DE2044636A1 - Circuit for tuning a radio or television receiver to various receiving frequencies by means of capaci tatsdioden - Google Patents

Description

Circuit for tuning a radio or television receiver different reception frequencies by means of varactor diodes. or television receivers to simplify station selection for the operator and to certain, selectable stations at any time without a special setting of the It is known to be able to hear or see voting organs of the recipient, the recipient to be provided with so-called station buttons, each with a selectable receiving frequency assigned. Only the relevant station button is required to select a station to be pressed. The assignment of the individual reception frequencies to the station buttons happens with superimposition receivers with a vote by means of varactor diodes as is well known (Funkschau 1968, page 587) that for each station button a Potentiometer is provided for generating the tuning voltage.

These circuits have the disadvantage that for each selected transmitter two operating elements, namely a station button and an associated potentiometer rotary knob, or a single, complex one that combines the two operating functions Control element is required. Another disadvantage is that the many mechanical potentiometers to be set are susceptible to vibrations and contamination.

The invention is therefore based on the task of selecting different Reception frequencies using the station buttons described and the assignment the different reception frequencies for the individual station buttons.

The invention relates to a radio or television receiver with a circuit for tuning to different receiving frequencies by means of varactor diodes. According to the invention, the control voltage for tuning the varactor diodes is on the different receiving frequencies are each stored by a capacitor, by using a good insulation of the capacitor and a low one Load is held at this control voltage and that of a number of several Capacitors can be selected by a push button or the like, and further the capacitors are separated by a potentiometer that is common to all capacitors switchable. So that the load on the capacitor is negligible, there is they advantageously consist of a field effect transistor. To ensure that an im Normally only small, unwanted discharge of the capacitor the exact coordination of the capacitance diodes is not influenced when tuning the varactor to a frequency that is close to the selected reception frequency, the capacitor in a further development the invention is advantageously recharged by a transistor whose control electrode with the output of a control voltage generator, in particular a ratio detector, is connected, so that the recharging of the capacitor when tuning the Kapßzitätsdioden is interrupted on the selected reception frequency. At the same time is done this way guarantees that the capacitor always returns to the voltage after switching off is charged, which corresponds to the reception frequency assigned to it.

In the event that the capacitor has discharged so far that the The aforementioned retuning by means of recharging the capacitor no longer works can, e.g. if the recipient in question does not has been put into operation, then it is advantageous that when you press the pushbutton In addition, a contact is closed through which a this pushbutton assigned second capacitor recharged to a fixed voltage via a resistor is, and that generated by the charging current of the second capacitor at the resistor Voltage controls the transistor in the on-state, so that a loss of Charge of the first capacitor is almost balanced. If a capacitor is e.g. is switched off when another station button is pressed, then that is him associated second capacitor fully charged. With an appropriate dimensioning of the second capacitor, it discharges approximately as quickly as the first Capacitor. Since the aforementioned, the transistor when turning on one of the voltage controlling first capacitors to the on-state during a period of time exists, the duration of which corresponds to the size of the lost charge of the second and accordingly is also approximately proportional to the first capacitor, becomes the first capacitor despite the undesired discharge recharged so far that the varactor diodes again be tuned to the selected receiving frequency or that the one described above Post-tuning by means of reloading begins to work.

When the capacitor adjusts the capacitance diodes to the selected receiving frequency has matched, then the transistor should no longer recharge the capacitor. That's why is advantageous in a further embodiment of the invention between the transistor and the capacitor one with respect to the forward charging current of the capacitor polarized diode and parallel to the series connection of the capacitor and the diode a resistor switched. This will prevent some Transistor types not negligible residual current the capacitor even after the desired recharge in an undesirable manner. The current through the The transistor generates a voltage across the resistor which decreases with decreasing current also becomes smaller and the diode; e blocks when it is smaller than the Voltage of the capacitor. This is especially the case when the current is through the transistor on the residual current has decreased. But as well as the tension at the capacitor drops and the capacitance diodes are detuned, the transistor becomes controlled to the current-carrying state again.

The current through the transistor creates such a large voltage as a result on the resistance that the diode is opened again.

According to a further embodiment of the invention is used for charging of the capacitor a circuit for automatic transmitter search instead of the potentiometer. The capacitor is either direct or with the interposition of an isolating amplifier to the output of the circuit which supplies the control voltage for the capacitance diodes switched to automatic station search.

The invention is based on an embodiment that is in the Drawing is shown, explained.

The capacitors 11, 12 and 13 according to the invention are each with Switches 1, 2 and 3 operated by a station button to the control electrode of the Field effect transistor 23 placed, which with the resistors 30 and 31 one the capacitors 11, 12 and 13 forms a low stress isolating amplifier, so that between the terminals 24 and 25 is the tuning voltage for the capacitance diode 32, which is the charge of the each with one of the three switches 1, 2 or 3 to the control electrode of the field effect transistor 23 connected capacitors 11, 12 or 13 corresponds. The capacitance diode 32 forms with the coil 33 a resonant circuit.

Should the receive frequency assigned to one of the capacitors 11, 12 or 13 are changed, e.g. for the capacitor 11, the capacitor 11 with the Switch 1 and the switch 7 to be operated for manual adjustment via the resistor 21 connected to the wiper of a potentiometer 20. The potentiometer 20 is on between the operating voltage UB and ground. The position of the wiper of the potentiometer 20 determines the voltage to which the capacitor 11 is charged.

The resistor 21 is used to limit the charging and discharging current of the capacitor 11. The capacitor 22 prevents voltage jumps from occurring during manual adjustment.

If the capacitor 11 corresponds to the selected receiving frequency charged, the switch 7 is opened again, so that the tuning voltage between the terminals 24 and 25 only from the charge of the capacitor 11 and no more is determined by the potentiometer 20.

The capacitor which has just been connected, e.g.

again the capacitor 11, connected to the collector of the transistor 17. A resistor 18 is parallel to the series circuit of the diode 19 and the Capacitor 11. The one generated at resistor 18 by the current through transistor 17 Voltage controls the diode 19 into the energized state when it is related to the amount of the ground potential is greater, i.e. more negative, than the voltage at the capacitor 11. If this is the case, the capacitor 11 is recharged. The base of the transistor 17 is described by the voltage on the case with its cathode connected to the operating voltage UB Dipde 14 controlled.

The diode 14 is connected to be live via the resistor 15.

The diode voltage is applied to the base of the via resistor -16 Transistor 17-. In the steady state, the influence with switch II at the same time with the actuation of the switch 1 via the resistor 32 to the base of the transistor 17 connected capacitor 8-the voltage at the base of transistor 17 does not, since he is charged to this voltage. The second control electrode of the Transstör-s 17, the emitter, is connected to the N4leder frequency output 29 of the -Ratio-Petector 28-connected in a manner known per se. When voting of the receiver over a frequency range in which a transmitter occurs called low frequency output a direct current component corresponding to a so-called S-curve, which, depending on the frequency offset, is negative or positive with respect to the Reference voltage, in the case described is -UB in relation to the operating voltage. At a Voting the capacitance diodes to a frequency below the selected frequency Receiving frequency, e.g. in the event of an undesired discharge of the capacitor 11, the emitter of transistor 17 is negative with respect to the operating voltage -UB. . This means that the transistor 17 is energized and the capacitor 11 recharges and thus readjusts the capacitance diodes. When the selected reception frequency is reached, the emitter of transistor 17 is positive again, so that the current by the transistor 17 is lower. This has the consequence that the voltage drop at the resistor 18 is so small that the cathode of the diode 19 is positive compared to its anode or with respect to the voltage on the capacitor 11 and the diode 19 is blocked and so that the recharging of the capacitor 11 is interrupted. The capacitor 26 serves as a short circuit for the also to the emitter of the transistor 17 reaching low frequency voltage of the ratio detector 28.

If the capacitor 11 is switched off by opening switch 1, so at the same time the capacitor 8 by opening the switch 1 'of the base of the transistor 17 is switched off. If now the capacitor 11 has a sc is not switched on for a long time for voting and not in between is recharged via the potentiometer 20, so that its charge when switched on again by means of switch 1 no longer to match the capacitance diodes to the selected one Receiving frequency is sufficient and also the retuning circuit with transistor 17 can no longer work because of the excessive frequency deviation, then the capacitor causes 8 a brief recharge of the capacitor 11. This is done by the fact that the Switch 1 ′, at the same time as switch 1, connects capacitor 8 via resistors 32 and 16 and the diode 14 connects to the operating voltage UB and charges it. The charge lasts at given values for resistors 16 and 32, the longer, the greater the previous discharge. So that will depend on the charging current of the capacitor 8 at the resistor 16 the longer the voltage generated, the longer the also discharged capacitor 11 must be charged in order to vote again of the varactor diodes to the selected receiving frequency required charge obtain. Towards the end of the recharge, the one via the emitter of the acts again Transistor 17 controlled reloading with low frequency deviation.

Corresponding to the activation of the transistor 17 by the voltage of the capacitor 8 when pressing key 1 and the one taking place at the same time When the contact 1 'closes, the transistor 17 is activated when the button 2 or 3 controlled by the voltage of the capacitor 9 or 10 via the contact 2 'or 3'.

Claims (6)

P a t e n t a n s p r il c h e 9 Circuit for tuning a radio or television receiver to different reception frequencies by means of varactor diodes, characterized in that that the control voltage for the coordination of the varactor diodes to the different Reception frequencies are each stored by a capacitor (11,12,13), the by using a good insulation of the capacitor (11,12,13) and by a low load is kept on this control voltage and of a number of several capacitors (11,12, 13) by a push button (1,2,3) or the like is selectable, and that the capacitors (11,12,13) to one for all capacitors (11,12,13) common potentiometer (20) can be switched on separately. 2. Circuit according to claim 1, characterized in that the load of the capacitor (11,12,13) consists of a field effect transistor (23). 3. A circuit according to claim 1, characterized in that when voting the capacitance diodes to a frequency that is close to the selected receiving frequency, the capacitor (11, 12, 13) is recharged by a transistor (17), the control electrode of which with the output of a control voltage generator (28), in particular a ratio detector, is connected, so that the recharging of the capacitor (11,12,13) when voting the Capacitance diodes is interrupted at the selected receiving frequency. 4. A circuit according to claim 3, characterized in that when pressed the push button (1,2,3) also a contact (1 ', 2', 3 ') is closed over the one of these pushbuttons (1,2,3) assigned to the second capacitor (8,9,10) a resistor is recharged to a fixed voltage, and that of the charging current of the second capacitor (8,9,10) across the resistor generated the transistor (17) controls in the on-state, so that a loss of the charge of the first capacitor (11,12,13) is almost balanced. 5. A circuit according to claim 3, characterized in that between the transistor (17) and the capacitor (11,12,13) one with respect to the charging current of the capacitor (11,12,13) in the forward direction polarized diode (19) and parallel to the series circuit of the capacitor (11,12,13) and the diode (19) a resistor (18) is switched. 6. A circuit according to claim 1, characterized in that for charging of the capacitor (11,12,13) instead of the potentiometer (20) a circuit for automatic station search is used, the capacitor (11,12,13) directly or below Interconnection of an isolating amplifier to which the control voltage for the capacitance diodes is supplied supplying output of the circuit for automatic station search is switched. L e r s e i t e