SU552678A1 - Blocking generator - Google Patents

Description

The invention relates to radio engineering and can be used in automation devices.

A blocking generator is known, comprising a transistor, an impulse transformer, and a timing circuit comprising a resistor and a capacitor. This blocking generator has a low stability of the output pulses Ij.

The closest technical solution to the invention is a blocking generator containing a transformer, one winding of which is connected to the load, and the other winding is connected to the power supply through one limiting resistor through the limiting resistor, and to the common bus transistor through the other to the common bus transistor whose gate through time the master resistor is connected to the source of the bias voltage, and through time the master capacitor is connected to the feedback winding of a transformer shunt diode m 2.

However, this blocking generator has a relatively short period and duty cycle of the generated oscillations.

The purpose of the invention is to increase the period and duty cycle of the generated oscillations.

To do this, an additional field-effect transistor, the source of which is connected to the bias source, is introduced into the blocking generator, the drain is connected to the junction time of the driving resistor and capacitor with the gate of the main FET, and the gate is connected to the connection point with the driving time of the driving capacitor with one output a feedback winding, wherein the common bus is connected to another feedback winding lead and to the field-effect transistor transistors.

The drawing shows a circuit diagram of a blocking generator.

The blocking generator contains a transformer 1, one winding 2 of which is connected to the load 3, and the other winding 4 is connected to the power supply bus 6 via a limiting resistor 5 via a limiting resistor 5 and another terminal connected to the common bus 7 via a drain-source junction transistor 8, the gate of which, in time, sets the resistor 9 to the bus 10 of the bias voltage source, and through time sets the capacitor 11 with the feedback winding 12 of the transformer 1 shunted by the diode 13.

An additional field-effect transistor 14 is introduced into the blocking generator, the source of which is connected to the bias busbar bus 10, the drain is connected to the junction time of the driving resistor 9 and capacitor 11 with the gate of the main field-effect transistor 8, and the gate is connected to the connection point with the driving time of the driving capacitor 11 with one output of the feedback winding 12. In this case, the common bus 7 is connected with another output of the feedback winding 12 and with the substrates of field-effect transistors 8 and 14.

The blocking generator operates as follows.

The operation of the blocking generator proceeds in self-oscillatory mode. Positive feedback is provided by the winding 12 of the pulse transformer 1, which turns the phase of the signal on the drain of the transistor 8 by 180 °. The discharge time of the driving capacitor 11 occurs during the formation of a pulse on the drain of the transistor 8 along the following circuit: feedback winding 12 of transformer 1, capacitor I, low internal resistance of the open transistor 14, minus bus 10 of the bias source. The discharge of the capacitor 11 is stopped when the possibilities of increasing the difference current of the blocking generator are exhausted.

The diode 13 serves to cut off the positive surge, which is generated in the blocking generator due to the inductance of the transformer 1.

In the absence of diode 13, the self-oscillating mode of the blocking generator becomes unstable due to the inverse nature of the field-effect transistors 8 and 14. The charge of the capacitor I occurs along the circuit: the winding 12 of the transformer I, the bus 10 of the bias voltage source, the time setting the resistor 9. The process of charging the capacitor And it stops at the point in time when the voltage across the gate of the main transistor 8 becomes equal to its threshold.

Since the internal resistance of the open transistor 14 is much less than the resistance of resistor 9, the duty cycle of the generated pulses reaches 10,000 or more, which makes it possible to work in the second range.

These properties made it possible to use the proposed block-generator in the switch block of the mass spectrometer for selective recording of the mass spectrum.

Claims (2)

1.Avt. St. No. 304677, cl. H OZK 3/30, 1969. 2. Avt. St. No. 453786, N OZK 3/30, 1973 (prototype).