DE914866C - Transpose receiver with frequency counter-coupling - Google Patents

Description

Transposition receiver with frequency negative feedback The advantages of Frequency modulation for the transmission of messages by means of high frequency electrical Waves are justified by the fact that disturbance superimpositions of the useful energy result for the frequency-modulated wave as changes in amplitude caused by an amplification limitation provided in the receiver can be excreted. The frequency modulation can follow the course of tactile characters, image raster pulses, high-frequency or sound-frequency vibration mixtures.

In the case of a frequency-modulated alternating voltage, the degree of modulation is given by the frequency deviation, d. H. by the frequency difference between the largest and the smallest instantaneous frequency of the transmitter caused by the modulation. The bandwidth of the tuning circuits of the receiver or its high and intermediate frequency amplifier stages must correspond to the frequency deviation. The same must be provided in the frequency modulator Device that the frequency changes in the frequency deviation proportional amplitude changes converts, adapted to the frequency deviation in terms of their distortion-free control range be, d. H. the distortion-free control range must not be smaller than the frequency deviation be. -The best conditions for reception are given if the bandwidth of the high and intermediate frequency amplifier as well as the distortion-free control range of the frequency modulator are optimally adapted to the frequency deviation of the received wave, d. H. that the bandwidth to achieve the best possible tuning sharpness is not essential wider than necessary and is the distortion-free control area of the frequency modulator is also not significantly larger than necessary.

If you don't have that very cumbersome. Means applies bandwidth of the amplifier and distortion-free control range of the frequency demodulator dem to adapt the respective frequency deviation, this situation now requires di: e on the one hand Need to adjust the bandwidth of the high and intermediate frequency amplifier and the Control range of the frequency demodulator of the receiver for several transmitters with different To adapt the frequency deviation to the largest occurring frequency deviation, and on the other hand: thereby the disadvantage that the transmitter energy has a small frequency deviation with a weaker modulation result Will be received.

It is now known to use the method of transpose reception Frequency demodulation to reduce the shortcomings mentioned by the fact that the receiver oscillator is provided with a device that has the purpose and mode of operation, a modulation frequency control of the oscillator frequency by means of a branched off To bring about a component of the modulation voltage obtained in the frequency demodulator, whose phase sense and size are set so that the resulting frequency deviation adapted to the distortion-free modulation range of the frequency demodulator stage is. The frequency of the oscillator determines together with the frequency. the received High frequency source the intermediate frequency. If the frequency of the received wave fluctuates, so the intermediate frequency fluctuates to the same extent: it is now also the oscillator frequency changed, namely in phase proportional or out of phase proportional to the Frequency change of the received wave; this creates an intermediate frequency with a larger one or a smaller frequency deviation than that of the received wave: the measure allows it so; the frequency deviation of the high-frequency voltages present at the intermediate frequency amplifier optimally the bandwidth and the distortion-free control range of the frequency modulation stage adapt.

In the sense of the modulation voltage obtained in the frequency demodulator can be the in-phase or anti-phase change of the oscillator frequency as a gain be perceived by feedback or weakening by negative feedback. One can the feedback channel, which feeds the modulation voltage from the frequency demodulator Oscillator stage conducts, make frequency dependent by electrical timing elements, so that a frequency-dependent amplification or weakening of the modulation frequency Vibration mixture can be made.

The negative feedback effect can of course also be used in a known manner Equalization apply.

However, these known arrangements still have the disadvantages that the output voltage is not constant with frequency negative feedback. It depends on, through the regulation of the frequency deviation in the intermediate frequency amplifier Conditional influence on the overall gain with regard to the modnation frequencies Not to let the output voltage of the arrangement become effective, .so according to the invention a corresponding either inevitably coupled with the frequency deviation control or Automatic device provided, which compensates for the opposite influence the overall gain causes. This is done in such a way that with the regulation of the modulation frequency control voltage, which the device for changing the Oscillator frequency is fed, at the same time the modulatonsfrequente input voltage for the modulation frequency amplifier is changed accordingly.

The fact that the oscillator frequency according to the given condition Controlled by means of a voltage can lead to an additional improvement in the technical properties of the receiving arrangement are evaluated. Slow transmitter frequency fluctuations, For example, those resulting from changes in the transmitter's tuning are generated in the Frequency demodulation stage of the receiver a slowly fluctuating DC voltage, which is superimposed on the demodulation voltage. This DC voltage becomes the oscillator stage supplied as a frequency control voltage, in such a way that the oscillator frequency change compensates for the slow transmitter frequency fluctuation for the intermediate frequency amplifier, this makes the receiver largely independent of fluctuations in the transmitter frequency, which do not originate from the useful modulation: The amplitude limitation of the receiving arrangement can for example by means of a suitable voltage divider circuit in the control grid circuit the limiter tube are made, advantageously approximately so that of the to be limited Voltage, which is possibly superimposed with a DC voltage and on the one hand to the cathode, on the other hand to the grid of the tube via a high-resistance resistor is placed, the negative voltage peaks fall outside the control range and the positive voltage parts as a result of the grid current at the high-resistance resistor Suffer voltage drop, so that their different sized peaks for the effective Control of the anode current of the limiter tube.

Claims (1)

PATENT CLAIM: Transposition receiver with frequency negative feedback, the intermediate frequency part of which is equipped with a frequency demodulator and the oscillator of which is provided with a device which has the purpose and mode of operation to effect a modulation frequency (auditory frequency) control of the oscillator frequency by means of a branched component of the modulation voltage obtained in the frequency demodulator, characterized in that with the regulation of the degree of the oscillator frequency change at the same time a device is effective which makes the modulation frequency output voltage of the receiver independent of the regulation. Cited references: U.S. Patent No. z 075 503; German patent specification No. 643 884.