DE866678C - Arrangement for the modulation of quartz-controlled transmitters - Google Patents

Description

Arrangement for the modulation of quartz-controlled transmitters For the Modulation of transmitters, never stabilized with the help of quartz oscillators, is a large number of different circuits are known. It will be especially then if those transmitters are intended for measurement purposes, there are substantial requirements regarding the accuracy of the fundamental frequency for frequency or amplitude modulation. In particular, frequency modulation encounters difficulties in quartz-controlled transmitters.

The purpose of the present invention is now to create an arrangement which fulfills the requirement for accuracy without a particularly large amount of effort to need.

The invention consists in the fact that two auxiliary transmitters each other exactly the same frequency are provided, the frequencies of which are successively that of the controlled Transmitter delivered base frequency are superimposed, whereby by bandpasses once only the sum frequency and the other time only the difference frequency is transmitted. By similar structure and supply from the same current and voltage source achieved a particularly good freedom from errors, because as a result of the formation of sums and differences the frequency fluctuations of the auxiliary transmitters cancel each other out.

In order to achieve a particularly even structure of the auxiliary transmitters, It is advisable to modulate both auxiliary transmitters, although one is also using the modulation only one auxiliary station achieved good results. Both transmitters are modulated in push-pull, whereby only half the frequency stroke is required.

Is the transmitter for measuring purposes in connection with a cathode ray tube determined, one can determine the equality of the frequency of the two auxiliary transmitters by comparison the fundamental frequency directly fed to one pair of plates with the output frequency after twice frequency conversion, which is fed to the second pair of plates, easy set and monitor.

Further details of the invention should be based on the exemplary embodiment be described, which is an arrangement for recording tuning curves with the help that transmitter represents.

The basic frequencies f can be taken from the connections i to 4 at the measuring station with a plug 5. They are fed to the first U erlagerer 6. This contains the. first auxiliary transmitter 8, the frequency f1 of which is mixed with the input frequency fo in the mixing tube 7. In addition, a frequency modulation with a tube g is provided whose impedance z. B. at the grating can be controlled io such that the fundamental frequency is - 4f changes: The first super-2 6 taken frequencies are then Only the desired frequencies are allowed to pass through a subsequent bandpass filter i2, so that the second superimposer i3 only the frequencies receives. The second superimposed 13 is constructed exactly like the first. In the mixing tube 14, the supplied frequency f2 is mixed with the frequency f1 of the auxiliary transmitter 15, which can also be frequency-modulated, the impedance tube 16 being used for modulation by changing the voltage at the grid = 7, which takes place in push-pull to the control at io. The mixture creates the following frequencies: The test item i8 is now tuned to the frequencies f. = Fa - (f, f , so that in it f3 = fo = Afs the desired frequency modulation of the original frequency fo around the band ± df is effective.

The output voltage is now taken from the test item 18 and if necessary via an amplifier zg, which is used to achieve an exponential scale as an exponential amplifier can be formed, the vertically deflecting plates 2o of the cathode ray tube forwarded.

The horizontally deflecting plates 22 get through the switch 2i from the relaxation generator ii, whose push-pull output voltage is also used for frequency modulation serves, their deflection voltage.

For calibration, the switch 21 is placed in the position shown, so that the horizontally deflecting plates the voltage of frequency f, if necessary also obtained via an amplifier, which can also be the trigger amplifier: The two same auxiliary transmitters are operated by the voltage source 23. the Recalibration can either be done by regulating the operating point of the impedance tube g and or or 16 or also by changing the oscillation circuit 24 and or or 25 take place.

To achieve various. A preferably common changeover switch for the amplifier ig and the control voltage from the flip-flop device ii can be provided as a measure for df or the amplitude of the test object, which can be combined with the changeover switch 21 if necessary:

Claims (1)

PATENT CLAIMS: i. Arrangement for the modulation of quartz-controlled Transmitters, especially for frequency modulation for recording tuning curves, characterized in that two auxiliary transmitters are provided with the same frequency as one another are, the frequency of which is successively that of the quartz-controlled. Base frequency supplied by the transmitter are superimposed, with bandpasses once only the sum and the other time only the difference frequency is transmitted. a. Arrangement according to claim i, characterized characterized in that the two auxiliary transmitters are constructed identically and from the same Current and voltage sources are operated. 3. Arrangement according to claims i and 2, characterized in that both auxiliary transmitter frequencies are modulated. q .. Arrangement according to claim 3; characterized in that the frequency modulation im Push-pull takes place. 5. Arrangement according to claim i, characterized in that a Changeover switch for the adjustment or test display of the input and output frequency is provided with the help of the existing cathode ray tube.