SU496663A1 - Relaxation generator - Google Patents

Description

(54) RELLKSATsI01 {NYYGNKRAGOR

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The invention relates to pulsed | technology and can be used in pulse circuits that require high porosity of periodic pulses without changing their shape and duration.

Relaxation generators are known that contain a current source connected to the time by the driving capacitor, the anode of the first separation diode and the anodes of the diode and triode thyristors, with 10 the cathode of the triode thyristor connected to the anode of the second separation diode and the current limiting resistor, and the control electrode to the cathode of the diode thyristor .15

Such generators do not provide oscillation with a high duty cycle, since the pulse period

depends on the time of charge and discharge of the same and the same time of the driving capacitor.

The aim of the invention is to increase the duty cycle of the generated pulses without changing their shape and duration.

This goal is achieved by parallel to the time setting driver through the first separation diode an additional capacitor and thyristor are connected, the cathode of which is connected to the load resistor, and the control electrode is connected to the cathode of the second separation diode.

The drawing is a diagram of the described generator.

The current source 1 is connected with the time of the driving capacitor 2, the anode of the first separation diode 3 and the anodes of the diode thyristor 4 and the triode thyristor 5. Parallel to the time specifying the capacitor, the additional capacitor 6 and the thyristor 7 are connected to the load resistor 8 through the first separation diode. The control electrode of the thyristor 7 is connected via the second separation diode 9 to the current limiting resistor 1O and the anode of the triode thyristor. five.

The generator works as follows.

At the initial time, the thyristors 4, 5 and 7 are closed and the capacitors 2, 6

charged with constant current from current source 1. When the voltage on the time of the setting capacitor 2 reaches the turn-on delay, diode thyristor 4 will open and open tripod thyristor 5. Capacitor 2 will begin to discharge through the open thyristors 4, 5 and the current-limiting resistor 10,

Diode 3 closes and. disconnects additional capacitor 6 and. therefore, it does not affect the discharge time of the supply capacitor 2.

A short positive pulse is formed on the current-limiting resistor 1O, which opens the thyristor 7 through the separation diode 9 and opens the backup capacitor 6 through the open thyristor 7 and the load resistor 8. When the discharge currents become equal to the thyristor turn-off currents, the latter are closed. First, thyristors 4 and 5 are closed, and then Tiris1X) p 7. After that, the charging of capacitors 2 and 6 from the current source begins. When a voltage across the capacitor 2 is equal to the turn-on voltage, the diode thyristor 4 opens and all processes are repeated in the order described.

Subject invention

Relaxation generator containing a source, a current connected to the time I specify a capacitor, the anode of the first separating diode and the anodes of the diode .. and 1 triode thyristor, the three- and one thyristor cathode connected to the anode of the second separating diode and to the current-limiting resistor, and the control electrode - to the cathode of the diode thyristor, characterized in that, in order to increase the duty cycle of the generated pulses without changing their shape and duration, parallel to the time setting the capacitor through the first separation iodo further connected to additional capacitor and a thyristor, the cathode of which is connected with the load resistor, and a control electrode - the cathode of the second diode separation.