DE1261194B - Circuit arrangement for the distortion-free reproduction of a received RF stereophony signal - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

H03d

German class: 21 a4 - 29/01

Number: 1261194

File number: Z11403IX d / 21 a4

Filing date: March 12, 1965

Open date: February 15, 1968

The subject of the main patent is a message receiving device for frequency-modulated vibrations different broad spectrum for monaural and stereophonic reproduction, with both types of reception the frequency-modulated oscillations of different spectrum use the same filter and one common IF amplifier pass through, the same as the filter required for mono operation Minimum bandwidth is designed, and wherein to reduce the frequency deviation by frequency negative feedback In addition to the static feedback for automatic focus adjustment, there is also a dynamic feedback Feedback from the demodulator to the mixer is provided.

In a further development of such a circuit arrangement, the invention relates to a circuit arrangement to avoid distortion when playing back a received HF stereophony signal, caused by the HF-IF part and the frequency demodulator of a stereo receiver will.

For low-distortion decoding of HF stereophony signals it is necessary that already at the output of the frequency demodulator of the receiving device a largely distortion-free Stereophome signal is available. Due to the finite time constant of the frequency demodulator, which is determined from its internal resistance and the capacitive load, however, are linear Distortions. In addition, linear and non-linear distortions of the stereophony signal arise due to the technically limited bandwidth of the RF-IF part of the receiver for economic reasons.

It is known that the resulting linear distortion can be reduced by pre-emphasis elements connected downstream of the frequency modulator. The use of frequency negative feedback is known to suppress the described non-linear distortions. In a circuit arrangement with frequency negative feedback and a correction element in the negative feedback path to eliminate the weakening of the degree of negative feedback of the high useful modulation frequencies caused by the group delay in the transmission path, containing an effective resistance and an oscillating circuit tuned to approximately the highest modulation frequency, this oscillating circuit is located in the shunt branch without a resistor connected in series of the negative feedback path. In the inductive branch of this resonant circuit, a damping resistor dimensioned such that the amplitudes of the circuit arrangement for distortion-free
Play a received
RF stereo signal

Addendum to the patent: 1231 313

Applicant:

Central laboratory for radio and

Television reception technology,

Dresden N15, Am Lagerplatz

Named as inventor:

Dipl.-Ing. Günther Schumann, Dresden

negative feedback voltages with increasing frequency in the useful modulation frequency range like this be enlarged that their projections on the direction of the negative feedback voltage for deep Frequencies have exactly or approximately the size of this negative feedback voltage.

With this circuit arrangement it is achieved that the higher useful modulation frequencies by the Frequency negative feedback is not reduced relative to the behavior without frequency negative feedback will. Nevertheless, there is no guarantee that in the case of stereophonic reception this will result in am The desired, undistorted HF stereophony signal is available at the output of the frequency demodulator stands. The only thing that is achieved is that, with the given bandwidth, the Frequency deviation occurring distortions can be avoided by the correction element one for all Modulation frequencies uniform frequency coupling is achieved. But this is more high-frequency stereophonic when receiving Signals not necessarily wanted.

A message receiving apparatus according to the main patent has also been proposed. With this one A message receiving device has been dispensed with a correction element to increase the higher modulation frequencies, which are therefore not so strongly fed back will. It has been shown, however, that a significantly better transmission of the HF

809 508/115

Stereophony signals at the given, for monaural Reception certain bandwidth is achieved as without frequency negative feedback or as with Frequency negative feedback with one that increases the high frequencies and thus strongly negative feedback Correction link. But there is still distortion of the stereophony signal at the output of the Frequency demodulator.

This still existing linear and non-linear distortion is to be reduced at the same time Purpose of the invention.

It has been shown that it is not sufficient for stereo reception to use frequency feedback To reduce the frequency deviation in order to make do with the limited bandwidth of a receiver, or a uniformly strong frequency negative feedback of the voltages of all modulation frequencies by means of correction elements to achieve, but that the voltage present at the frequency demodulator as possible must be uniform.

The invention is therefore based on the object of providing a circuit arrangement for distortion-free Playback of a received RF stereophony signal to train so that the output of the Frequency demodulator occurring voltage has a uniform amplitude over all frequencies.

This object is achieved according to the invention in that in a circuit arrangement with frequency negative feedback and a correction element in the negative feedback branch that between the output of the frequency demodulator and the coupling to the HF-IF part the correction element located in the receiving device as a frequency-dependent network that more strongly suppresses the high modulation frequencies. is formed.

This ensures that the voltages at the output of the frequency demodulator or at the input of the stereo decoder have uniform amplitudes regardless of the frequency. Nevertheless there is also a reduction in the bandwidth of the required for HF stereophony signals HF-IF part of the receiver. By more or less strong derivation of the higher modulation frequencies with the correction element, the signal that can be removed at the frequency demodulator can be affect that center information and side information possibly according to the conditions in themselves subsequent stereo decoders are of different sizes and thus optimal crosstalk attenuation without additional funds can be achieved in the decoder.

Regardless of the weaker negative feedback of the higher frequency voltages according to the invention can have a basic amount of negative feedback that is uniform for all frequencies for all frequencies be made uniformly more or less large. It is achieved that the inventive The advantage is that the frequency demodulator output is independent of the frequency and has the same amplitude in terms of amplitude To maintain tension, with the well-known advantage of more or less large bandwidth savings is combined depending on the stroke reduction caused by frequency negative feedback. If in a feedback from the frequency demodulator output a filter element for automatic Sharp tuning is provided, the correction element is arranged in parallel to it. As a favorable design of the correction element, an LC element with an upstream effective resistance is recommended, whereby the capacities are provided as derivatives.

An embodiment of the invention is shown in the drawing and should be based on the same are described in more detail.

The VHF receiver circuit shown contains an RF and mixer part 1, connected to one Oscillator 23, which has an oscillator circuit 24. This is followed by an IF part 2 and Frequency demodulator 3, at the output of which consists of center information, side information and Pilot carrier existing multiplex signal removed and increased when receiving a stereophonic broadcast is passed to a stereo decoder, not shown. From the output of the frequency demodulator 3 to Oscillator circuit 24 is a negative feedback branch 25 with a frequency-dependent correction element 26 provided. The correction element 26 consists of an upstream effective resistor 27 and an LC element designed as a low-pass filter 28. Parallel to the correction element 26 is a filter element 29 for automatic arming.

In the circuit arrangement described, the higher modulation frequencies are in the negative feedback branch 25 strongly derived by the correction element 26 and therefore not so strongly fed back like lower modulation frequencies. At the output of the frequency demodulator 3 this results in a Voltage that has the same amplitudes for higher and lower frequencies. The frequency-wise Carried side information which is higher in the stereo multiplex signal thus occurs in the same way Intensity like the center information. By changing the correction member 26, the supported Side information is even more preferred or reduced in the case of strong negative feedback of the higher modulation frequencies by the steredecoder to compensate for the different attenuation of both pieces of information and thus the crosstalk to avoid.

Claims (3)

Patent claims: 1. Circuit for frequency adjustment and frequency negative feedback of the oscillator Superposition receiver for frequency-modulated electrical high-frequency oscillations with the help the one obtained in the demodulator for the intermediate frequency oscillation and transmitted to a frequency-determining one Element of the oscillator circuit applied DC voltage for frequency adjustment and modulation voltage for the frequency negative feedback at which the output voltage of the demodulator is connected to the control electrode of an amplifier element, on whose one output electrode the DC voltage and at the other output electrode the modulation voltage is removed in this way are that the amplifier element for the DC voltage as an amplifier and for the modulation voltage works as an impedance converter and in which the DC voltage and the modulation voltage separately to the two connections one used in a manner known per se as an element for frequency adjustment Capacitance diode are applied, according to patent 1231313, characterized in that in the between the output of the frequency demodulator (3) and coupling to the HF-IF part provided negative feedback branch (25) Correction element (26) is located as a frequency-dependent, the higher modulation frequencies stronger suppressive network is formed. 2. Circuit according to claim 1, characterized in that that the frequency-dependent correction element (26) consists of an LC element (28) with capacitive Derivatives or several such elements and an upstream effective resistance (27) is formed. 3. Circuit according to claim 1 and 2, characterized in that the correction element (26) parallel to a screen member (29) provided for automatic sharpness adjustment in the Negative coupling branch (25) is arranged. 1 sheet of drawings