SU1059656A1 - Crystal self-excited oscillator - Google Patents

Abstract

QUARTZ AVTOGENERATOR, containing the first and second transistors connected in a composite circuit with a common emitter, a load LC circuit connected to the vector circuits of the first and second transistors, and a QV array connected between the load LC-KOHtypoM and the base of the first transistor, differing from that, in order to increase frequency stability and efficiency, between the load; CC-circuit and the base of the second transistor a circuit is introduced, an additional positive (Feedback. (L with SP CO O) ate

Description

The invention relates to radio, namely to transistor one-stage quartz oscillators of high-frequency electrical oscillations of high and high power, and can be used to obtain sufficiently powerful quartz-stabilized radio-frequency oscillations in the development of various modern modern on-board transistor and ground-based radio communication systems and navigator, in radio transmitters and radio broadcasting equipment, in measuring generators and active control devices, in synthesizers of particular other devices. A known quartz autogenerator containing an amplifying cascade on a transistor with a load LC circuit in a collector circuit, and a quartz resonator included in a positive-voltage circuit. The disadvantage of this quartz oscillator is the low frequency stability and low efficiency. The closest technical solution to the proposed is a quartz oscillator containing the first and second transistors connected in a composite circuit with a common emitter, a load Lc circuit connected to the collector circuits of the first and second transistors and a crystal resonator connected between the load LiC circuit and the base of the first transistor 2. However, this quartz oscillator does not have a sufficiently high frequency stability and KPL. The purpose of the invention is to increase frequency frequency and efficiency. To achieve the goal, a quartz oscillator containing the first and second transistors connected in a composite circuit with a common emitter, a load Lc circuit connected to the collector center of the first and second transistors and a quartz resonator switched on by an international Lc circuit and ba The first transistor, between the load LC circuit and the base of the second transistor, is introduced a circuit of additional positive feedback. The circuit diagram shows the electrical circuit of the quartz oscillator. A quartz oscillator (CAT) is made, for example, with a capacitive three-point filter type and contains the first and second transistors 1 and 2, the load power circuit 3, the quartz resonator 4 and the circuit 5 additional positive feedback (POT) while the load CS- circuit 3 contains capacitors 6-8. Quartz generator works as follows. When the CAG power is turned on, the voltage fluctuations arising on the base of the transistor 1 are effectively amplified by the composite transistor (CT), i.e. a complex active device formed by transistors 1 and 2, while a signal taken from capacitors b and 7, as elements included in the main PIC circuit, excites a quartz resonator 4 (operating in said PIC CAG circuit) at a frequency close to the frequency of the series resonance of quartz. In the load Lc-circuit 3 CAG oscillations arise, one part of which energy, removed from capacitors 6 and 7, through the main POS circuit, which includes a quartz resonator 4, goes to the base of transistor 1, exciting the composite transistor as a whole. containing a quartz resonator 4, by all indications and the right is indeed the main one and is responsible for the stabilization of the CAG frequency. Another part of the energy of the oscillation of the load LC circuit 3 (and usually more significant), removed from the capacitor 7, is fed through the circuit 5 of the additional PIC to the base of the transistor 2, where together with the transistor 1-1 through the transistor 1, it energizes only the more powerful output transistor 2. Selection of capacitance values of capacitors 6-8 establishes the required connection of the quartz resonator 4 with the load LC-circuit 3 CAG and the desired (or as low as possible) excitation level of the quartz resonator 4, as well as The oscillations applied through the additional POS 5 circuit (POS excitation) to the base of transistor 2. The experimental non-followings performed showed that the introduction of an additional POS 5 circuit, for example, of the capacitive type, i.e. The PIC of excitation through a capacitor allows, at a given reduced excitation level of the quartz resonator 4 and high output power of the CAG using transistor 1. with a relatively small nominal power, it is possible to control the power supply of the power source with a relatively high power transistor 2 and, therefore, increase the efficiency of the CAG and to create the possibility of realizing other advantages of the proposed CAG. The introduction of additional PIC 5 allows weakening the bond of quartz

resonator 4 with a load power circuit 3 of a powerful CAG, reduce the level of excitation of the quartz resonator 4, facilitate its thermal mode of operation and, thus, increase the stability of the frequency of the CAR, while providing a more favorable energy mode of operation of the CT.

A chain of additional PIC can be easily introduced into powerful KAYA both of the fiat and oscillator type on the PT, performed both according to the inductive three-point scheme, as well as to other CAT schemes on the CT, using the simplest dual CT, tgzh and CT of the three and more single Tpai zistors.

Claims (1)

CLOCK oscillators having first and second transistors' ry included on integral with a common emitter circuit, a contour LC load connected to ^the koAl®k ₽ ^reaction chains of the first and second transistors, and a crystal resonator connected between the LC-circuit load, and the base of the first transistor, characterized in that, in order to increase the stability of frequency and efficiency, a circuit is introduced between the load bC circuit and the base of the second transistor, additional positive feedback. JV with © о ΟΊ с>