SU678688A1 - Frequency-division synchronous signal transmitting apparatus - Google Patents

Description

The invention relates to radio engineering and can be used in radio transmitters of radio relay tropospheric communication. In a system for transmitting signals spaced apart in frequency.

Known transmitting device synchronous signals with frequency diversity, containing two channels, each of which consists of a serially connected multiplier, band-pass filter, a mixture of 1 body and a buffer amplifier, while the outputs of the master oscillator signal generators are connected to the inputs of the first and second channels, as well as an auxiliary generator harmonic signals and a frequency modulator, the outputs of which are connected to the second inputs of the mixers of each channel; harmonic signal master oscillators are covered by a PLL for synchronism — transmitting the oscillations of the first and second channels.

However, the known transmitting device has insufficient stability of the transmitted signals.

The purpose of the invention is to increase the frequency stability of transmitted signals and simplify the device.

To do this, to the transmitting device of synchronous signals with frequency diversity, containing two channels, each of which consists of a serially connected multiplier, band-pass filter, mixer and a buffer amplifier, the output of the master oscillator of harmonic signals connected to the input of the first

0 channels, as well as an auxiliary harmonic generator and frequency modulator, the outputs of which are connected to the second inputs of each channel mixers, are introduced

5 an adder and .sequentially connected frequency converter, an additional mixer and a narrow-band filter whose output is connected to the input of the second channel, the output

0 auxiliary generator of harmonic signals connected to the input of the frequency Converter and the first input of the adder, the second input of which is fed an information signal,

5 and the output of the adder is connected to the input of the frequency modulator, while the output of the master oscillator is connected to the second input of the additional mixer.

0

Fig. 1 shows a structural electrical circuit of the proposed device; in fig. 2 - graphs explaining his score.

The transmitting device of synchronous signals contains two channels, each of which consists of multiplier 1, band-pass filter 2, a mixture of | bodies 3 and a buffer amplifier 4; in addition, the master oscillator 5 harmonic signals, auxiliary oscillator 6, frequency modulator 7, adder 8, frequency converter 9, additional mixer 10, narrowband filter 11, frequency shift unit 12.

The device works as follows.

When modulating frequency modulator 7 with current of auxiliary generator 6, three (five, seven, and so on) frequencies are obtained at the output of each channel (transmitter), depending on the choice of modulation index; that is, in addition to the carrier frequency, additional frequencies are created that are multiples of the separation frequency of the auxiliary generator 6 Fg.r (FIG. 2). Since the output carrier frequencies of the transmitters (FHI) are separated, the frequency spectrum at the output of the transmitting device will look as shown in Figure 2b (without modulation by the input signal and when transmitting the carrier frequencies of the transmitters equal to ЗГв.г). FIG. 2c shows the same spectrum, but with modulation of the input information signal. The transmitter carrier spacing, equal to 3Fg. (7., Allows you to receive signals from the transmitting device by one receiver. Carrier frequency separation (when information is modulated - spectra of FIG. 2b) of the FH transmitters and Phase is carried out in the frequency shift unit 12, consisting of a frequency converter 9, an additional mixer 10, a narrow-band filter 11 that separates the spectral component from the conversion products. In the frequency shift block 12, the frequency of the master oscillator 5 is summed with the divided (or multiplied) often That auxiliary generator 6. Meanwhile, the preliminary separation of transmitter frequencies takes place, which takes into account the subsequent multiplication in the path of each transmitter by multiplier 1. Changing (selecting) the division factor (or multiplication) of the frequency of the auxiliary generator 6 in the frequency shift unit 12, you can get any desired frequency separation transmitter transmitters spectra. Since the auxiliary generator b is also involved in

forming a synchronous grid of frequencies by a frequency modulator 7, and simultaneously in the frequency diversity of the spectra of the transmitters, this ensures complete synchronism of the transmitted

frequencies.

Claims (1)

1. Enedzawa S. and Tanaka N. Svz on UHF, M., Svz, 1967, p. 478. vshg vsh.g Hi-fl.i fH, H .. FH.-F / t-ftt. fH, V “i. Vki. tfei fl / vx / ifiliL , With LJ / QOL 4f .2