DE2836608A1 - Switching and amplifying stage for AM receiver - has electromechanical resonator in tune with antenna on RF input circuit to increase bandwidth selection - Google Patents

Abstract

The input switching and amplifying stage for an AM receiver uses a room or ferrite rod aerial. The input stage uses an electromechanical resonator, an electrostrictive unit (2) in the input circuit with the antenna (1). The units can be used in parallel resonance, to increase the bandwidth options.

Description

Input circuit for receiver and antenna amplifier of electromagnetic

Signals The invention relates to an input circuit for receivers and antenna amplifiers for electromagnetic signals, especially for devices and systems that use an antenna that is very short compared to the wavelength.

The dimensions of receivers and antenna amplifiers can be increased by the use of integrated circuits can be made very small. Let against it di.e dimensions of the antennas when using conventional circuits, without Do not reduce the loss of sensitivity any further. For car antennas, portable radio receivers, Two-way radios, remote control receivers, avalanche search devices and the like, and alarm devices however, a further reduction in the size of the antennas would be of great advantage.

Radio receivers with ferrite antennas do not even come close to that Limit sensitivity given by the atmospheric and cosmic noise. That The same applies to receivers with rod antennas in the AM areas because the antenna must be coupled very loosely to the resonant circuit. This loose coupling is required because otherwise minor changes in the antenna capacity - e.g.

by an object near the antenna or in the event of fluctuations the antenna - will already detune the receiver's input circuit in an inadmissible manner. Microphone effects can also occur here, particularly in the case of vehicle antennas. Furthermore, the receivers are usually matched capacitively, ie. the input capacitance is a multiple of the capacitance possible without a tuning capacitor. That means a reduction in the input impedance of the receiver and, in the case of short antennas, a corresponding reduction in sensitivity.

With the arrangement described below, Compared to the wavelength, very short antennas receiver sensitivities achieved by the atmospheric disturbances and the cosmic noise limited are. For this purpose, according to the invention, receivers and antenna amplifiers for electromagnetic Signals in the antenna circuit or receiver input circuit an electromechanical resonator arranged.

The arrangement according to the invention also has the advantage that despite great selectivity and fixed coupling of the antenna to the receiver Detuning is negligible when there is a capacitive influence on the antenna. Farther the arrangement has a good large-signal behavior, especially when in use in antenna amplifiers because nnr the sensitivity for the preferred to be received Signals is greatly increased.

Further features and details of the invention emerge from the The following description of exemplary embodiments on the basis of the figures. It shows: Fig. 1 An input circuit in which the electromechanical resonator is in parallel is arranged to the receiver entrance.

Fig. 2 An input circuit in which the electromechanical resonator arranged in the line between the antenna and the electromechanical resonator is.

3 shows an input circuit with a broadband transmission path and a transmission path with several electromechanical resonators.

Fig. 4 An input circuit with a ferrite antenna and an electromechanical Resonator.

For example, in Fig. 1, the antenna 1 is one versus wavelength short rod antenna. The electromechanical resonator 2 is preferably electrostrictive excited. For example, it is an oscillating crystal. The signal is in the field effect transistor 3 reinforced. The opposite pole to the antenna is the device ground or earth 4.

The capacitor 5 and the inductor 6 form a high-pass filter, the Weakens frequencies below the desired transmission range. Possibly the input circuit can also be used as a bandpass filter, e.g. by inserting a further inductance in series with the capacitor 5. The field effect transistor 3 is in a known manner with a source resistor 7, one him capacitive bridging source capacitor 8 and a drain resistor 9 connected. The amplified signal is picked up at 1o.

The circuit can be used as the input circuit of a broadband car antenna amplifier, with a transmission range of 1ooKHz to 30MHz, used values, the parallel resonance of the electromechanical resonator 2 - taking into account the impedance of the circuit - is on the frequency of a weak one at the receiving location that is preferred to be received Transmitter. For example, the home transmitter can receive that from the distant holiday destination shall be.

The equivalent circuit diagram of an electrostrictively excited electromechanical Resonator is a series resonant circuit. The series capacity CS, the parallel capacity @ and the inductance of the equivalent switching shield granularly by choosing the oscillator and pathogen material to be adapted to the application. Favorable for the application in Fig. 1 is when the capacitance CS is much smaller than the antenna capacitance e '; and e.g. 0.1pF. Then changes in the antenna capacity have no significant effect Influence on the resonance frequency. Even if the parallel capacity @ C is proportionate is small (<5pF), then Fig. 1 is an arrangement in which a resonant circuit with large Giite and small capacities - so large impedance - @ est to the antenna is coupled without the risk of an inadmissibly large Verskunnybg, / the large resonant circuit impedance has a very low equivalent input noise voltage of the amplifier. This can also be used with extremely short antennas (e.g. antenna length less than one hundredth of the wavelength) Detection sensitivities that can only be achieved by atmospheric disturbances or cosmic noise are limited.

By connecting more than two electromechanical resonators in parallel having different resonance frequencies can increase the sensitivity for multiple signals be raised. When connected in parallel, only the parallel capacitance Cp interferes, so that one will usually not connect more than ten resonators in parallel.

The summation of the parallel capacitances Cp can be avoided if the resonators via preferably electronic switches optionally with the antenna circuit get connected.

Electromechanical resonators whose equivalent circuit is a parallel resonant circuit are not as well suited for the task described as their resonators Equivalent circuit: image is a series resonant circuit. But they are also usable when the internal parallel capacitance is relatively large (e.g. greater than 100pF) and the resonator has a small internal or external capacitance (e.g. less than 1pF) is coupled to the antenna circuit. If the internal capacity is small (e.g. smaller than 10pF) then the sensitivity can also be improved in some applications, however, the resonant circuit is no longer insensitive to detuning.

Fig. 2 shows an arrangement in which the electromechanical resonator arranged in the connection line between the antenna and the amplifier input is.

Here the resonance of the PI element, consisting of the antenna capacitance, the electromechanical resonator and the amplifier input capacitance.

Because of the separation of the antenna capacity and the amplifier input capacity due to the resonator the circuit is even more sensitive than the circuit after Fig. 1.

Here, too, several electromechanical resonators can be connected in parallel will. Furthermore, to adjust the transmission factor for not in resonance with to improve the signals located in the resonators, in parallel with the resonators a capacitor (e.g. 1opF) can be arranged.

Fig. 3 shows an arrangement in which the broadband signal over the amplifier 14 is transmitted and in which three resonators 2 in front of another Amplifier 13 are arranged. Behind the amplifiers, at output 15, are the signal paths reunited.

Ferrite antennas and loop antennas have the advantage that they are within of the recipient can be arranged. However, their effective antenna height is llncl.

thus the sensitivity of the receiver is low. By (Fig. 4) the Ferrite antenna or loop antenna 16 with electromechanical resonators in resonance is brought, the detection limit for weak signals can be compared to improve conventional circuits significantly. The improvement is special great if the large circular gaps of electromechanical resonators are used can be. In the arrangement according to FIG. 4, resonators are also its equivalent circuit diagram a parallel resonant circuit can be used advantageously, even if the Parallel capacitance is relatively small.

In the case of antenna amplifiers and radio receivers, the electromechanical P.esonators have relatively few reception channels in a reception area comprising many channels raised in sensitivity. For other applications, e.g. two-way radios, Avalanche search devices and remote control devices, each receiving channel can be an electromechanical be assigned to resonator.

By shifting several resonators slightly in frequency and / or by connecting several acoustic resonators, the transmission factor of these Konbf'nat ion can be equipped with a bandpass characteristic. This measure It is to be distinguished from a further advantageous arrangement in which a resonator several resonance frequencies spaced apart by at least one reception channel width owns. With which several signals can be received with one resonator.

The circular quality of the electromechanical resonators is often for the application too big. There can then be the parallel resonance, especially the outer ones Capacities are included, through damping components, in particular resistors, be attenuated. For example, a resistor in series with the antenna capacitance and / or Amplifier input capacitance can be inserted.

It is even more favorable for the signal-to-noise ratio if the bandwidth of the Resonance of the input circuit with the electromechanical resonator through negative feedback The electromechanical resonators can be arranged in the receiver entrance be.

It is advantageous if they are replaced from the outside of the device can be (e.g. by means of plug connections). It is especially true for car antennas but it also makes sense to place the resonators directly at the base of the antenna if mechanically connected to the antenna, to be arranged.

To increase the sensitivity of recipients afterwards the electromechanical resonators are arranged in an additional device. That The output signal of the additional device can be connected to the receiver via cables will.

In order to avoid the line connection that has to be created later but it is cheaper to give the signal in the additional device to an antenna and from to couple this antenna to the antenna of the receiver. For this purpose, e.g. rod, Ferrite and loop antennas are used. If frequency conversion in the additional device is used, then the same antenna can be used in this device for receiving and Resending the signal can be used. Because of the small distance between the antennas of the additional device and the receiver, the transmission power can be so low be kept that the legal regulations are not violated. In the As a rule, the signal is amplified in the additional device.

With a relatively tight signal coupling between the devices, however, it is sufficient even in the additional device only with passive components, especially the electromechanical ones Resonators to work.

The invention is not limited to di.e application examples, in particular Transformation elements, coupling elements and filters can be inserted into the circuits as well as other amplifier components.

L e r s e i t e

Claims (9)

Claims 1. Input circuit for receiver and antenna amplifier of electromagnetic signals, characterized in that the antenna circuit or Receiver input circuit is arranged at least one electromechanical resonator. .9. Input circuit according to Claim 1, characterized in that the resonance frequency from the impedances of the electromechanical resonator together with the impedances of the antenna circuit and receiver input circuit results is equal to the frequency of the signal to be received. 3. Input circuit according to claim 1, characterized in that the length of the antenna is much shorter than a quarter of the wavelength of the one to be received Signal is. 1 |. Input circuit according to Claim 3, characterized in that the length of the antenna shorter than a hundredth of the wavelength of the one to be received Signal is. 5. Input circuit according to claim 1, characterized in that the antenna is a Ferri-t or loop antenna C. Input circuit according to claim 2, characterized in that the resonance at the amplifier input is a parallel resonance is. 7. input circuit according to claim 1, characterized in that the electromechanical resonator parallel to the antenna circuit and / or parallel to the Receiver input circuit is arranged. 8. input circuit according to claim 1, characterized in that the electromechanical resonator in the line between the antenna and the receiver input is arranged. 9. input circuit awake to claim 1, characterized in that several electromechanical resonators for different reception frequencies with different resonance frequencies are arranged in the circuit and that the electromechanical ones that are not in resonance with the receiving frequency Resonators cannot be separated from the circuit by switches. 1o. Input circuit according to Claim 1, characterized in that several clektromechanical resonators are so offset in frequency and / or are coupled to one another in such a way that the resulting transmission factor of the input circuit Has band pass character. 11. Input circuit according to claim 1, characterized in that the electromechanical resonators are plugged in and from the outside of the device are allswecilselbar arranged. 12. Input circuit according to claim 1, characterized in that the electromechanical resonators are mounted on the antenna. 13. Input circuit according to claim 1, characterized in that the alektromcchanischen resonators are arranged in an additional device and that the additional device galvanically or capacitively or inductively to the antenna or the Receiver input is coupled. 14. input circuit according to claim 13, characterized in that the coupling takes place via antennas. 15. Input circuit according to claim 14, characterized in that the antennas are ferrite antennas or loop antennas. 16. Input circuit according to claim 13, characterized in that only passively operating circuits are arranged in the additional device. 1?. Input circuit according to Claim 1, characterized in that the bandwidth of the input circuit is n reception channels and that m is electromechanical Resonators are arranged in the input circuit and that n> m. 18. Input circuit according to claim 17, characterized in that to is. 19. Input circuit according to claim 17, characterized in that the input circuit is split into at least two ways and that in one first .Jeg no electromechanical resonators are arranged and that this Path has a bandwidth of n reception channels and that in at least one second Way the electromechanical resonators are arranged and that the Wegc after the first amplifier stage are reunited. 20. Input circuit according to claim 1, characterized in that the leektromechaniscche resonator is an electrostrictively excited solar door. 21. Input circuit according to claim 20, characterized in that those in the Rrsatzschalthild of the electromechanical resonator in series with the inductance lying capacitance CS is smaller than the antenna capacitance CA. 2. Input circuit according to Claim 21, characterized in that CS @ 0.1CA is. 25. Input circuit according to Anspruci 1, characterized1 that the electromechanical resonator has several resonances that are different Resonance frequencies equal to the frequencies of preferred signals to be received are. 24. Input circuit according to claim 20, characterized in that the electromechanical reconator is an oscillating crystal. 25. Input circuit according to claim 8, characterized in that a capacitor is arranged parallel to the electromechanical resonator. 26. Input circuit according to claim 1, characterized in that the bandwidth of the parallel resonance and / or the series resonance due to resistors or other damping components or circuits is enlarged.