SU1486951A1 - Self-excited oscillation phase noise spectrum meter - Google Patents

Description

The invention relates to a measuring technique, can be used in radio engineering systems to control the level and study the phase noise of autogenerators and allows to investigate both quartz highly stable generators and unstable quartz-free ones. When measuring the noise of quartz oscillators, it is possible to expand the analysis band by shifting the spectrum of tunable generator 2

torus to high frequencies and using a large frequency division factor, and for non-quartz ones, it is possible to extend the retention band by transferring the spectrum of the tunable generator to low frequencies and using the unit frequency division factor. The meter contains a first mixer, a phase detector, a spectrum analyzer, a frequency instability measuring unit, first and second keys, a tunable frequency generator, first and second BC circuits, first and second quartz oscillators, a second and third mixers, and a variable factor generator division. The inputs of the first mixer are the inputs of the meter, the output is connected to the input of the phase detector, the output of which is connected to the input of the spectrum analyzer. Sun-circuits with a tunable oscillator, mixers, quartz oscillators and a frequency divider form a loop of phase-locked loop. The unit for measuring the frequency instability is connected to the output of the first mixer, and the output to the control inputs of the keys and the divider. 1 il.

The invention relates to measuring equipment and is intended for use in radio systems to control the level and study the phase noise of self-oscillations.

The purpose of the invention is the expansion of the analysis frequency range.

The drawing shows a diagram of the measuring spectrum of the phase noise of self-oscillations.

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The device contains the first mixer 1, phase detector 2, spectral analysis unit 3, the first 4 and the second 5 integrating KS circuits, the first switch 6, the tunable generator 7, the second 8 and the third 9 mixers, the second switch 10, the first 11 and the second 12 crystal oscillators, frequency divider 13, frequency instability measuring unit 14. Moreover, the inputs of the mixer 1 are the inputs of the device, and the output is sequentially connected through the phase detector 2 to the inputs of the spectral analysis unit 3 and the first and second integrating KS circuits 4 and 5, the outputs of which are connected by the first and second switches of the key 6. The output of the latter is connected to the input of the tunable generator 7,

^the output of which is connected to the first inputs of the second and third mixers

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The outputs of the mixers are connected to the first and second inputs of the second key 10. The second inputs of the second 8 and third 9 mixers, respectively, are connected to the outputs of the first 11 and second 12 quartz oscillators. The output of the second key 10 is connected in series with the frequency divider 13 and the phase detector 2. The input of the frequency instability measurement unit 14 is connected to the output of the first mixer 1, and the output is connected to the control inputs of the first 6 and second 10 keys and the frequency divider 13.

Spectral analysis unit 3 includes a low-pass filter, a low-noise amplifier and a spectrum analyzer. As a unit 14 for measuring the frequency instability, an electron-counting computing frequency THAT P43-07-0001 is used. The first and second KS chains are integrating links.

The device works as follows.

Self-oscillations from two generators of the same type with frequencies separated by ί _{0 are} compared to the frequencies of the first mixer 1. The oscillations from the output of the first mixer 1 enter the frequency instability unit 14 and the first input of the phase detector 2. Depending on the measured frequency instability, the signal at the output of the frequency instability measurement unit 14 takes one of two possible values determining the position of the first 6 and second 10 keys and the value of the division factor of the frequency divider 13.

The phase detector 2 compares the phases of the signal from the output of the first mixer 1 and the reference oscillation. The reference oscillation is formed by the first (or second) KS-chain 4 (5), tunable by generator 7, first 11 (or second 12) quartz generator, second 8 (or third 9) mixer and divider 13 frequencies with the first (or second) coefficient value division. The voltage from the output of the phase detector is fed to the input unit 3 of spectral analysis.

At the same time, the frequency range of the analysis is expanded due to an increase in the upper frequency of the analysis, which is ensured by transferring the spectrum of Tunable Generator 7 to the frequency range that is an order of magnitude higher than the original one. The use of the division factor of the order of several hundred allows to reduce the phase noise of the reference oscillation.

When analyzing the noise characteristics of low-stable, non-quartz oscillators, the spectrum of the tunable generator 7 is transferred to the low-frequency region and the division factor of the order of unity is used, which allows one to track the frequency drift of the oscillators under study, i.e. widen the hold strip of the meter.

Claims (1)

Claim Phase noise spectrum meter of self-oscillations consisting of a first mixer connected in series, a phase detector, a spectral analysis unit and the first integrating QC circuit, as well as a tunable generator, a frequency divider, and the output of the frequency divider is connected to the second input of the phase detector, characterized in that in order to expand the frequency range of the analysis, a frequency instability measurement unit, the second integrating EC circuit, the first key, the second and third mixers, the first and second quartz r and generators of vto5 1486951 a key, the output of the first mixer is connected to the input of the frequency instability measuring unit, the first and second inputs of the first switch are connected respectively to the outputs of the first and second EC integrating circuits, and the output of the first switch is connected to the input of a tunable generator whose output is connected to the first inputs the second and third mixers respectively, the second inputs of the second and third mixers connected respectively to the outputs of the first and second quartz oscillators, and the outputs, respectively σ the first and second inputs of the second b the key, the output of which is connected to the first input of the frequency divider, the output of the phase detector is connected to the input of the second integrating EC circuit, 10a the output of the frequency instability measuring unit is connected to the control inputs of the first and second keys and the frequency divider ^