DE2063112C3 - Vibration generator with a frequency that can be changed using the frequency synthesis method - Google Patents

Description

The invention relates to a vibration generator with frequency synthesis according to the method variable frequency, with a mixer for optional implementation of one of several stable frequencies, which are derived from a normal frequency by a distorter sii.J, into an intermediate frequency by means of an auxiliary frequency fed to the mixer.

Such vibration generators are known (z. B. DE-AS 12 44 877). They are used to generate Vibrations with adjustable frequency, great accuracy and constancy. They contain a Normal frequency supplying normal frequency generator, the oscillation of which is distorted in a distortion, see above that a spectrum of harmonic oscillations arises, the frequencies of which are integral multiples of Represent normal frequency. This harmonic spectrum is generated by a mixer (pre-converter) with the help an auxiliary frequency that can be changed in steps is converted into an intermediate frequency spectrum from which an oscillation with the intermediate frequency is filtered out by an intermediate frequency filter. This intermediate frequency results, for example, from the difference between the auxiliary frequency and the F-frequency of one of the Harmonics of the normal frequency generated by the distortion. By gradually changing the assistance frequency can cause any of the harmonics to oscillate at the intermediate frequency through the pre-converter implemented. By means of a back converter, the oscillation with the intermediate frequency will be Using the auxiliary frequency converted into the output frequency. The output frequency can be, for example from the difference between the auxiliary frequency and the intermediate frequency, and it is around the same amount can be changed as the auxiliary frequency. The output frequency exhibits the same accuracy and accuracy Constancy like the normal frequency, since the influence of the auxiliary frequency through the forward and backward conversion is eliminated.

It has been shown that the output oscillation despite the low-noise oscillation of the standard frequency generator has a significant amount of noise. A significant amount of this noise occurs in the Pre-converter.

S In addition, it is in a circuit arrangement for Generation of a large number of crystal-precise, adjustable frequencies known, optionally a multiplier, which is arranged between a mixer and an oscillator to use as a doubler or the

ίο Oscillator output without multiplication to an input to connect the mixer; the other input is fed by a broadband multiplier, from which possibly unwanted harmonics emerge, which are outside the useful range (DE-AS 10 28 626). However, this broadband multiplier does not function in the known circuit a distortion provided. In addition, the broadband multiplier consists of three series-connected Tripler stages, so does not contain a divider.

jo The invention is based on the object To improve the signal-to-noise ratio in a vibration generator of the type described above, by reducing the noise generated in the pre-converter.

2j According to the invention, the object is achieved by a Vibration generator solved as indicated in the first claim.

The invention is based on the idea that the signal-to-noise ratio is improved as a result could be that the level component of the harmonics that are implemented in the pre-converter in relation to the overall level of the harmonic spectrum fed to the pre-converter is increased. The total level of the dem Pre-converter supplied harmonic spectrum must not exceed a certain value so that a Overriding the pre-converter is avoided. For the signal-to-noise ratio, it would be best to to the pre-converter only the oscillation of the harmonic spectrum required for conversion to the intermediate frequency feed and suppress the other vibrations. But this would be a significant one Require effort in selection means. When the subject of the invention is the number of the Pre-converter supplied vibrations of the harmonic spectrum thereby halved that depending on the from Vibration generator to generate output frequency the harmonic spectrum only from even-numbered or odd harmonics of a fundamental frequency.

This is explained in more detail using a block diagram of an exemplary embodiment. The fundamental frequency, which itself or its harmonics should be converted to the intermediate frequency f \ , is denoted by fq. The normal frequency generator G oscillates at twice the frequency 2 fq. The oscillation with this frequency 2 fq is distorted in the distortion device V , so that an oscillation rich in harmonics occurs, the harmonic spectrum of which contains oscillations with frequencies 2 fq, 4 fq, 6 fq, 8 fq and so on. The frequency divider Γ divides the frequency of the high-harmonic oscillation in a ratio of 2: 1. A bistable multivibrator can serve as the frequency divider T. The square wave emitted by this is differentiated by the differentiating element D. This creates alternating positive and negative pulses, as shown below the connecting line between the differentiating element D and the band filter B. If symmetry is good, these impulses contain predominantly

odd harmonics of the fundamental frequency fq. These pulses formed by the differentiating element D, which works as a pulse shaper, pass through the band filter B, which feeds the pre-converter M \ with an oscillation spectrum with the lowest possible amplitude component of even harmonics. One of the harmonics is supplied from Vorumsetzer with the aid of the auxiliary frequency delivered by the tunable local oscillator H fo the filtered through the intermediate frequency filter Fi \ intermediate frequency f reacted \. The pre-converter M \ has a permissible control limit. The signal-to-noise ratio of the oscillation with the intermediate frequency (\ is the better, the greater the oscillation amplitude of the respective converted oscillation is the harmonics generated by the distortion, but only one of all the generated odd harmonics of the fundamental frequency fq, so that this one harmonic can be selected to be twice as large as in known arrangements with the modulation level of the pre-converter M \ unchanged. Improve the signal-to-noise ratio by about 6 decibels.

The intermediate frequency / j is converted by the mixer M2 with the help of the continuously adjustable interpolation frequency fp, which is supplied by the interpolation oscillator /, to the intermediate frequency h filtered by the intermediate frequency filter Fh , which in turn is converted with the help of the reconverter Mi and the auxiliary frequency / ü, which can be set in steps is converted to the output frequency fs filtered by the filter Fi _} . This output frequency fs can be changed with the aid of the adjustable auxiliary oscillator H and the likewise adjustable interpolation oscillator / by an amount which corresponds to the sum of the setting ranges of the oscillators mentioned.

For the frequencies f \, / 2 and fs , for example, the following equations apply, where η means a whole positive number:

/ i = fo - nfg,

h = / 1 + fp.

fs - fü - / 2 = nfq - fp.

According to the description of the block diagram shown in the drawing given up to this point, it would only be possible to generate output frequencies with odd harmonics of the fundamental frequency fq. Frequencies with even harmonics arise in the following way: The frequency division by the frequency divider Γ can be suppressed via the switch S by blocking a system of the bistable multivibrator contained in the frequency divider T by a bias voltage U. The other system then works as a pulse amplifier and supplies pulses with the fundamental frequency 2 fq, which are differentiated in the differentiating element D and, for example, have the form shown above the connecting line between the differentiating element D and the band filter B. These pulses only contain even harmonics of the fundamental frequency fq. Accordingly, the proportion that in this case a harmonic, which is converted in the pre-converter Mi, has in the total level output by the bandpass filter B to the pre-converter Mi, is twice as large as in known arrangements without a frequency divider that can be switched off, so that again an improvement in the Signal-to-noise ratio is achieved by about 6 dB.

The switch 5, which is a disconnection device for the frequency divider 7 *, is mechanically connected to the setting device for the auxiliary frequency (fü) supplied to the pre-converter Mi, ie m ^; ! the setting device of the local oscillator H coupled.

If the auxiliary oscillator H is set in such a way that an even harmonic of the fundamental frequency fq is converted in the pre-converter Mi, the switch Sin is in one of the positions 0,2,4,6,8, so that the frequency divider T over one of the contacts 0,2 , 4 ... a voltage U is supplied, which - apart from a pulse-amplifying effect - makes the frequency divider T ineffective. In this way, the automatic switching of the oscillation generator shown schematically in the block diagram is ensured between the two operating states in which either odd or even harmonics are converted by the pre-converter Mi to the intermediate frequency f \ .

The principle of the invention can also be modified so that the normal frequency generator oscillates at the fundamental frequency fq and that instead of the frequency divider a frequency doubler is used which is designed so that it suppresses the odd harmonics of the fundamental frequency fq through symmetry.

With the doubler, a pulse sequence is then formed which essentially only contains even harmonics of the fundamental frequency fq . When the doubler is switched off, the oscillation of the normal frequency generator is converted into a pulse sequence which essentially only contains odd harmonics of the fundamental frequency fq.

1 sheet of drawings

Claims (2)

Patent claims: !. Vibration generator with variable frequency according to the method of frequency synthesis, with a mixer for the optional conversion of one of several stable frequencies, which are derived from a normal frequency by a distortion, into an intermediate frequency by means of an auxiliary frequency fed to the mixer, characterized in that between the distortion (V) and the mixer (pre-converter Mi) a switchable frequency divider (T) or multiplier is switched on, so that the harmonic spectrum fed to the mixer (Mt) in one switching position essentially only odd harmonics of a fundamental frequency (fq) and in the other switching position essentially only contains even harmonics (it; basic frequency ^. 2. Vibration generator according to claim I, characterized in that the adjusting device for the auxiliary frequency (fü) fed to the mixer (M ₁ ) is coupled to the disconnection device for the frequency divider (T) or multiplier.