DE1801290A1 - Oscillating circuit tunable to distant frequency bands, especially for shortwave receivers - Google Patents

Description

Oscillating circuit tunable to distant frequency bands, in particular for Eurzwellen recipients.

Patent application The short wave range intended for broadcasting purposes from approx. 6Xo to approx. 22.0 CET whose entire bandwidth is approx. 16 1Hz several broadcast bands with a total bandwidth of only approx. 1X5 MHz. It would be in For the purpose of easy tunability of the radio receivers, these radio bands are desirable (or parts of it) if possible over the largest part of the available setting scale of the recipient to stretch and compress the intermediate areas so that they only occupy very small areas of this scale.

The coordination of electrical oscillation circuits is known mostly by means of variable capacitors, in particular variable capacitors, or variable capacitors Self-inductions, in particular sliding coils, made. It is also known that changeable capacitors in their effect by controlled capacitance diodes can be replaced. at these will be the effective capacity of the Junction layer changed by a variable DC voltage. It is therefore possible For example, the input and oscillator circuit of a superposition receiver by means of to tune such diodes. The resulting frequency is a function of the Voltage at the capacitance diode. With suitable diodes or control voltages the synchronization between input and oscillator frequency can be maintained in this way that the difference between the two frequencies is constant over the entire tuning range remain.

The invention is based on the idea, the simple possibility Capacitance diodes by leaps and bounds, especially with several consecutive ones Jumps to control with regard to their capacity value for the compression of the Exploit intervals between distant frequency bands.

A trained according to the invention, on distant frequency bands tunable electrical oscillation circuit with a capacitance diode is accordingly characterized in that the bias of the capacitance diode for the purpose of compression the interval between the distant frequency bands can be changed by leaps and bounds. If the capacitance diode is provided as the only tuning element, the Arrangement made so that the bias thereof within the frequency bands can be changed continuously and by leaps and bounds in the interval between these. It is but also possible to bias the capacitance diode only between the distant ones To make frequency bands changeable, then to J-tuning within the frequency bands a variable tuning element, such as a variable capacitor or a sliding coil intended is and preferably the device for abruptly changing the preload the capacitance diode is coupled to the tuning element.

A superposition receiver for the reception of distant frequency bands, in particular a shortwave receiver, according to the invention contains in the input circuit and In the oscillator or mixing circuit synchronously controlled oscillation circuits of the above described art. Such a receiver has the advantage that the uninteresting, because the intervals between the radio bands are not used for broadcasting of the shortwave range are strongly compressed on the setting scale, i.e. little Take up space, which makes the greater part of the scale for voting in the broadcasting bands is available and therefore coordination is made much easier.

Two exemplary embodiments of the invention are shown in the drawing. Fig. 1 shows schematically the input part of the short wave receiver, in which both the tuning as well as the compression of the interval between the distant broadcast bands takes place with the help of capacitance diodes.

Fig. La shows the course of the trim voltage on the capacitance diodes as a function of the angle of rotation of the tuning element. Fig. 2 shows the input part of a Eurzwellen receiver, in which only the compression of the interval between the distant broadcasting bands with the help of varactor diodes, the tuning within the radio bands, however, is done with the help of variable capacitors.

2a again shows the course of the tuning voltage the Capacitance diodes depending on the angle of rotation of the tuning element, the input circuit E of the receiver according to FIG. 1 contains a capacitance diode CDI with a series capacitor Cs and parallel capacitor CpO The input voltage is in the with a transistor TR1 equipped self-oscillating Ljischstufe transposed to the intermediate frequency and with the help of a band filter Zf the only indicated by a 'Uransistor TR2 IF amplifier fed. The oscillator circuit 0 of the mixer also contains a capacitance diode CD2 with series capacitor Cso and parallel capacitor Cpo. The two capacitance diodes CDI and CD2 are connected to blocked resistors R1, R2 from a suitably designed potentiometer P, which serves as a tuning element, a tuning voltage Ua is supplied, the course of which depends on the angle of rotation a of the potentiometer is shown in FIG. The voltage Ua is within the broadcast bands separated by a non-broadcast interval B1 and F2 continuously changeable and changes between the neighboring limits these bands jumped so that these cutoff frequencies on the setting scale of the recipient come to lie directly next to each other.

The circuit arrangement according to FIG. 2 corresponds essentially to that according to Fig. 1, only that in this case the fixed series capacitors Cs and Cso in the input circuit E or in the oscillator circuit 0 by variable variable capacitors Ca and Cao are replaced, as indicated by a broken line K is coupled in synchronism are. In this embodiment 2a, the coordination Ua of the varactor diodes CDI and CD2 is only erratic changed between constant values, with the vote of the receiver within the radio bands F1 and F2 in the usual way by means of the variable capacitors Ca and Cao takes place. To change the voltage Ua abruptly, a switch S od. Like. Serve, which is preferably, as indicated by a broken line Kl has been coupled with the voting organs Ca, Cao in such a way that it is each at the limit frequencies of the radio bands is operated accordingly.

The requirements placed on the capacitance diode CDI in the input circuit E are high With regard to the quality Q, high demands are placed on the capacitance diode CD2 in the oscillator circuit 0 regarding dielectric strength. To achieve a high dielectric strength, two capacitance diodes can be used in a series push-pull circuit. the Oscillator voltage must be kept as small as possible, since it is the DC voltage is superimposed on the capacitance diode and thereby narrows the range of variation C.

In the case of a multiplicative mixture (e.g. with the ECH 81 tube), in most cases high oscillator voltages are required. A transistor oscillator can be used here and e.g. the triode ECH 81 can be used as an amplifier.

Of course, the circuits according to FIGS.

and 2 in an easily visible way on any number of distant frequency bands be expanded.

Claims (4)

P a t e n t. a n 5 p r ü c h e 1. Electrical oscillation circuit that can be tuned to distant frequency bands with a capacitance diode, in particular for shortwave receivers, characterized in that that the bias of the varactor for the purpose of compressing the interval between the distant frequency bands can be changed by leaps and bounds. 2. Oscillating circuit according to claim 1, characterized in that the voltage of the capacitance within the frequency bands continuous and can be changed by leaps and bounds in the interval between these. 30 oscillation circuit according to claim 1, characterized in that the bias of the capacitance diode only erratic in the interval between the distant ones Frequency bands can be changed and that for tuning within these frequency bands Variable tuning elements, such as Drenk capacitors or slide coils, are provided are, the device for the sudden relief of the bias voltage of the varactor diodes is coupled to the variable tuning element. 4. heterodyne receiver for the reception of distant frequency bands, in particular shortwave receivers, characterized in that the input circuit and the Cszillazor or. Mixing circuit through synchronously controlled oscillation circuits according to one of claims 1 to 3 are formed.