DE926011C - High frequency discriminator - Google Patents

Description

In low-frequency technology, discriminators are known with two detectors are connected against each other so that the target frequency Voltage o results. There is the so-called phase discriminator (Rieggerkreis), in which the secondary circuit is inductive and its center is additionally galvanic or via a capacitance is coupled to the primary circuit.

You can also find the so-called balance detector, in which two against each other detuned secondary circuits are galvanically connected.

In both cases these are the voltages developing across the detectors switched against each other, and you get a frequency response that with increasing Frequency runs from negative to positive voltage or vice versa and at the The nominal frequency just gives the voltage o.

It is also known, discriminators for high frequency with only one build a single resonance circuit and reduce the voltage. the by measurement-of electricity and voltage arises at a single point on the line, as an adaptation criterion to use.

The discriminator for high frequencies with only one resonance circuit and comprises two devices for extracting display voltages according to the invention a characteristic feature is the coupling of the voltage display device directly on a supply line that is operated in such a way that standing waves occur at their point of entry into the resonator, while the second display device is coupled into the resonator.

The arrangement according to the invention has the advantage that when the frequency changes no adjustment of the display device is required. With Riegger circuits, how they z. B. in British patent specification 593 573 and in Swiss Patent specification 245 238 are shown, a phase adjustment is always a frequency change required, while this is not necessary with the proposed arrangement.

In the proposed arrangement, the change in amplitude is one The resonance circuit is used at a variable frequency without affecting the phase relationships arrives. The inductive or capacitive coupling of the two display elements is like this executed that with frequency changes in the entire tuning range of the resonance circuit contrary display results, as will be explained in more detail below.

Fig. I shows a discriminator according to the invention, with the lead i can be designed as a double line, concentric line or waveguide. The line is from the HF generator 2 with the internal resistance Z, which is approximately must be equal to the wave resistance of the line, fed and is via a coupling element 3 (shown here as a loop) coupled to the resonance circuit 4, which in turn Again as a line circuit, cavity resonator or the like. Can be designed. To the Feed line i is coupled to a display element 5, which for example consists of a coupling loop with a detector can exist. There is also something similar to the resonance circuit Indicator 6 coupled.

Is the frequency supplied by generator 2 different from the resonance frequency of the resonance circuit 4 is different, the line i is at the end through the coupling loop short-circuited, and a standing wave with a is formed on line i Current maximum at the input of the circuit 4. The display element 5, which at this point gives maximum indication. The display element 6 contains from the detuned circle no power and gives minimum display. Now the circle 4 is set to the resonance frequency of the generator, the phase of the current or the voltage changes on line i by go °, so that now 5 has a minimum display, while 6 has a maximum Display there. In between there is a point where both displays are the same. If the tuning goes beyond the resonance frequency, the displays run vice versa, in opposite directions, and you come back to a point where both are the same. This process is plotted in curves in Fig. 2a and 2b. Fig .-- c shows the Difference curve, which has a similar course as an ordinary discriminator curve (Fig. 2d).

The same effect can be achieved if the display element 6 is capacitive coupled to the resonance circuit. You can also capacitively connect the resonance circuit to the Coupling the line and then the display element 5 must also be capacitive directly couple to the resonance circuit.

Claims (2)

PATENT CLAIMS: i. High frequency discriminator with only one Resonant circuit and two devices for taking display voltages, thereby characterized in that the coupling of a display device for the voltage a supply line that is operated in such a way that standing waves occur directly takes place at their point of entry into the resonator, while the second display device is coupled into the resonator. 2. Discriminator according to claim i, characterized in that the coupling of the one display device for the voltage that sits at the entrance of the supply line in the resonator and the coupling of this supply line itself into the resonator takes place in the same way, ie either inductively or capacitively. Cited publications German Patent No. 737 877; Swiss Patent No. 232 246; French Patent Nos. 944 157, 986 46o; U.S. Patent No. 2,486,000.