SU970630A1 - Crystal self-oscillator - Google Patents

Description

(54) QUARTZ AGENT GENERATOR

Claims (1)

1 The invention relates to radio engineering and can be used in radar, computing and radio measuring equipment. A quartic oscillator is known that contains an amplifying cascade on a transistor with a resonant load in a collector circuit, a series-connected quartz resonator and a first capacitor connected between a resonant load and a common bus, and an inductor 1. However, the well-known quartz oscillator has an insufficiently high frequency stability of the generated oscillations. The purpose of the invention is to increase the frequency stability of the generated oscillations. The goal is achieved by the fact that a quartz oscillator containing an amplifying cascade on a transistor with a resonant load in the collector circuit, a quartz resonator and a first condenser connected between the resonant load and the common bus, as well as an inductance coaxially, are additionally introduced a capacitor, with the second capacitor and the inductor connected in series between the junction of the first capacitor and the crystal resonator and the base of the transistor. FIG. 1 shows the basic electrical circuit of the proposed device; in fig. 2 - equivalent circuit of the input circuit of the device. . The proposed device is an amplifier cascade 1 on a transistor 2 with a resonant load 3, a quartz resonator 4, first and second capacitors 5 and 6, an inductor 7, a quartz oscillator operates in the following way. Due to the presence of a positive feedback circuit, a quartz resonator 4 with an operating frequency {p, and connected to a frequency f p of a resonant 3 & 70 load 3 (collector circuit) and an input circuit of elements 5-7, when the supply voltage is applied device appear harmonic oscillations. Choosing the collector connection point of the transistor 2 of the amplifier stage 1 to the shchutivny branch of the resonant load 3 ensures matching of the amplifier stage 1 with the resonant load 3 (Fig. 2). At the resonant frequency, the conjugation at the junction of elements 5 and 7 is purely active and equal. L ,,, „T () - C | (R, .31) - / 1 4- J- H- -1 Ce, x tfe / is the equivalent capacity of the input circuit; p-fl inclusion coefficient tse. a feedback loop in the inlet circuit; 6H input resistances and capacitance of the amplifier; . % A -capacitance of capacitors 5 "inductance and co-resistance to loss of coil 7 inductance. The realization of the maximum frequency stability of the output signal (the maximum quality factor of the quartz resonator 4, the real dynamic resistance R of which varies at frequencies above 100 MHz from 20 to 200 Ω), is associated with the need to adjust the Zp value. Analysis of expression (1) shows that 2p9x is a capacitor 5. At the same time, in order to maintain the necessary phase relations and match the force input of the cascade 1 with the circuit, the input circuit must be tuned to resonance at the waveform. fр p6x fp- (1) Condition (2) cannot be implemented together with condition (1) in the absence of capacitor 6. Under realistic conditions Thus, the introduction of a capacitor 6 into the input circuit allows one to realize a new quality — to make Zpex adjustment in wide limits by changing the capacitance of the capacitor 5 while maintaining equality (2) by changing the nominal value of the capacitor 6, the frequency is reached at the maximum possible frequency for different values of R of the quartz resonator 4. At the same time, the task of reducing to acceptable values They are scattered at the quartz resonator 4, which is the main condition for the stable operation of the oscillator with the microwave harmonic quartz resonator 4. According to the proposed scheme, quartz oscillators were manufactured and tested for measuring systems with operating frequencies in the order of 300 MHz. The proposed device ensures stable operation when changing quartz resonators with simultaneous realization of higher, short-term and long-term frequency stability. A Quartz oscillator, a transistor amplifier circuit with a resonant load in a collector circuit, a series-connected quartz resonator and a first capacitor connected between a resonant load and a common bus, as well as an inductance coil, characterized in that, in order to increase the frequency stability of the generated oscillations, a second capacitor is additionally introduced, and the second capacitor and the inductor are connected in series between the junction points first capacitor and square & resonant resonator and base transistor ... Sources of information taken into account in the examination 1. US patent number 3297961, CL, 331-116, 1967 (prototype). R1 1 pSx