SU1573524A1 - Two-frequency quartz oscillator - Google Patents

Abstract

The invention relates to radio engineering and can be used as a source of electrical oscillations. The purpose of the invention is to increase the stability of the two-frequency generation mode. Dual-frequency crystal oscillator contains the first and second transistor amplifiers 1, 2, the first capacitor 3, RC - circuit 4, double T - bridge 5, quartz resonator 6, second capacitor 7, detector 8, band-pass filter 9, amplifier 10, amplitude detector 11, filter 12, varicap 13. As a result of the interaction of the oscillations with the frequency of the main and auxiliary modes of the quartz resonator 6, oscillations with Raman frequencies occur from the nonlinearity of the first and second transistor amplifiers 1, 2, from which the detector 8 and the band pass filter 9 separate the oscillations no difference frequency. As a result of the oscillation of the difference frequency through the feedback target consisting of a series-connected amplifier 10, an amplitude detector 11 and a filter 12, a control voltage is generated, which with a corresponding dosage is supplied to the junction point of the varicap 13 and the second capacitor 7. Stability of the two-frequency mode In addition, it is provided by the presence of RC - circuit 4 and a double T-bridge 5. 1 sludge.

Description

The invention relates to radio engineering and can be used as a source of electric track—

Lany.

The purpose of the invention is to increase the stability of the dual-frequency mode of generation.

The drawing shows a structural circuit diagram of a two-frequency crystal oscillator, j Two-frequency crystal oscillator contains the first 1 and second 2 transistor amplifiers, the first capacitor 3, RC circuit 4, dual T-bridge

5, quartz resonator 6, second capacitor 7, envelope detector 8, band-pass filter 9, amplifier 10, amplitude detector 11, filter

12.Low frequencies, varicap 13.

The first transistor amplifier 1 is made on the transistor 14, the second transistor amplifier 2 is on the transistor 15 '.

The generator operates as follows.

Under the conditions of phase balance and amplitude balance, undamped harmonic oscillations arise in a two-frequency quartz oscillator, the frequency of which is determined by the frequency of the series resonance of the fundamental mode of the quartz resonator

6. Due to the fact that there is a nonlinearity of the parabolic type, determined by the RC circuit 4, contributing to two-frequency excitation, oscillations appear on the auxiliary mode of the quartz resonator 6.

As a result of the interaction of these two oscillations on the nonlinearities of the first and second transistor amplifiers 1 and 2, oscillations of combination frequencies appear, from which the detector 8 and the band-pass filter 9 emit the difference frequency oscillations between the main and auxiliary modes. As a result of the passage of the difference frequency oscillations along a feedback circuit consisting of a series-connected amplifier 10, an amplitude detector 11 and a filter 12, a control voltage is generated, which is supplied with the corresponding phasing to t chke compound varicap 13 and the second capacitor 7.

The control voltage changes the capacitance of the varicap 13, thereby changing the [Regeneration coefficient of the two-frequency crystal oscillator and maintaining a given level of spectral components for the signal with a differential frequency. With an increase in the capacitance of varicap 13, the overall regeneration coefficient of the two-frequency quartz oscillator decreases, however, this does not disrupt the two-frequency regime, but stimulates it by connecting the varicap 13 as a capacitance to the emitter of transistor 14 of the first transistor amplifier 1.

The stability of the dual-frequency generation mode is also provided by the double T-bridge 5 ,. The output signal of the main mode is taken from the emitter of the transistor 15 of the second transistor amplifier 2, and the output signal of the auxiliary mode in the form of a difference frequency signal * between the main and auxiliary modes is output from the amplifier 10. In this case, the two-frequency crystal oscillator also works stably when using crystal oscillators 6 with high loss resistance.

Claims (1)

Claim A two-frequency quartz oscillator comprising a first transistor amplifier, a second transistor amplifier, an envelope detector, a bandpass filter, an amplifier, an amplitude detector and a low-pass filter, a first capacitor, the first output of which is connected to a transistor emitter of a second transistor amplifier and an envelope detector input, RC- a circuit that is connected between the output of the second transistor amplifier. and a common bus, a quartz resonator, while the first transistor amplifier is made according to circuit O The main base, and the second transistor amplifier is made according to the common collector scheme, distinguished by the fact that, in order to increase the stability of the two-frequency generation mode, a double T-bridge is introduced, which is connected between the emitter of the transistor of the second transistor amplifier and the base of the transistor of the first transistor , an amplifier, a second capacitor and a varicap, the first conclusions of which are connected to the output of the low-pass filter, and the second conclusions of which are connected respectively to the collector and emitter of the transistor of the first transistor amplifier , The quartz resonator is connected between the base of the transistor, the first transistor amplifier and the common bus, the second terminal of the first capacitor is connected to the emitter of the transistor of the first transistor amplifier.