DE1248126B - Tuning device with oscillating circuits that can be tuned by capacitance diodes - Google Patents

Description

Tuning device with oscillating circuits that can be tuned by capacitance diodes The invention relates to a tuning device with variable capacitance diodes Resonant circuits, in which to switch between blocking and forward direction switchable capacitance diodes are provided.

It is a tuning device with capacitance diodes is known in which the capacitance diodes for coordination with a variable reverse voltage and for switching on other frequency ranges can be provided with short-circuit voltages (German Auslegeschrift 1196 730). It has proven difficult with such circuits. the one for switching current necessary between the blocking range and the pass range of the varactor diodes to apply in the receiver, because the required voltage is much lower than the output voltages of the power sources available in the device (voltage drop on a capacitance diode in the pass band about 0.5 V). One proposed for this Circuit, e.g. B. a voltage divider for relatively large currents, is a right considerable effort. The invention is based on the object of this effort to reduce and to enable proper switching of the capacitance diodes.

The invention is based on a tuning device with oscillating circuits that can be tuned by capacitance diodes, in which the tuning voltages for the capacitance diodes are tapped by a potentiometer and in which each oscillating circuit is assigned at least one capacitance diode that can be switched between the operating state as a variable capacitance (reverse direction) and forward direction. The invention consists in that the base point of the potentiometer is connected to ground via the switchable capacitance diode and a changeover switch for switching its operating state and that a switch is located between base point and ground which is closed when the capacitance diode is blocked. A stabilizer connected in parallel to the potentiometer in a manner known per se, in particular a Zener diode, ensures that the voltages set in the blocking range are kept constant. Ü To explain the invention in more detail, an exemplary embodiment is described below with reference to the drawings. These show in FIG. 1, a UHF resonant circuit 1, which has an inner conductor 3 arranged in a pot 2. The inner conductor 3 is connected on the one hand to a transistor 5 via a capacitance 4 and on the other hand to the associated tuning circuit via an inductance 6. The tuning circuit essentially contains two diodes 7 and 8, which in the present exemplary embodiment are connected to one another, ie have anodes connected to one another. The anodes are connected to the base 11 of the parallel connection of a potentiometer 12 and a Zener diode 13 via a high-frequency choke 9 and a resistor 10. The parallel circuit 12, 13 is connected to a positive operating voltage via a further resistor 14. Between the base 11 and the upper end of the circuit 12, 13, further potentiometers 12a, 12b, 12c are preferably switched on, which can be switched on by a pushbutton each and are used to switch on and coordinate further stations. The grinder 15, 15a, 15b, 15c of the potentiometers 12, 12 a, 12b, 12c are switches 16, 16 a, 16 b, 16c and two switches 17 and 18 with the opposing cathodes of the diodes 7 and 8 are connected. The switches 16 are connected, for example, to the station pushbuttons (not shown) of a receiver, which are also used to adjust the diodes for adjusting the potentiometer taps 15, 15a , etc. The changeover switches 17, 18 are each connected to a terminal with ground, while the other two terminals are connected to one another and to the terminals of the switches 16, 16 a, 16 b applied to the potentiometer taps 15. The switches 17, 18 are set in such a way that one switch arm is connected to ground and the other switch arm is connected to the potentiometer loop 15 via the switch 16. It is thereby achieved that in each case one capacitance diode, in the example shown the diode 7, is connected between ground and the base of the circuit 12, 13, while the other diode, here 8, is connected to the potentiometer tap 15. In this way, the diode 7 is switched in the forward direction, ie represents a short circuit for the HF oscillations, while the other diode 8 contains a reverse voltage, the magnitude of which is set by the potentiometer 12 and determines the capacitance of the diode 8 . When the switches 17, 18 are switched, the diode 7 is operated in the reverse direction and the diode 8 is short-circuited, so that the capacitance of the diode 7 is now effective, which is so different from that of the diode 8 that both diodes operate in two different frequency ranges result.

With multi-stage amplifiers it is possible that the In the same frequency ranges imaginary capacitance diodes 7 or 8 different Oscillating circles have scatter values. That means that with two, totally in type equivalent diodes in the different resonant circuits already have one diode draws a relatively strong short-circuit current when the other is still in the blocking range is operated. That means that a multi-stage amplifier with such, does not selected diodes may not be functional if its individual diodes scatter extremely. To avoid this disadvantage is between the connection point the diode 7, 8 and the base of the parallel circuit 12, 13 the resistor 10 switched on, the value of which is such that the current values of both diodes even at extreme Spreads are adjusted to one another. In practical trials this has been chosen Resistance a value of 50 to 100 Ω has proven to be favorable.

F i g. FIG. 2 shows an exemplary embodiment of the invention in which the same circuit elements as in FIG. 1 are provided with the same reference numerals. The main difference to F i g. 1 is that in FIG. 2 not one of the diodes is short-circuited and the other is blocked, but that here the switches are arranged so that optionally two identical diodes are connected in series when they are operated in the reverse direction, while in another switch position one diode is operated in the reverse direction and the other diode is switched in the forward direction. In this way, with two identical diodes, a tuning capacitance of the value of one diode is achieved in one operating position and a tuning capacitance of half the capacitance value of the diode is achieved in the other position. For this purpose, the diode 7 is always operated in the reverse direction, while the other diode 8 is switched by a switch 20 either in the reverse direction or in the forward direction. In this circuit, a further switch 21 is provided which, when the two diodes are operated in the reverse direction, connects the base 11 of the parallel circuit 12, 13 to ground.

Claims (4)

Claims: 1. Tuning device with oscillating circuits that can be tuned by capacitance diodes, in which the tuning voltages for the capacitance diodes are tapped by a potentiometer and in which each oscillating circuit is assigned at least one capacitance diode which can be switched between the operating state as a variable capacitance (reverse direction) and forward direction, thereby identifying - shows that the base point (11) of the potentiometer (12) via the switchable capacitance diodes) (7, 8) and a switch (18, 20) for switching their operating state is connected to ground and that a switch (7 in Fig. 1, 21 in Fig. 2), which is closed when the capacitance diode (8) is blocked. 2. Voting device according to claim 1, characterized in that the switch is one in the oscillating circuit switched on another capacitance diode (7), whose capacitance value is different from those of the first varactor is different. 3. Tuning device according to claim 1 or 2, characterized in that the capacitance diodes (7, 8) are connected to the base point (11) via a resistor (10). 4. Tuning device according to claim 1, characterized in that the switch (21) is arranged so that in one position both capacitance diodes (7, 8) are connected in parallel in the reverse direction and in another position a capacitance diode (7) in the reverse direction and the other (8) is operated in the short-circuit direction. Documents considered: German Auslegeschrift No. 1196 730.