SU120536A1 - Single band modulation method for phototelegraphing - Google Patents

Description

Methods for single-band photo-telegraph are known, in which the low-frequency spectrum of an image signal is usually amplitude modulated.

At the same time, the distortion of the received image signals depends on the level fluctuations in the communication channel.

When transmitting a single sideband, the quadratic component of the distorted phototelegraphic signal is significant.

The proposed method of single-band modulation during photo-telegraphing allows reducing signal distortions during level fluctuations in the communication channel, reducing the quadrature component of photo-telegraph distortions and increasing the interference, pi1, in transmitting photo-telegraph signals over the communication channel.

FIG. 1 shows a skeletal diagram of a transmitter of photo-telegraph signals according to the proposed method; in fig. 2-skeleton receiver circuit of photo-telegraph signals.

The low-frequency and high-frequency f, fa, and /, components of the spectrum of the image signal are pre-divided by low and high frequency filters 2. Composed of the spectrum that passed through the low frequency filter, go to frequency modulator 3. The average frequency of the modulator is chosen to be less than the upper limit frequency. channel frequency on the value of the cut-off frequency of the low-pass filter 300 Hz. The modulation index is chosen to be less than one.

The signal received after the frequency modulator 3 through a band-pass filter 4 is passed to the input of an amplitude balanced modulator 5, at the mid-points of which the high-frequency components of the image signal passing through the high-frequency filter 2 are simultaneously fed.

As a result of separate transmission of low and high components of the spectrum of an image signal, its low frequencies are transmitted in the communication channel symmetrically by two side bands, and its high frequencies by one lower side band.

No. 120536

The image signal received from the communication channel to the input of the receiving device (Fig. 2), denst131, is parallel to two amplifiers 6 and 7.

Included after the battery; 1, the 6 band pass fnlt) 8 separates the carrier frequency and two low loses, and their spectrum is unnumbered; | a picture. This part of the spectrum is limited by the amplifier 9 and the nose. The frequency discriminator 10 is fed to the amp.detitory demodulator //. In the demodulator, low-frequency components of the image signal are extracted, which, through delay line 12, act on the input of summing stage J3.

On the other hand, the summing cascade through the delay line 14 is affected by the high-frequency part of the image signal spectrum, which is amplified; ) food1-th spectrum of the photo-telegraph signal.

Subject and d on and e and

One-way modulation technique for photo-telegraphing, characterized in that, in order to alleviate signal distortion and increase its noise immunity during transmission, but the high-frequency and high-frequency spectra of the image signal are pre-divided by filters, and the front-end. the carrier current is frequency modulated, and the high frequency spectrum of the image signal of the L1 module, the coziness of the carrier current by the amplitude modulation method, transmit the received side frequencies of the signal lines to the line and at At the m terminus, a complete conversion of signal spectra is performed.