SU1059653A2 - Crystal oscillator with temperature compensation and electronic changing of frequency - Google Patents

Description

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The invention relates to radio engineering and can be used as a highly stable generator in radio transmitting devices. According to the main auth. I G58705 is known as a thermally compensated quartz oscillator with electronic frequency tuning, containing an active part with a series-connected quartz resonator and two varicaps, connected in parallel and connected to a power source, thermal-dependent and non-thermostable potentiometers, the taps of which are connected to the corresponding DoiM vario, and between the power source and the tapping thermotherm-free two-terminal device L. is included in the thermothermically-dependent potentiometer. However, the device does not have sufficiently high frequency stability. The goal of the inventions is beating. stability frequency. ., to reach the target in a temperature-compensated quartz oscillator with electronic frequency overwriting, containing an active part with a series-connected quartz resonator and two varicopes, parallel connected to the power source of the thermocouple; take it and the thermometer; The outlets of which are connected to the corresponding varika, memory, and between the power source and the mercury 4 nonthermically-dependent potentiometer, a thermally coupled two-pole device is included, between the non-thermometer-dependent potentiometer and the active second part connected in series with a quartz resonator and two varactor introduced to rr1ektor ms of clarity scattering ka th quartz resonator, the figure is an electrical diagram of the device. A temperature-compensated quartz oscillator with electron frequency tuning contains an active part 1 with a series-connected crystal oscillator and two varicaps, a temperature-dependent potentiometer 2, a temperature-dependent two-terminal 3, a temperature-dependent potentiometer 4, a power corrector 5 scattered on the quartz resonator. The device works in the following way. During frequency tuning, for example, with a view to correcting it during operation, the resistance of that part of the nonthermically-dependent potentiometer 2, which is connected in parallel to the thermo-dependent two-pole 3, changes. As a result, the dependence of the transient changes. Providing a divider consisting of a nonthermically-dependent potentiometer 2 and a thermo-dependent two-terminal network 3 of the ambient temperature. The varying communication levels of the active and passive parts of the circuit will correspond to different changes in the bias voltage by varicap1X in the range of ambient temperatures. The choice of the size of the pickup resistors of the thermodependent two-terminal 3 provides the necessary | The law of change of the bias voltage for thermal compensation. on a varicap in the temperature range at different bias voltages. With the help of a thermodependent potentiometer 4, temperature variations in the frequency generated by the circuit of the active part 1, including the quartz resonator, are compensated for. With the help of a thermo-dependent two-terminal 3, changes in temperature instability are compensated for when the frequency tuning is performed by a nonthermically-dependent potentiometer-2, the need for which is caused by the dependence of the temperature coefficient of the capacitance on the mixing voltage. When the temperature changes, the parameters of the elements of the active part change, for example, the transt gain is changed; The current through it is significant. It is cool (“| current-voltage characteristics of the drive, which leads to a change in the cut-off angle of the current” and, therefore, the amplitude of the warp which unmeasurably leads to the power dissipation and the quartz resonator and because of nonlinearity the amplitude-frequency characteristic of a quartz resonator is a frequency change. When frequency is tuned to a nonthermically dependent potentiometer 2, depending on ot the circuit of the active part 1, on the detuning value of the quartz resonator, on the change in The resistance dissipated at the quartz resonator may decrease or increase. In the case of an increase in the voltage at the output of the thermoelectric potentiometer 2 by increasing the frequency, the power of the dissipation in the quartz resonator may decrease or increase, In the case of an increase in voltage, there is no rm-dependent potentiometer 2 ( Increasing the frequency of the power dissipation at the quartz resonator may decrease or increase. The connection of the thermothermically dependent potential of the 2c active part through the corrector S makes it possible to stabilize the value of scattering on a quartz crystal. With an increase in the voltage on the tap of a nonthermically dependent potentiometer 2, when the frequency of the active part is tuned with the help of the offset L, the bias voltage will correspondingly decrease or increase in the order

depending on whether the power is increased or decreases in a quartz resonator. A change in the displacement in the active part 5 leads to a stabilization of the power dissipation on the quartz crystal. If during correction, the sign of the frequency relative to the initial setting is ample and coincides with the sign of the emeeni to be scored on the quad resistor, then the correction can be performed, for example, as a series of connected | v1ter "0 repetitive, inverts and cut" storg1. With iroMrtsyo xsch; The size of the school is reduced: The price of € 11 €; 4 wil rs and,. It is conditioned by the nonisochronism of the quartz resonator.

Thus, the power is stabilized by the scattering at the quartz resonator, and, consequently, the frequency is stabilized at the specTpdtKQ frequency. The instability of the frequency t of the fmixed quartz oscillator with electronic frequency exchange is only due to change (“scattering on the quartz reattachment can reach the value of (). If you use the fatigue of the scatter on the keartz resonator, you can reduce the frequency inconsistency to (l 3) tiO.

Claims (1)

THERMAL COMPENSATED QUARTZ GENERATOR WITH ELECTRONIC FREQUENCY CONTROL OF FREQUENCY according to ed. No. 658705, characterized in that, in order to increase the frequency stability, between the tap of the non-thermo-dependent potentiometer and the active part with a quartz resonator and two varicaps connected in series, a quartz resonator power corrector is introduced. next to next>