SU1177887A1 - Generator of current pulses - Google Patents

Description

The invention relates to a pulse technique and can be used in the formation of current pulses with a uniform apex, necessary, for example, in high-power high-frequency electronics, to create powerful time-stable magnetic fields.

The aim of the invention is to reduce the irregularity of the tip of them - 10 current pulses by providing the possibility of maintaining with the increased accuracy the required ratios between the parameters of the forming elements. ^x , 5

The drawing shows a circuit diagram of the device.

The current pulse generator contains the first capacitor 1, a controlled 20 switch (thyristor) 2 connected to the discharge circuit of capacitor 1 to inductive load 3 via a parallel oscillating circuit 4 formed by a resistor 5 connected to the second ^ 5 capacitor 6 in a series circuit closed by a coil 7 inductance. Capacitor 1 is connected to power supply 8.

The result indicated in the goal is achieved by choosing the eigen resonant frequencies si ₁ and (^ 2 of the successive oscillatory circuit formed by capacitor 1 and inductive load 3, and parallel circuit 4, respectively, their wave resistance 5 and 5, as well as by choosing a damping factor 8 parallel circuit four.

On the basis of experimental studies, it was established that when choosing the specified parameters, the following ratios should be observed

“= (2-2,5)) 7ЧУ-1Д);

¹ -and

The device works as follows.

When applying a control pulse to the input of the thyristor 2, the discharge of the capacitor 1 previously charged from the source 8 to the load 3 through the oscillating circuit 4 begins.

B load is the addition of the oscillations of the two frequencies of the center and.

When you change the direction of the total current flowing through the thyristor 2, the latter is turned off and the process of forming a current pulse in the load 3. is terminated.

The high uniformity of the pulse top is achieved by redistributing the energy in the pulse due to the parallel oscillating circuit 4 with the parameters of the elements determined by the given ratios and the attenuation introduced into the circuit 4 by means of a resistor 5.

Since the energy consumption and, consequently, the overall dimensions of the capacitor 6, are more than an order of magnitude less than the corresponding parameters of the capacitor 1, the correction of the capacitor 6 capacitance and the resistance of the resistor 5 connected in series with it is easy, which allows

_{1 to} maintain the ratio between the circuit elements with the required accuracy and to receive current pulses with non-uniformity of the top of the order of 0.1%.

Claims (1)

A PULSE CURRENT GENERATOR containing a first capacitor connected to a power source, a controllable key in the discharge circuit of the first capacitor for an inductive load, a second capacitor and an inductor, characterized by with a second capacitor in a series circuit closed by an inductance coil in a parallel oscillating circuit connected in series with a controlled key and inductive load; while the natural resonant frequency of the parallel oscillatory circuit is 2-2.5 times the natural resonant frequency of the series oscillatory circuit formed by the first capacitor and the inductive load, the ratio between the wave impedances of the serial and parallel oscillatory circuits is in the range 1.2-1.5, and the damping factor of the parallel oscillatory circuit is 0, .2. 5 and 1177887 1177887