, a pulse delay device contains an RC master circuit, the output of which is connected to the output thyristor control circuit through the first separating diode and the threshold element, the trigger thyristor whose cathode is connected to the negative power supply bus, the control electrode to a trigger pulse source, a serial RC circuit connected between the power supply buses, a time setting capacitor, an output transformer whose primary winding is connected to the anode by a single output a thyristor, a choke, five isolating diodes, a resistor and a switch are inserted, the trigger thyristor anode is connected to the anode of the second isolating diode, the cathode of which is connected through the choke to the midpoint of the serial RC circuit and the third divider diode lining the time of the master capacitor, connected via an even connected fourth decoupling diode, a switch and a fifth divider diode connected in series during the master clock circuit to the output clock of the master RS; the circuit, another plate of the time of the master capacitor is connected to the anode of the start-up thyristor, the second output of the primary winding of the output transformer is connected to the output of the time of the master RC circuit through the sixth separator diode, the cathode of the second separator diode is connected to the anode of the output thyristor.

In order to broaden the limits for adjusting the delay time, the cathode of the second separation diode is connected to the anode of the output thyristor through an anode – control electrode junction of an additional charged charge thyristor, the cathode of which is connected to the trigger thyristor anode, and the secondary winding of the output transformer. In this case, the sixth isolation diode becomes redundant and, without prejudice to be excluded from the device

The drawing shows a circuit diagram of the device ..

The delay device contains an RC driving RC circuit consisting of a resistor 1 and a capacitor 2, a serial RC circuit from a resistor 3 and a capacitor, a time specifying a capacitor 5, a start-up thyristor, an output thyristor 7, an output transformer 8, and an E-switch 15 , choke 16, resistor 17, thyristor 18 overcharged, zener diode 19, separation diode 20.

The device works as follows.

When the power source is connected, the capacitor k is charged through a resistor 3. After the pulses are supplied to the input of the device, the start-up thyristor 6 is unlocked and the capacitor 2 starts charging and through resistor 1,

separation diode 12 and thyristor 6 start. Kgda voltage across the capacitor 2 reaches the threshold voltage of the zener diode 19, the latter is opened and to a control electrode of the output thyristor 7 ppiklady8aetc voltage through the diode 14 and stabilitro 19, the output thyristor 7 otpiraets and the capacitor 2 is discharged through a separating diode 13, the primary winding of the output transformer 8 and output thyristor 7; a pulse is generated in the secondary winding of output transformer 8. At the same time, the capacitor C begins to recharge through the choke 16, the output thyristor 7 and the start thyristor 6, to the reverse polarity voltage and when the capacitor C is recharged back through the start thyristor 6, the diode 9 and the choke 16, the start thyristor 6 is locked. Isolation diode 13 prevents the charging of capacitor 2 from capacitor 4. By changing the value of the variable resistor 1, the pulse delay time can be changed. Constant parameters of the capacitor 2 and the zener diode 19 provide stable parameters of the output pulses even with significant fluctuations in the source voltage. When key 15 is locked in parallel with capacitor 2, capacitor 3 is connected, which increases the pulse delay time, diode 10 provides discharge of capacitor 5 through resistor 17 and output thyristor 7, and diode 11 prevents capacitor 5 from discharging through output transformer 8. Isolation diode 12 In turn, it prevents the discharge of capacitor 2 through a resistor. 17- Thus, due to diodes 12 and 11, only the capacitor 2 is discharged through the primary winding of the output transformer, thereby ensuring stable parameters of the output pulses.

Claims (2)

When the thyristor 18 is recharged, when the threshold voltage of the zener diode 19 is reached on the capacitor 2, the latter opens and the voltage through the diode 1 to the control Electrode of the output thyristor 7 is applied through the diode 1 to the control Electrode 7 and the capacitor 2 discharges through the primary output winding transformer 8 and thyristor trick 7; in this case, impulses are formed in the VTOrimny windings of the output transformer. G of one and the secondary windings of the output transformer impulse is supplied through diode 13 to the thyristor 18 control circuit of the transducer, which is unlocked and the capacitor k is recharged through the resetter 16, the thyristor 18 recharges and the thyristor 6 of the start / to reverse the polarity and when the capacitor k recharges back through the thyristor, start 6, diode 9 and choke 16, start thyristor 6 is locked. This device is distinguished by simplicity, reliability, stability, in addition to the delay, it provides pulse amplification, the achievement of almost unlimited output pulse power, the ability to work practically from any value on the supply voltage, allows you to adjust the delay time over a wide range. 1. Claims delay device, containing the time setting RC circuit whose output through the first separation diode and the threshold element is connected to the control circuit of the output thyristor, the starting thyristor, the cathode of which is connected to the negative power supply bus, the control electrode to a trigger pulse source, a serial BC circuit connected between the power supply buses, a time setting capacitor, an output transformer, the primary winding of which is connected to the anode of the output terminal A transistor, characterized in that, in order to increase the stability of the delay time and parameters of the output pulse, a choke, five isolation diodes, a resistor and a switch are inserted into it, and the triggering anode is connected to the anode of the second coupling diode, the cathode of which is connected via a choke the midpoint of a serial CS, a circuit and through a resistor and a third isolating diode — with one lining — is the time of the driving capacitor connected through a fourth divider diode connected in series, a key and a fifth separator diode connected in series during the RG master circuit, to the RC master circuit time, the other side of the master capacitor time is connected to the start thyristor anode, the second output primary terminal of the output transformer is connected to the output RC master circuit time via the sixth splitter diode, the cathode of the second separation diode is connected to the anode of the output thyristor. 2. The device according to claim 1, which is designed so that, in order to expand the limits of adjusting the delay time, the cathode of the second separation diode is connected to the anode of the output thyristor through an anode transition — a control electrode of an additional, re-charged thyristor, the cathode of which is connected to the anode of the thyristor start, and the secondary winding of the output transformer. Sources of information taken into account during the examination 1. USSR author's certificate No. 609209, cl. H 03 K 5/13, 10/18/76 (prototype). -ChLmLmG TS.LL-G s yW4. S; E  -5h-if rO en u  C: a . and I I I I