SU557465A1 - Multifrequency crystal oscillator - Google Patents

Description

The generator contains a transistor 1 with a resistive load 2 in the collector circuit, fiC- circuit 3 automatically displaced in the emitter circuit and a resistive voltage divider in the base circuit on resistors 4, 5, n of quartz resistor, 6, one electrode of which is connected to the collector, the second electrode of the first resonator is connected via a coupling capacitor 7 to the base of the transistor, through the choke 8 to the common bus and through the corresponding nonlinear elements 9 to the second electrodes of the rest of the resonators, to which are also connected via the decoupling element s 10 are the appropriate sources of bias voltage.

The generator works as follows.

If there are the necessary amplitude and phase conditions of self-excitation at the required frequencies at the moment of switching on, multi-frequency oscillations occur. As the amplitudes of oscillations increase, the competition between them increases, significantly affecting the stability of oscillations. Due to the introduction of additional nonlinear elements in this case, the varicaps, the oscillator parameters of the generator with asynchronous stimulation expand into an oscillating mode with n degrees of freedom, and the parameter region, which is characterized by asynchronous damping of multi-frequency oscillations, i.e. multi-frequency stability is enhanced.

This fact is explained by the fact that the oscillatory system used in this device is a parametric oscillatory system with two degrees of freedom. In connection with this, the combination component with the total frequency arising in the course of increasing oscillations, acting as a pumping signal on a nonlinear parametric element, leads to the parametric establishment of multi-frequency oscillations.

Comparative tests of this multifrequency crystal oscillator with the known method have shown that in the proposed generator both synchronous and asynchronous highly stable oscillations are possible, stable in a relatively wide range of its parameters. So, for example, a stable multi-frequency asynchronous mode in the generator under study occurred when the voltage of the power source was changed within ± 12%, then; j) aTypbi of the environment - within ± 35% of the nominal values.

Claims (1)

Izvvetny formula A multifrequency crystal oscillator, made in a three-point capacitive circuit on a transistor with a resistive load on the collector circuit, an RC circuit of automatic bias in the emitter circuit and a ramp voltage divider in the base circuit, and also containing n crystal oscillators, one electrode of the first of which is connected with a collector, characterized in that, 25 in order to increase the oscillation stability with simultaneous excitation of n quartz resonators, the collector of the transistor is connected to one electrode of each of the remaining quartz resonators, the second electrode of the first quartz resonator is connected via a coupling capacitor to the base of the transistor, through the corresponding nonlinear elements with the second electrodes of the remaining quartz resonators, to which the corresponding sources of voltage scheni