SU1040597A1 - Multivibrator - Google Patents

Abstract

A MULTI-VIBRATOR containing an operational amplifier, one input of which is connected to one of the terminals of the feedback resistor and one of the capacitor plates, and the other input to the output of a resistive voltage divider, which, in order to increase the stability of the generated pulses, three-winding pulse transformer, first, second, third and fourth diodes, first and second additional resistors, additional capacitor and first and second transistors, the bases of which are connected to the inputs of the resistive g The voltage current and the counter-parallel to the base-amitter transitions include the first one (the first and second diodes collector of the first transistor is connected to the second output of the feedback resistor, the collector of the second transistor is connected to the second capacitor plate and through the first additional resistor bus, output-amplifier: through the second additional resistor and connected third and fourth oppositely connected oppositely to one of the primary viewpoints (of the three-winding pulse of an unformator, another view of which C is connected to the busbar and emitter of the transistor, and the second winding of the transistor 1ats a connected to the codeMdato, ROM, is connected in parallel with the third and quarter diodes. U1: about

Description

The invention relates to a pulse pulse, in frequency, to control devices and regulating semiconductor converters of electricity. Known fault of the multivibrator, which contains an operational amplifier, voltage divider, capacitors, diode and resistors i. This scheme makes it possible to expand the functions of the waiting multivibrator, however, it has a low stability of pulse generation due to the load and the process of disturbing the capacitors in the nonlinear part of the characteristic. Closest to the present invention is a multififter circuit, which contains an operational amplifier, one input of which is connected to one of the terminals of a feedback resistor and one of the capacitor plates, and the other input to the output of a resistor voltage divider J2. A disadvantage of the known multivibrator is the low stability of operation, since when the supply voltage changes due to the exponential nature of the charge-discharge of the capacitor, the generation frequency changes through the feedback resistor. The purpose of the invention is to increase the stability of the generated impulses. This goal is achieved by the fact that a multivibrator containing an operational amplifier, one of which is connected to one of the terminals of the feedback resistor and one of the condenser ossadals and the other input is connected to the output of the resistive voltage divider, has a first pulse-switching pulse transformer, the second, third, and fourth diodes, the first and second additional resistors, an additional coconator, and the first and second transistors, whose bases are connected to the inputs of a resistive voltage divider, and counter-parallel azo-emitter junction respectively include first and second diodes. the collector of the first transistor is connected to the BTopbiK output of the feedback resistor, the collector of the second transistor is connected to the second capacitor plate and through the first additional resistor with oycine, the output of the operational amplifier through the second additional resistor and the third and fourth diodes connected in parallel to one from the findings of the primary winding of a three-winding pulse transformer, the other output of which is connected to the region and aviHTTepoM of the second transistor, and parallel to the third and fourth diodes I will turn on the second winding of the transformer ator, connected in series with an additional capacitor. And on the devil circuit, the electrical circuit of the multivibrator is in principle. The multivibrator contains an operational amplifier 1. at the output of which an emitter is switched on. A basic transition is R P - p of transistor type 2, shunted with an additional diode 3, a resistive voltage divider across resistors 4 and 5, and an additional diode 6. An opposite parallel an additional diode 6 is turned on the emitter base transition of another additional transistor 7, and into the collector circuit one of the terminals of the Kovdensator 3 and the additional resistor 9. A feedback resistor H is connected to the collector of transistor 2, the other end of which is It is connected to a capacitor in the inverse of the operating force; body I. Inverse Bxpia of operational amplifier 1 is connected to the connection point of resistors 4 and 5 of the resistive voltage divider. A resistor 11, diodes 12 and 13, forming a counter-parallel connection, and a primary winding 14 of a three-winding pulse transformer are connected to the output of the operational amplifier, and a load 16 is connected to the winding 15. A chain consisting of winding 17 and an additional condenser is connected to the winding 15 18. A resistor 9, an additional diode 6 cathode, a transistor 7 emitter and a primary winding .14 a three-winding transformer are connected to the bus. Multivibrator works as follows. The voltage drop across the resistor 9 (has a large resistance value) due to the imbalance of the amplifier I, is enough to cause self-oscillations. Reactors 4 and 5 form a voltage divider from which a part is fed to the non-inverted input of operational amplifier 1. With a positive voltage at the output of operational amplifier 1 current flows through the emitter-base circuit of transistor 2, resistors 4 and 5, diode 6, through the emitter collector circuit of transistor 2, feedback resistor Yu, capacitor 8, switch coupling

Claims (1)

A MULTIVIBRATOR containing an operational amplifier, one input of which is connected to one of the terminals of the feedback resistor and to one of the capacitor plates, and the other input is to the output of the resistive voltage divider, so that in order to increasing the stability of the generated pulses, introduced a three-winding pulse transformer, ^ first, second, third and fourth_. diodes, first and second additional resistors, an additional capacitor and first and second transistors, the bases of which are connected to the inputs of the resistive voltage divider, and the first and second diodes collector of the first transistor are connected respectively to the second output of the feedback resistor counter-parallel to the base-emitter junctions, the collector of the second transistor is connected to the second capacitor plate and through the first additional resistor to the common bus, the output of the operational amplifier through the second additional the resistor and the third and fourth diodes connected in parallel are connected to one of the terminals of the primary winding of the three-winding pulse transformer, the other terminal of which is connected to the common bus and the emitter of the transistor, and the second winding of the transformer is connected in parallel with the third and fourth diodes, connected in series with the additional condensate rum. SU, .., 1040597