CS198645B1 - Connexion of high-frequency resonance circuit - Google Patents

Description

The present invention relates to a high-frequency resonance circuit tuned and tuned by a variocap, in which dependency is solved. tuned frequency on the tuning voltage and thus the slope of the automatic frequency tuning in the circuit tuning pass.

The hitherto known typical circuitry of a high-frequency tuner tuned and tuned by a variocap, used in particular for radio receivers, consists of a parallel resonant circuit formed by a coil, a fine tuning capacitor and a variocap. A tuning voltage source is connected to one of the variocap terminals and a control voltage source for tuning the frequency of the circuit is connected to the other terminal. The disadvantage of this circuit is the non-linear tuning of the tuned frequency to the tuning voltage, especially in the large tuning band of the circuit, such as in the case of tuning the circuit through the OIRT and CCIR bands in the two-normal input. consequence and different steepness of automatic frequency tuning, in the circuit tuning band.

Another known ΤΓ-cell wiring used in wide band resonant circuits. The tuning has a coil in the longitudinal branch, a tuning variator with a parallel tuning capacitor in one of the two transverse branches, and a special tuning variator with a pre-load and a parallel capacitor connected in the other. The disadvantage of this circuitry is the greater number of functional elements than in the above example of circuitry,

198 645

The 198 843 fine tuning capacitor connected in parallel to the tuning variocap increases the non-linearity of the resonant frequency dependence of the circuit on the tuning voltage and limits the tuning range of the circuit.

The above drawbacks are overcome by connecting a high-frequency resonant circuit tuned and tuned by a variocap according to the invention, which is based on connecting the variocap, coil, first and second capacitors in series to form a series resonant circuit.

Serial connection of said resonant circuit elements will result in a linearization of the tuned frequency of the resonant circuit on the tuning voltage and a uniform steepness of the automatic frequency tuning in a wide tuning band with a lower number of functional elements than in the hitherto known connections.

The accompanying drawing shows an example of a high-frequency resonance circuit tuned and tuned by V-caps according to the invention.

The tuning voltage source 1 according to FIG. 1 is connected by its positive field to the cam terminal of the first resistor 2 connected by its right terminal to the upper terminal of the first capacitor

2 and a lower outlet of the variocap 6, the upper outlet of which is connected to the coil terminal of the coil 4 connected by its right terminal to the upper terminal of the second capacitor 6 and the second terminal of the second resistor 6, the right terminal of which is connected to one pole connected by its second field to the lower terminal of the second capacitor 6, the lower terminal of the first capacitor 6 and the negative field of the ladiao voltage source 6.

The resonant circuit connection according to the invention is advantageously used in devices requiring a wide tuning band, tuning linearity and a steep uniformity of the auto-tuning frequency in the tuning band. The tuning linearity is of great importance in resonant circuits where the tuning element is coupled to the degree. A linear scale of frequencies can be achieved without constructing tuning poteneiometers with a spe- cial waveform. the linear path of the resistance path. Examples of the use of the circuit may be communication, radio or commercial radio receivers, television receivers and the like.

Claims (1)

OBJECT OF THE INVENTION A high-frequency resonant circuit tuned and tuned by a varistor, characterized in that the positive voltage source (1) is connected with its positive field to the left terminal of the first resistor (2) connected by its right terminal to the upper terminal of the first capacitor (3) and the lower terminal of 4), the upper terminal of which is connected to the left terminal of the coil (5) connected by its right terminal to the upper terminal of the second capacitor (6) and the left terminal of the second resistor (7), the right terminal of which is connected to one pole (8) coupled by its second field to the lower terminal of the second capacitor (6), the lower terminal of the first capacitor (3) and the negative field of the ladiao voltage source (1).