SU575144A1 - Ultrasonic pulse generator - Google Patents

Description

one

The invention relates to ultrasound technology and can be used to create ultrasonic technological equipment.

Generators are known in which semiconductor diodes and sockets are used. However, they are complex and unreliable l.

Also known is an ultrasonic pulse generator containing a bridge semiconductor rectifier, a switch made on a thyristor, the anode of which connects the plus to the plus and the cathode to the minus 51, which is connected to the vibrator winding accumulative capacitance and controlled by the controller. pulses in parallel with the thyristor. However, this generator is complex and has low reliability. 2.

The purpose of the invention is to simplify the design and increase the reliability of the generator. This is due to the fact that the generator has a limiting resistor connected to the input of the rectifier, a driver of control pulses; made on the transformer, dinistor, capacitor; and

a resistor, one of the terminals of the primary winding of the transformer is connected to the anodes of the shisistor and a thyristor, the other output is connected through a capacitor to the common connection point of the cathode of the dynistor and resistor connected to the minus of the rectifier, and the secondary winding of the transformer is connected in parallel with the control electrode junction - thyristor cathode.

The drawing shows the principal

scheme of ultrasonic pulse generator.

Ultrasonic pulse generator consists of a bridge semiconductor

rectifier 1, the input of which through the limiting resistor 2 is connected to the power source, and accumulative capacitance 3, connected in series with the winding of the vibrator, 4, is connected in parallel with its output, and

a switch, made on thyristor 5, the anode of which is connected to the positive, the cathode to the minus of the bridge rectifier 1. Parallel to the control electrode, the cathode of the thyristor 5 is connected to the secondary winding of the transformer of the control unit &

One of the terminals of the primary winding of the transformer 6 is connected to the anodes of the thyristor S and the dynistor 8, and the other output is connected to the common point of the center of the cathode of the dynstor 8 at the terminals of the primary winding of the transformer 6. and a resistor 9 connected to the minus of the rectifying bridge. Storage capacitor 3 via thyristor 5 and rectifier mosch. 1, together with the vibrator winding 4, forms an oscillating circuit tuned to the natural frequency of the magnetic core of the vibrator.

From the power source through the resistor 2, the rectifying bridge 1 n the winding of the vibrator 4 charges the storage capacitor 3. At the same time, through the resistor 9 and the primary winding of the transformer 6, the capacitor 7 is charged until the turn-on voltage of the torus 8 is discharged through the switched on The dynistor 8 and the primary winding of the transformer 6, and the current in the jump circuit increases to the value determined by the resistance of the transformer winding. In the secondary winding of the transformer 6, an emf is induced, the positive potential of which is supplied to the control electrode of the thyristor 5, opening it. The storage capacitor 3 is discharged through the thyristor 5 to the winding of the vibrator 4. Thereafter, due to the accumulated energy of the winding of the vibrator, the storage capacitor is in reverse polarity. Then, the capacitance 3 is discharged to the obmusk of the vibrator 4. through the rectifier bridge 1, and due to the spare energy of the winding of the vibrator is recharged t For m, during which the thyristor 5 is open, 10-15 oscillations occur. Further, the thyristor is turned off and opens - the oscillating circuit, driving the generator circuit to the initial position. Subsequently, the process is repeated in the series described above. The duration of the supported thyristor 5 in the on state depends on the nominal

It is used to pick up the dynistor 8, the capacitor 7 and the inductance of the transformer 6 and is chosen so that when the control impulse on the control electrode of the thyristor disappears, the current through) {it flows less than the holding current. The frequency of switching on the generator is regulated by the selection of the value of the resistor 9.

Claims (2)

1. Kardashev G. A., Mikhailov P. Ye. Heat-mass transfer acoustic processes n devices. M., Mashchinostroenie, 1973, p. 88-89. 2. Ultrasonic technology, ed. B.A. Agranata; M., Metallurg and 1974 pp. 152-138.