SU1598104A1 - 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 frequency stability and expand the range of operating frequencies towards higher frequencies. The quartz oscillator contains the first, second and third transistors 1-3, quartz resonator 4, voltage divider 5, first and second blocking capacitors 6.7, potentiometer 8, first and second resistors 9.10, first and second capacitors 11.12, the third resistor 13. The divider 5 can be performed on the resistor 14, the first and second zener diodes 15,16. The oscillatory system of the crystal oscillator is formed by the output resistance of the cascade at the third transistor 3, the first capacitor 11 and the input resistance of the cascade at the second transistor 2. The cascade at the first transistor 1 with potentiometer 8 implements an equivalent inductance providing neutralization of the static capacitance of the quartz resonator 4. The magnitude of the negative resistance of the cascade the second transistor 2 is regulated by the capacity of the second capacitor 12. 1 Cp, 2 Il.

Description

The invention relates to radio engineering and can be used as a source of electrical oscillations,

The purpose of the invention is to increase frequency stability and the expansion of dia-5

working frequency band towards the upper frequencies.

I In figure 1. a circuit diagram of a quartz oscillator is given; fig. -2. divider / voltage

The quartz generator contains the first 1, second 2. and third 3-transistors, quartz resonator 4, divider 5

ten

voltages, first 6 and second 7 block capacitors, potentiometer 8, first 9 and second 10 resistors, first 11 and second 12 capacitors, third resistor 13. Divider 5 can be made on resistor 14, first 15 and second 16 zener diodes . I

15

20

The voltage divider 5, the first 9, second 10, and third 13 resistors set the mode of the first 1, second 2, and third 3 DC transistors. The first 6 and second 7 blocking capacitors perform high frequency blocking.

When performing divider 5 in the form of series-connected resistors 14, second 16 and first 15 stabilizers, cascades on the first 1 and third 3 transistors also play the role of voltage stabilizers on the base and collector of the second transistor 2.

Formula inventions

1. A quartz oscillator containing a first transistor, a second transistor whose collector is connected to the emitter of the first transistor, a voltage divider that is connected between the quartz oscillator works as follows.

The oscillatory system of a quartz oscillator is formed by the output resistance of a cascade made on the third transistor 3, the first capacitor 11 and the input resistance of the cascade made on the second transistor 2. The input resistance of the kazas kada made on the third transistor 3 is inductive at high frequency . The input resistance of the cascade, made on the second transistor 2, has a negative power supply and a common bus, the first block component, whose value is the maxima capacitor, the first output of Malia with the minimum resistance connected to the common bus, is in the collector circuit , t, e, at the frequency of the next blocking capacitor, which is of finishing resonance of the quartz resonator 4, Cascade on the first transistor Q 1, connected according to the scheme with a common collector, converts the resistance of potentiometer 8 into an equivalent the inductive component of the output impedance, the value of which is determined by the torus and the second capacitor, is first outputted by the resistance of the potentiometer 8. The diameters of which are connected to the emitter are thus equivalent to the input of the transistor, the third resistor, to the inductance of the cascade to the third and the first output of which connected to the obtransistor 3 and the first capacitor 11 of the bus bar, a quartz resonator, the first form a parallel circuit, parallel to which is connected the negative input impedance of the emitter Yowto A driver made on the second transistor 2. Moreover, the magnitude of the negative resistance is regulated. the capacity of the second capacitor is 12, and the tuning frequency is the first capacitor 11. When tuning this equivalent circuit to the frequency of the sequential

connected between the first tap of the voltage divider and the common bus, the first capacitor, the first output of which is connected to the base of the second transistor, the first resistor, the first output of which is connected to the power supply bus, the second resis

the output of which is connected to the emitter of the first transistor, which differs from and to the fact that, in order to increase frequency stability and expand the range of operating frequencies towards the higher frequencies, a potentiometer is inserted which is connected between the first voltage divider and the base of the first transistor , the third transistor, the type of conductivity of which is opposite

resonance of the quartz resonator 4, continuous oscillations occur in the quartz oscillator.

Changing the resistance value of the potentiometer 8 compensates for the static capacitance of the quartz resonator 4, tuning the equivalent parallel circuit to the generation frequency.

The cascade on the third transistor 3 also serves as a buffer amplifier.

The voltage divider 5, the first 9, second 10 and third 13 resistors set the mode of the first 1, second 2 and third 3 transistors in DC. . The first 6 and second 7 blocking capacitors perform high frequency blocking.

When performing divider 5 in the form of series-connected resistors 14, second 16 and first 15 stabilizers, cascades on the first 1 and third 3 transistors also play the role of voltage stabilizers on the base and collector of the second transistor 2.

power supply and common bus, the first interlock capacitor, the first output of which is connected to the common bus, the second blocking capacitor, which is the torus and the second capacitor, the first outputs of which are connected to the emitter of the second formula,

Claims (2)

1. A quartz oscillator containing a first transistor, a second transistor whose collector is connected to the emitter of the first transistor, a voltage divider that is connected between the power bus and the common bus, the first interlock capacitor, the first output of which is connected to the common bus, - a swarm of blocking capacitor, which is a torus and a second capacitor, the first terminals of which are connected to the emitter of the power supply and the common bus, the first interlock capacitor, the first output of which is connected to the common bus, the second blocking terminal A sensor that is a torus and a second capacitor, the first terminals of which are connected to the emitter, is connected between the first voltage divider and the common bus, the first capacitor, the first terminal of which is connected to the base of the second transistor, the first resistor, the first terminal of which is connected to the power bus, the second resistor, the third resistor, the first output of which is connected to the common bus, the quartz resonator, the first the output of which is connected to the emitter of the first transistor, which differs from and to the fact that, in order to increase frequency stability and expand the range of operating frequencies towards the higher frequencies, a potentiometer is inserted which is connected between the first voltage divider and the base of the first transistor , the third transistor, the type of conductivity of which is opposite the conductivity type of the first and second transistors, with the emitter of the third transistor connected to the second lead of the first resistor and the base of the second transistor, the collector of the third transistor connected to the second switch of the third resistor, the base of the third transistor connected to the second lead of the voltage divider and the second lead water of the first blocking capacitor, the second output of the quartz resonator is connected to the collector of the first transistor and the power bus, the second terminals of the second resistor, the first and second capacitors Linked to the common bus. 2. Generator pop. 1, which differs from the fact that, in order to improve frequency stability when changing the supply voltage, the voltage divider is made in the form of a resistor and the first Zener diode, the first outputs of which are the outputs of the voltage divider, and also the second zener diode The first cable of which is connected to the second terminal of the resistor and is the first tap of the voltage divider, while the second pin of the second zener diode is connected to the second pin of the first zener diode and is the second tap of the voltage divider. FIG. 2