SU1686669A1 - Thyristor harmonic oscillator - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase reliability by reducing the operating voltage on the thyristor. The tirisyurny generator contains an oscillating LC circuit, consisting of additional droplets 1 and series-connected capacitors 2 and 3. The surge stopper 5 is connected through a switching choke 4 in parallel to the capacitor 3. The generator is powered through the choke 6, and the load 7 is connected to the LC circuit in series or in parallel. The voltage on the thyristor 5 is determined by the ratio of the capacitances of the capacitors 2 and 3. 1 sludge.

Description

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The invention relates to radio engineering, specifically to generators of harmonic oscillations on thyristors, and may find application in electrical engineering, hydroacoustics, and radio transmitting devices of extra-long waves.

The purpose of the invention is to increase reliability by reducing the operating voltage on the thyristor.

The drawing shows a generator circuit.

The thyristor harmonic oscillator contains an oscillating LC circuit consisting of an additional throttle 1, a series-connected main 2 and an additional 3 capacitors. In parallel with the auxiliary capacitor 3, a thyristor 5 is connected through the switching choke 4, the generator is powered through the choke 6. Load 7 is connected to the circuit in series (or in parallel).

The generator works as follows.

At the moment when the trigger pulse arrives, the thyristor 5 control electrode opens and the thyristor opens and capacitor 3 recharges through choke 4. The thyristor open time is determined by the recharge time of capacitor 3 through choke 4 and thyristor 5. The parameters of chokes 4 are chosen so that the time for complete recharging of the capacitor 3 through the choke 4 to the capacitor 2 through the choke 1 was not recharged. Thus, at a certain point in time, a negative voltage of capacitor 3 will be applied to the thyristor 5 and the thyristor will close.

After locking the thyristor 5, the capacitor 2 will continue to be recharged through the choke 1, the load and the orz condensate.

The time ti t2 in this case should not be less than the time for the recovery of the thyristor 5. The next trigger pulse must arrive at the thyristor at the moment when the voltage on the capacitor 3 becomes positive.

In order for the circuit to work, it is necessary that the inductance of drossel 6 be significantly greater than the inductance of drossel 1. The inductance of drossel 1 is chosen significantly higher than the inductance of commutating drossel 4, and the resonant frequency of the switching circuit consisting of drossel 4 and capacitor 3 must be significantly higher than the frequency of the circuit, consisting of elements 1-3. The resonant frequency of the circuit 1-3 is chosen somewhat lower than the clock frequency of the thyristor trigger pulses. Changing the frequency of clock pulses within certain limits can be controlled by the oscillation frequency of the generator without changing the parameters of the circuit elements 1-3.

Claims (1)

The claims of the thyristor harmonic oscillator, containing a chain connected to the input terminals through a choke from a series-connected additional choke, a capacitor and a load circuit, as well as a switching choke, an additional capacitor and a thyristor, characterized in that, in order to increase reliability thyristor, an additional capacitor is connected in parallel to the chain and parallel to the series-connected thyristor and the switching choke, moreover, the latter is selected with an inductance less than the inductance of an additional drossel.