DEP0035562DA - Receiver input circuit - Google Patents

Description

With the expected introduction of frequency-modulated radio transmitters, the task arises of finding ways and means to deal with the previously ■ Can use conventional and in-use dog radios for this purpose. Without further ado, this is not possible, 'da one normal radio receiver intended for amplitude demodulation

c_.L. 'is not able to generate frequency-modulated oscillations .g3 ^ 4 © k-g'Us? -i # i% th · »-« relatively small interventions in an already existing receiver for amplitude modulation made it possible to demodulate frequency-modulated oscillations

The 'invention makes a proposal to solve this problem. It consists in that the .frequency-modulated oscillations in a gate step Ytferden demodulates, and that the resulting low-frequency vibrations are modulated in amplitude to a high-frequency vibration which are then supplied to the receiver set up for amplitude demodulation. According to a particularly expedient embodiment According to the invention, the demodulation of the frequency-modulated oscillations is to take place in an audio circuit, the oscillation circuit opposite the carrier frequency is slightly out of tune »Wian detunes the oscillation circuit to such an extent that the carrier frequency in the middle of the is still as even the part to be viewed which lies on one of the two edges of the characteristic curve,

7 ~ "ö ± e ^^ oscillations ·.-In

The carrier frequency is detuned, s can of course also be used if you only want to demodulate frequency-modulated oscillations with the receiver. In this case you will do without a special · ^: attachment and provide the receiver with such an input fcuf e »,: - ■■

In this context it should be mentioned that an attachment for receiving frequency-modulated waves in the so-called Premodyne receiver is used used a tube working in pendulum feedback circuit * However, this known circuit transforms the receiving frequency first to an intermediate frequency and uses the pendulum feedback circuit to amplify the intermediate oscillations, Then these vibrations are demodulated and the low frequency obtained becomes the low frequency part of the normal radio receiver fed * This circuit only uses part of the dog radio reception «

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There are various possibilities for carrying out the invention, which will be discussed below. The first possibility has the advantage that no intervention in a receiver provided for receiving amplitude-modulated oscillations is required. Sa is also immaterial whether the recipient is a straight receiver, or whether he was working for the Überlagerungsprmnzip The precursor consists in this embodiment of a triode Hexode _s from the Hexodenteil used for demodulation · The obtained @ 4 <low-frequency vibrations are a in The oscillator voltage generated by the triode part of the tube is modulated »This modulation takes place in the hexode part of the tube. An amplitude-modulated high frequency is then obtained in its anode circuit, which is received by a receiver in the same way as an oscillation picked up by a receiving antenna

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is supplied by amplitude-modulated oscillations. It is advisable to choose the oscillator frequency so that it is not used The reception frequency of the receiver intended for amplitude modulation corresponds to *

The effort that is required for this preliminary stage is, however, less if one has a relatively minor intervention in allows the input circuit of the receiver «You can get by with a simple tube, e.g. a pentode, as a preliminary stage. The demodulation The frequency-modulated oscillations take place in the same way as in the first embodiment in an audio circuit, the oscillation circuit of which is out of tune with respect to the carrier frequency Tube you get the low-frequency modulation oscillation, which is coupled to the first grid of the input mixer and oscillator tube.

A special oscillator for modulating the low-frequency voltage to an I-hole frequency voltage is not required because one 'g ^ mäss ^ ii ^ sea ^^ Ä ^ te- ^ itea ^ agsiieJP-m can use the oscillator that is already present in a heterodyne receiver. Bs is in this case All that is required is a switchover, synchronized with the switchover of the receiver to the pre-stage intended for frequency-modulated reception of the oscillator to the intermediate frequency. The mixture is then placed in the hexode section of the receiver input tube the low frequency obtained during frequency modulation with the intermediate frequency In this case too, the entire intermediate-frequency and low-frequency amplifier channel of the existing Receiver used to receive frequency-modulated vibrations,

frequency-modulated transmissions in addition to an aperiodic antenna amplifier for the amplitude-modulated radio frequency barii, together to provide a receiver tuned to a certain frequency for frequency-modulated transmissions ο Biesetf "Receiver should be after An auxiliary transmission etf 'can be assigned to that older proposal, whose inside: half of the reception range of the JMp * catch rs for amplitude-modulated Radio broadcasts lie ndji ^ rägerwelle with the, obtained in the receiver low frequency amyllöudenmodeliert and on the cable of the communal system is transmitted. In contrast to the invention, this older goal stroke is a community one

Embodiments of the invention, which contain the two possibilities mentioned above, are shown in Figures 1 and 2 «

In the embodiment as shown in Figure 1, use is made of the above-mentioned idea that a separate door step is to be used is provided, which is connected upstream of a normal sound radio receiver without interfering with this receiver itself.

"" '"'" '1, which is assigned to input circuit 2

is coupled. This input circuit is tuned so that the reception frequency is on one of the flanks of the oscillation circuit located. The resulting A amplitude modulation is rectified in a subsequent audio circuit (HO element ^,

,. _{,, pr Rötoe} 4. To increase the Bmpfmadient the Hexodentexl the Hohre H-

r r;: r r: ■

; r r;: r

coupling circuit *** ^ * ' _{Triode part of} the tube * is adjusted using the potentiometer m ^

an oscillator oscillation is generated, which corresponds to the 2p. Control grid of the hexodes is fed in part. The oscillator oscillation is thus in the hexode part with the low frequency ¹ * obtained from the frequency-modulated oscillation! In the amplitude modulated, 4m anoeous oscillation circuit 6 of the tube 4 &% && ■ «/ ^ now represents an amplitude-modulated high-frequency oscillation which is fed to a normal radio receiver in the same way as an amplitude-modulated oscillation picked up by an antenna. The small degree of modulation, resulting in the modulation in the Hexode _s is advantageously increased, so that the recipient not the big 'is turned down straps »This is best done by the fact that the' afipTrtud ^ nmödulierteiAnodenv ^ echselspannung one their anti-phase AC voltage of the same frequency is added, for example by the fact that the base point of the circle 6 is led to a tapping point of the oscillator circuit? / ird ₉ which carries a carrier voltage that is phase-rotated by 180 °.

The embodiment according to Figure 2 shows a simplified design the gate stage provided for the reception of frequency-modulated oscillations, although there is a slight singing action in the input circuit of the radio receiver is required. The same reference symbols represent the same switching elements as in the exemplary embodiment according to Fig. 1 and therefore do not need to be explained in more detail the tube of the pre-stage, for which only an ordinary pentode 7 is needed here »The demodulation of the frequency-modulated ones takes place in this pentode Vibrations. The low-frequency oscillations obtained after demodulation are passed through a high-frequency filter 8 to the low-frequency transformer 9 supplied * The input circuit of the receiver has a switch 10 «This switch optionally switches the

Transmitter 9 or the first tuned circuit 11 of the radio receiver to the first control grid of the input mixer tube 12 "This mixer tube is a triode-hexode in the usual way. In the triode part - as usual - the superimposition oscillation is generated, which is fed to the second control grid of the hexode part »If the first matched circle 11 is on the first control grid of the tube 12, the mixing tube is quietly tfteerlagBrmig the receiving frequency <toa? Eh If the switch 10 is switched to the low-frequency transformer 9, the receiver oscillator is switched over at the same time according to this exemplary embodiment of the invention, using switch 13 and a fixed capacitor 14 of the resonant circuit coil of the oscillator connected in parallel with this capacitor 14 is dimensioned such that the natural vibration of the QszillatrfcjrSchwingkreises now coincident with the intermediate frequency by the exchanger 9 to the first control grid of the tube sf.2 supplied low frequency 'is in Hexodenteil R ear 12 modulated on the intermediate frequency and can then be further processed in the normal intermediate frequency and low frequency part of the radio receiver «

g§ Relationship- ·· be changed 9 without changing the meaning of the invention "'3m , for example, it is not necessary in the yo ^ tlife to use tubes that are undamped by electron-coupled feedback circuits. These only have the advantage that they in the fjce etlenz areas in question (VHF area) through a direct current potential

Claims (1)

7 - PATENT CLAIMS Id) Receiver input circuit for receiving frequency-modulated Vibrations in a receiver set up to receive amplitude-modulated vibrations, characterized in that the frequency-modulated Vibrations are demodulated in a preliminary stage, and that the resulting low-frequency vibrations are amplitude-wise a high-frequency oscillation are modulated, which then • 4
is fed to the receiver set up for amplitude modulation * 2 *) receiver input circuit according to claim 1, characterized in that the demodulation of the frequency-modulated oscillations in one The audio circuit is switched on, the oscillation circuit of which is somewhat out of tune with respect to the carrier frequency. 3 «) receiver input circuit according to claim 5:, characterized in that the audio circuit by an electron-coupled feedback is undamped Ψ.) Receiver input circuit according toF claims ^ 1-3 »characterized in that that the demodulation of the llexode part of a triode-hexode is used, and that the low-frequency oscillations obtained with an oscillator voltage generated by a triode part of the tube can be mixed in the hexode part of the tube » 5e) Receiver input circuit according to claim 4-, characterized in that an oscillator frequency is selected that is an unused one - 8 - The receiver frequency of the receiver intended for amplitude demodulation corresponds to * 6.) Receiver input circuit according to!; Claim 1-5, characterized gekennzeich.net j that the amplitude modulatedeii a voltage in phase opposition to the same frequency z g is added _? · "' t 't f / 7.) Receiver input circuit according to · iinsprucll ·; ^^ characterized in that the ffusspunkt of lying in the anode circle of the hexode part Oscillating circuit to a tapping point of the coil of the oscillator-oscillating circuit is laid » 8 «) Receiver input circuit according to ^ Claimf.l- ^ (t characterized in that the low frequency obtained after demodulation is switched to the input circuit of the receiver for amplitude-modulated oscillations _? And that at the same time as this switchover, the usual receiver oscillator is switched to the intermediate frequency *