SU118427A1 - Sawtooth generator on semiconductor devices - Google Patents

Description

In modern sawtooth current generators, high efficiency is achieved by using such operating modes in which the direction of the current output turns of the output transformer occurs by replacing one current conductor with another in the working part of the sweep period.

This replacement complicates the operation of the generator and often introduces non-linear distortion of the sweep.

In the operation modes, when both current conductors operate continuously, there are no distortions, but this results in a low efficiency factor due to the presence of a constant component current.

The purpose of the present invention is to obtain high efficiency while maintaining the linearity of the sweep, which is achieved by switching the current conductors without increasing the power consumption. In this case, the constant component of the ampere turns is maintained mainly due to the reactive (safe) energy of the charge and the discharge of the capacitor to the inductive load. This mode of operation provides the possibility of obtaining a linear sweep with a large KPD.

Since the formation of a sawtooth current in the working part of the period occurs mainly in the diode circuit, the triode operates in the key mode, which ensures the independence of the resulting current from the control pulses.

FIG. 1 is a diagram of a sawtooth generator; FIG. 2 - current, voltage and magnetic flux change over time.

During the action in the circuit of the triode T of the U-shaped control pulses of the voltage Uu р p that unlocks the triode, the capacitor C is discharged through the winding L with a low inductance. Since the resistance of the triode T is small, and the capacitance C is relatively large, the discharge current increases with st according to an approximately linear law.

When the trigger pulse stops, the triode closes. The presence of magnetic energy accumulated in the core of the transformer and the beginning of a decrease in the magnetic flux F lead to a change in the sign of e. d. self-induction in the diode D circuit, as a result of which a capacitor charge current through the open diode D of the transformer winding and power source E arises. Since the quality factor of the charge circuit is high enough, the charge occurs according to an approximately linear law. By selecting a capacitor C, it is possible to give the current the shape necessary to compensate for the distortions introduced by the deflection coils L ,. The diode D2 in the circuit is not obstructed; it serves to reduce the reverse current of the diode DI.

Replacing semiconductor devices with vacuum devices in this scheme is not desirable, due to the large direct resistance of the latter.

Subject invention

A sawtooth current generator for semiconductor devices, using alternating charge and discharge capacitor reactive energy, is distinguished by the fact that, in order to achieve a uniform change in the current and decrease the power supply, it uses two circuits connected through capacitance and inductance, each of the series-connected capacitors, inductors and diodes, as well as the power source in one circuit and the semiconductor triode in the other and providing pulsating in the windings of the transformer braznomu the magnetizing law, the demagnetizing magnetic flux by periodically discharging the capacitor communication through the transistor and its charge through the diode.

  P