SU1029388A1 - Controlled crystal generator - Google Patents

Abstract

CONTROLLED QUARTZE GENERATOR, containing an active element with a positive feedback circuit, in which a crystal oscillator is connected with a control circuit connected by a d: terminal for connecting a control signal source and containing two oppositely connected varicaps, connected in parallel with a resistor, The reason is that, in order to reduce the nonlinearity of the characteristics of the control, a shearing voltage shaper, three additional resistors and a capacitor, included between odes varactors, ob: clutches which are connected via porvy and second additional rezists w respectively with the first and vtorm output of the voltage shift soeuoinonnymi with first and second terminals of the third additional rezietora, the second terminal of which is unplugged subfamily .k source terminal for coupling the control signal. . with

Description

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00 00 The invention relates to electronic technology and can be used to create highly stable tunable vibration sources. A quartz oscillator containing an active part, a quartz resonator and a control circuit, which includes inductive elements, is known. In this generator, the frequency is changed using the control voltage Cl 3. The disadvantage of such an oscillator is the difficulty of realizing the inductive elements of the integral technology. Therefore, microminiaturization of quartz oscillators uses either a circuit with a small inductance or non-inductive circuits, which leads to a decrease in the frequency tuning range of the oscillator and an increase in the nonlinearity of characteristic-; control sticks. Closest to the proposed two-way controlled crystal oscillator, containing an active element with a positive feedback circuit, a crystal oscillator with a control circuit is included in the KOTopSTo and contains two interconnected variots in parallel, KOTO; the resistor is connected and their common | point is connected via a relay to a terminal for connecting a source to a 1-way control signal 2. The disadvantage of the generator is: a large non-linearity of the control characteristic. The purpose of the invention is to reduce the nonlinearity of the control characteristic. The goal is achieved by controlling a quartz oscillator with a torus containing an active element with non-positive feedback, which includes a quartz resonance | Tor with a control circuit connected and a terminal for connecting the control signal source and containing two included interconnected I / V varicaps, in parallel with which the | key –.resistor is connected, are introduced into the form: Shear stress voltage regulator, three additional resistors and a capacitor are included between the cathodes of the varicaps, the tabs of which are connected via the first and second additional resistors, respectively, to the first and second outputs of the voltage generator cd & yoke, connected to the first and second terminals of the third complement; the 6th resistor, the second output of which is connected . FIG. 1 shows the structural scheme: controlled quartz generator; in fig. 2 shows the dependence of the relative frequency change on the control voltage of the control characteristic at different voltage shifts between the varicaps. A controlled crystal oscillator contains an active element 1, a crystal oscillator 2, a control circuit containing varicaps 3 and 4, a coupling capacitor 5, resistors 6-9, a shaper between the varicaps shaper 10, terminal 11 for connecting the positive pole of the source: power, terminal 12 to connect the negative pole of the power source, terminal 13 to connect the source of the control signal, terminal 14 of the output voltage, the generator operates as follows. , Using a voltage generator 10 between the varicaps on the resistor 9 creates a voltage drop dE, which is determined by the difference in the voltage E supplied | Through the resistor 8 to the varicap 4, and E2 supplied through the resistors 7 and 6 to the varicap 3. At the same time, the varicap 3 through the resistors 9, 7 and b and the varicap 4 through the resistor 8 is supplied with a control signal from terminal 13. Thus, when the control signal is applied to varicaps 3 and 4, the voltage shift between the varicaps is constant E. . Figure 2 shows the effect of the magnitude of the DE on the dependence of the relative change in frequency on the control voltage E.,. Curve 15 is measured with a voltage offset between the varicaps of LU equal to 0. Curve 16 is measured at LU that is greater than DE, and curve 17 is measured at dv that is greater than LU. Thus, each value of the voltage shift between the inter-, by duvaric corresponds to a certain control characteristic. From consideration of the dependences of ISrlS, it follows that with increasing DE, the nonlinearity of the control characteristic decreases, the smallest, magnitude is reached (curve 17 in Fig. 2), a; The use of a shear voltage generator between the varicaps in the control circuit of a quartz oscillator does not reduce the non-intrusive control behavior of the quartz oscillator. The voltage shifter between the varicaps can be made in the form of a DC amplifier, with & TOM, the proposed scheme of a controlled crystal oscillator can be implemented using integrated technology.

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Claims (1)

CONTROLLED QUARTZ GENERATOR containing an active element cv with a positive feedback circuit that includes a quartz resonator with a terminal for connecting a control signal source and containing two on / off varicaps connected in parallel with a resistor, excluding with the fact that, in order to reduce the non-linearity of the control characteristic, a shear stress shaper, three additional resistors and a capacitor connected between the varicap cathodes, the plates of which with One through the first and second additional resistors respectively to first and second outputs of the shift voltage generator connected by a first and a second pin of the third additional D-S ican, the second terminal of which is connected to the connection terminal .k> yoo Q0 00. 1029388,