SU705646A1 - Multivibrator with quartz-stabilized frequency - Google Patents

Description

. 1The invention relates to pulsed technology, in particular, pulse generators and can be used in Ka ecTje C: Rectangular point, pulses in a device for forming clocks of various automation systems, systems for receiving, processing and transmitting data, control systems, control systems.

A known multivibrator containing no Meriee than two transistors, resistors, capacitors, and a quartz resonator connected between the base of the first and collector of the second transistors, which has parameters of pulse signals generated at the outputs that are incompatible with standard digital logic elements (1). ..

The closest in technical terms to the proposed is a transistor multivibrator with quartz frequency stabilization, the collector of the second transistor is connected to one output of the quartz resonator and through the first resistor to the power supply bus and the base is connected to the second resistor and collector of the first transistor whose base is connected to the third resistor 2.

However, this multivibrator also has the above mentioned disadvantage, which narrows its functional possibilities.

The purpose of the invention is to enhance the functionality by providing output pulse signals compatible with the input circuits of digital logic elements.

Claims (2)

To do this, in a multivibrator with quartz frequency stabilization containing transistors, the collector of the second transistor is connected to one output of the crystal and through the first resistor to the power supply width, and the base is connected to the second resistor and collector of the first transistor, the base of which is connected to the third resistor , a capacitor, two resistors and a transistor are introduced, the collector of which is connected to the emitter of the second transistor and through a resistor to the third resistor, which is connected via a capacitor to the common cable regular enrollment power and inputted to the emitter of the transistor, which is connected through a resistor to its base and to the emitter of the first traiznstora. the base of which is connected to another KBapiieBoro pe; junction, the second resistor is connected to the power supply bus. . The drawing shows a diagram of the multivibrator. The quartz-frequency-controlled transistor multivibrator contains transistors 1-3, resistors 4-8, capacitor 9, crystal oscillator K), power supplies II and J2, a digital logic element 13 connected to the output of the multivibrator connected to the emitter of transistor 2, the collector of the transistor 3 and through a resistor 8 to a common point of a resistor 7 and a capacitor 9, the other terminal of which is connected to the bus 12 and the emitter of the transistor 3 connected via the resistor 5 to its base and the emitter of the transistor I, the base of which is connected to another terminal resistor 7 and through the resonator 10 is coupled to the collector of transistor 2, whose base is connected to the collector of transistor 1 is connected via a resistor 4 to the bus and connected via a resistor 6 to the collector of transistor 2 .. multivibrator operates as follows. In the initial state, when there is no a. Oscillatory process in the device, under the action of the voltage that is formed at the emitter of transistor 2, the transistor 1 is opened by resistors 7 and 8 and the collector current of transistor 1 flows. The resistor 4, creating & t on it, has a voltage drop, which is applied to the base of the transistor 2, thereby closing the first negative feedback ring. At the same time, the collector current of transistor 1 through the resistor 5 creates a voltage drop across it that opens the transistor 3. Since the load of transistor 3 is the emitter circuit of transistor 2, the resulting collector current of transistor 3 increases the emitter current of transistor 2, and the emitter potential of the transistor 2 2 decreases, causing a decrease in the collector current of the transistor 1. A change in the magnitude of the voltage drop taken from the resistor 5 affects the mode of the transistor 3, thereby closing the second ring negative feedback. As a result, the DC mode of the transistors 14-3 stabilizes, while their operating points are on the linear portions of the characteristics, providing a soft self-excitation mode of the transistor multivibrator with quartz frequency stabilization. Due to the presence of a quartz resonator 10, by means of which a positive feedback ring is closed, a self-oscillating process occurs in the multivibrator, the frequency of self-oscillations is determined by the resonator 10 and is close to its serial resonance frequency. The alternating current component of the collector of transistor 2, filtered by resonator 10, is adopted by L11 and by transistor 1. The voltage generated in inverse form on the collector of transistor 1 is further amplified by transistor 2, the signal npH4ep, f on its collector is again inverted n in the initial phase is applied to resonator 10, thus ensuring that the basic conditions for self-oscillating oscillators are fulfilled - phase balance and amplitude balance. At the same time, the voltage from the emitter of transistor 1 is applied to transistor 3, which serves as a limiter amplifier. Since the emitter currents of transistor 2 and the collector current of transistor 3 coincide in phase, they form a push-pull amplifier cascade with enhanced efficiency, speed and load capacity. The use of transistors 2 and 3 in the key mode allows forming square-wave pulses at the output of the device with parameters that provide the input to most of the standard digital logic elements 13. The resistor 8 and the capacitor 9 form an integrating circuit, at the output of which a constant component from the formation of a rough edge by a rectangular pulsed signal device which, through a resistor 7, acts on the modes of we transistors 1-b3, ensuring the stabilization of the output signal parameters when Ariations of the magnitude of the supply voltage, temperature, aging of the elements and other destabilizing factors. The invention of a multivibrator with quartz frequency stabilization, containing a transistor, the collector of the second transistor is connected to one output of the quartz resonator and through the first resistor to the power supply bus, and the base is connected to the second resistor and collector of the first transistor, the base of which is connected to the third resistor, differing in that, in order to extend the functionality by ensuring the formation of output pulse signals compatible with the input circuits of digital logic elements, it contains a capacitor, two resistors and a transistor, the collector of which is connected to the emitter of the second transistor and through a resistor to the third resistor, which is connected via a capacitor to a common power supply bus and to the emitter of an inserted transistor, which is connected to its base through a resistor and with the emitter of the first transistor, the base of which is connected with another quartz resonator, so that the resistor is connected to the power supply busbar. Sources of information, n |) t IhiTCHi (MIL №; "17 G, h, cl. 3: And K., 2. Lpto | kkos certificate SD.P NO 39-1920, cl. H 03 K. 3/28, 1973 (roto1in).