CS196978B1 - Wiring of the high-frequency resonance circuits tuned by the varicaps - Google Patents

Description

The invention relates to the connection of high-frequency resonant circuits tuned by variators in devices in which variators are used to tune the frequency within a given range. Hitherto known wiring of high frequency resonant circuits tuned by variators in devices where variators are used to tune the frequency in a given range of the day, most often consist of a coil, a capacitive trimmer and a varifcap. If both the capacitor trimmer and the varikap are connected parallel to the resonant circuit coil, the trimmer capacitance will, besides limiting the frequency range of the tuning, also change the resonant circuit frequency dependence pattern on the tuning voltage of the varikap especially at the upper end of the tuned range. When the varikap is connected to a resonant circuit coil in series with a capacitive trimmer, the trimmer capacity also causes the tuning frequency range to change and the resonant frequency frequency dependence of the tuning voltage of the variocap mainly at the lower end of the tuning range, both parallel and serial. The connection of capacitive trimmers to the varikap is an undesirable phenomenon, especially if the devices use variators with broader tolerances of their basic electrical parameters (minimum and maximum tuning capacitance, capacitance stroke and capacitance at the tuning voltage) when setup and calibration problems arise devices.

These drawbacks are solved by the circuitry according to the invention in that the varcap is connected to the coil of the resonant circuit via a capacitance divider of two capacitive trimmers, allowing the frequency dependence of the resonant circuit to be tuned to the tuning voltage so that the lower end

196 978

The 198 978 resonant circuit coil is connected to the positive terminal of the tuning voltage along with the lower terminals of the parallel capacitor trimmer, the varikap, and the lower resistor, the upper end of the coil being connected to the left terminal of the serial capacitor trimmer. trimmer and varikap connected to the left terminal of the decoupling resistor, the right terminal of which is connected to the slider of the potentiometer, the bottom terminal of which is connected to the upper terminal of the lower resistor and the upper terminal is connected to the negative terminal of the tuning voltage source.

With the present invention, there is provided the possibility of continuously varying the resonant circuit frequency dependence on the tuning naphtha of the variocap according to the need to match the tuned frequency to the scale of the device or the desired concurrence of multiple resonant circuits using variocaps with broader tolerances of their basic parameters. The rate of correction of the frequency dependence of the resonant circuit on the tuning voltage in the varikap tuning then depends mainly on the ratio of the maximum and minimum capacitance of the varikap and on the ratio of these capacities to the values of serial and parallel capacitors.

In the accompanying drawings, six examples of resonant circuit connections according to the invention are shown. 1 is a schematic diagram of a resonant circuit tuned with vari-pom and tuned by parallel and serial capacitor trimmer. In FIG. 2 is a modification of the circuit of FIG. 1. FIG. 3 shows an alternative of the circuit according to FIG. 2. In FIG. 4 is an analogous circuit diagram of FIG. 3. In FIG. 5 shows a circuit in which resonant circuit adjustment functions assume resistive trimmers at fixed capacitances of the series and parallel capacitance trimmer at both extreme frequencies of the tuned range. In FIG. 6 shows a circuit in which the resonant circuit can be adjusted by both types of trimmers.

The lower end of the coil χ of the resonant circuit g / fig. 1) is connected to the positive terminal of the tuning voltage source 10 together with the lower terminals of the parallel capacitor trimmer 4, the variapap ^{and the} lower resistor g, the upper end of the coil χ being connected to the left terminal of the serial capacitor trimmer 2. a capacitor trimmer 4 and a varikap 2 connected to the left terminal of a separating resistor 6, the right terminal of which is connected to the potentiometer potentiometer 2, whose bottom terminal is connected to the upper terminal of the lower resistor g and the upper terminal is connected to the negative terminal 10. The dependence of the frequency of the resonant circuit g on the capacity of the variocap g is given mainly by the course of its capacity on the tuning voltage. However, this dependence is influenced by the additional wiring capacities including the series capacitor trimmer g ^{and the} parallel capacitor trimmer. If the capacitance of the serial capacitor gi® of the order of magnitude comparable to the maximum tuning capacity of the varcap g and the value of the parallel capacitor £ is comparable to the minimum capacitance of the varcap, a change in slope is achieved. this dependence in the center of the tuned frequency range according to the requirements resulting from the property of the variant g used. it does not matter whether the correction of the dependence of the frequency of the resonant circuit g on the capacity of the varikap g is reached at fixed values of minimum and maximum

196 978 tuning capacitance of varcap 5 by adjusting capacitance trimmers 5 and 4, or at fixed capacitance values at positions of serial and parallel capacitance trimmer 5 and 4 correction is done by changing the maximum and minimum tuning voltage values of varcap £ by resistor trimmer voltage divider at resistors. £.

The proposed circuitry in the alternatives of the schemes shown in FIG. 2 to FIG. 6 can be used in electronic devices wherever the frequency dependence of the resonant circuit is varied on the tuning voltage of the variocap and where fine and accurate frequency tuning is required, especially in the input units of radio and television receivers.

Claims (7)

1. wiring of high frequency resonant circuits tuned by variators in devices using variators to transmit frequency in a lower range, characterized in that the variator is connected in parallel to the coil (1) of the resonant circuit 121 via a capacitor divider of two capacitive trimmers (3) (a) allowing correction of the frequency dependence of the resonant circuit (2) on the tuning voltage such that the lower end of the coil (1) of the resonant circuit (2) is connected to the positive pole of the tuning voltage source (10) together with the lower terminals of the parallel capacitor trimmer (4), of the varcap (5) and the lower resistor (8), the upper end of the coil (1) being connected to the left terminal of the serial capacitor trimmer (3), the right terminal of which is together with the upper terminals of the parallel capacitor trimmer (5) connected to the left terminal of the separating resistor (6), the right terminal of which is connected to the slider of the potentiometer (7), whose the lower terminal is connected to the upper terminal of the lower resistor (8) and the upper terminal is connected via the upper resistor (9) to the negative terminal of the tuning voltage source (10). 2. Connection according to claim 1, characterized in that the coil (1) of the resonant circuit (2) and the series capacitive trimmer (3) are interchangeable. 3. The circuit according to claims 1 and 2, characterized in that the parallel capacitor trimmer (4) can be replaced by a fixed capacitor when the upper resistor (9) is replaced by a resistor trimmer. 4. Wiring according to items 1 and 2, characterized in that the series capacitor trimmer (3) can be replaced by a fixed capacitor if the lower resistor (8) is replaced by a resistance trimmer. 5. Wiring according to items 1 and 2, characterized in that the series capacitor trimmer (3) and the parallel capacitor trimmer (4) can be replaced by fixed capacitors if the resistors (8) and (9) are replaced by resistive trimmers. 6. Wiring according to items 1 and 2, characterized in that resistance trimmers can be used at the positions of the resistors (8) and (9). 7. The circuit according to claims 1 to 6, characterized in that at the positions of the series capacitive trimmer (3) or of the parallel capacitive trimmer (4), there are used varikaps at the positions of both capacitive trimmer (3) and (4).