RU1838825C - Device for reception of signals - Google Patents

Abstract

The invention relates to remote control technology and is intended for use in the transceiver systems of mobile and stationary stations of rail vehicles. The purpose of the invention is to increase the noise immunity and information content of the reception. To do this, into a device containing a common path of serially connected filter 1 and amplifier 2 of the carrier frequency, the mixing stage 3 and amplifier 4 of the first intermediate frequency and a group of information channels 7 1-7 3 consisting of a series-connected bandpass filter 8 corresponding to the first intermediate frequency and mixing stage 9, a logical matrix switch has been introduced after each channel is an amplifier-demodulator, the input of which is connected to the output of the mixing stage 9, and the output to the corresponding signal at the logical matrix input, switch l6 directly to the control inputs of the block - through the quality assessment stage 11 and through the signal magnitude estimation stage 12. The input signal, after filtering, amplifying and lowering the carrier frequency in blocks 1-4 of the common path, is filtered, re-converted in frequency, amplified and demodulated in channels 71-7h, after which the magnitude and quality of the signals at the channel outputs are evaluated. In block 6, the output of one of the channels of block 10 is connected to the output of the device in accordance with the values of the voltages at the outputs of blocks 11 and 12 and the given logical matrix of block 6. Thanks to the fact that estimates of the magnitude and quality of signals and control of channel switching are carried out continuously and simultaneously for all frequencies of transceiving systems of mobile and stationary stations of vehicles, noise immunity and information content of the reception are increased. 2 C.p. f-ls, 1 ill. 00 00 s 00 00 ел eat OJ

Description

The invention relates to the transmission of signals between spaced apart transceiver stations.

The purpose of the invention is to increase the instability and informativeness of reception. . .

The drawing shows a functional diagram of the device.

The device comprises a carrier frequency filter 1, a carrier frequency amplifier 2, a mixing stage3, a first intermediate frequency amplifier 4, a first intermediate frequency generator 5 1, a second intermediate frequency generator 5 2, a logical matrix switch 6, and information channels 7 1, 7 2, 7h, consisting of a bandpass filter 8 of the first intermediate frequency, a mixing stage 9, a demodulator amplifier 10, a signal quality estimation stage 11 and a signal magnitude estimation stage 12.

The device operates as follows.

The input signals, through a filter 1, for example a helix filter, a carrier amplifier 2, for example, with a load in the form of a helix filter, together with the voltage of the generator 5 1 of the first intermediate frequency are supplied to the corresponding inputs of the mixing stage 3, in which the carrier frequency of the signals is reduced to an intermediate frequency Z F1. From the output of this mixing stage, the received signals are fed through amplifier A to the information channels 7 1-7 3.

Blocks 1 ... 4 are made broadband, providing transmission of signals of all transceiver stations located along the path, and blocks 8, 9, 10 are narrowband, transmitting signals of the corresponding stations. For example, for a system with three carrier frequencies of SF signals that are 50 kHz apart from each other and intermediate frequencies, respectively, ZF1 1 21350 MHz, ZF1 .400 MG, ZF1, 450 MG, in mixing stages

9. to which the signals of these frequencies are supplied and the voltage of the generator 5 2, the frequencies ZF1 1, ZF12 and ZF13 are reduced to the frequencies ZF2 kHz, ZF2 kHz and ZF2 kHz;

The signals with these intermediate frequencies ZF2 are then amplified and demodulated in amplifiers with x-demodulators

10. Demodulated signals, which, for example, are low-frequency analog signals, are directly supplied to the signal inputs of the logic matrix switch 6.

The sequential switching of the signal inputs of the logic matrix switch to their signal output is carried out automatically based on a qualitative and quantitative assessment of the input signals. For this purpose, cascades 11 for evaluating signal quality, for example, cascades for measuring signal-to-noise ratio, as well as cascades 12 for estimating signal magnitude, for example, cascades for measuring field strength at the receiving site, are connected to amplifiers m-demodulators 10. Blocks 11 and 12 supply the evaluation results in the form of digital switching signals to the control inputs of the logic matrix switch 6. The signal-to-noise ratio measuring stages supplying digital signals are known as the Squels and the field voltage measuring stages are known in the same way. the receiving location, delivering digital output signals through analog-to-digital converters and / or comparators.

The digital signals of both types of evaluation cascades 11, respectively 12, in a manner known per se, select the qualitatively most valuable of the directed input signals in the logical matrix switch and feed it to the output line. In this way, an almost uninterrupted reception is ensured under optimal reception conditions.

The described embodiment allows various embodiments within the scope of the invention. So, for example, the formation of an intermediate frequency can be carried out in channels 7h-7z also using three separate heterodyne oscillators whose frequencies are shifted by the interval between the equidistant frequencies of SF reception relative to each other and which are thus mixed with the output frequencies of the filters of 8 channels, which converted frequencies are equal to each other.

Evaluation criteria in logic matrix switch b can be freely selected and matched to respective applications through the use of programmable logic blocks. In addition, evaluation criteria belonging to the demodulated signal, respectively, sequentially switched to the output, for the purpose of further information the user can also sequentially switch to additional lines. Finally, for monitoring, in addition to the selected signal, all other demodulated signals can also be sent to the output.

signals from end-to-end parallel receiving channels.

Claims (3)

SUMMARY OF THE INVENTION 1. A device for receiving signals, comprising a carrier frequency filter connected in series, the input of which is the input of the device, a carrier amplifier, a mixing stage. an amplifier of the first intermediate frequency, a generator of the first intermediate frequency, b (the path of which is connected to the reference input of the mixing cascade, a generator of the second intermediate frequency and a group of information channels consisting of a series-connected bandpass filter of the first intermediate frequency and the mixing cascade, the reference input of which is combined with the reference the inputs of the mixing stages of other channels and is connected to the output of the second intermediate frequency generator, characterized in that, in order to increase the noise immunity ychivosti informative and receiving device incorporated in a logical cross bar switch whose output is 0 5 0 5 the output of the device, and into each information channel, an amplifier-demodulator, a cascade for evaluating the signal quality and / or a cascade for estimating a signal, the inputs of the bandpass filters of the first intermediate frequency are combined and connected to the output of the amplifier of the first intermediate frequency, in each information channel the input of the amplifier is a demodulator the torus is connected to the output of the mixing cascade, and the output is connected to the corresponding signal input of the logical matrix switch, the inputs of the cascades of signal quality assessment and signal magnitude estimation, and the outputs the latter are connected to the corresponding control input of the logic matrix switch. 2. Device pop. 1, characterized in that the cascades of signal quality assessment are made in the form of cascades of signal-to-noise ratio measurement. 3. The device according to claim 1, with the proviso that the cascades for estimating the magnitude of the signal are made in the form of measuring cascades of the field strength at the receiving site.