SU970711A1 - Transmitter-receiver for radio relay line - Google Patents

Description

(54) RECEIVER FOR RADIO LINE

Claims (1)

The invention relates to radio engineering and can be used in radiorepei communication lines with transmitter power control. A transceiver for a radio relay line with power control is known, comprising a transmitter, the output of which is connected to the input of the power control unit and connected in series to a receiver, demodulator and regenerator. However, this device does not increase the noise immunity when exposed to high level noise. useful level (Signal and views of the corresponding decrease in transmitter power, leading to the termination of communication. The purpose of the invention is to increase This target is achieved by the fact that a transceiver for a radio relay line containing a transmitter, the output of which is connected to the input of the milk control unit and connected in series to the receiver, (demodulator and generator, filter, amplitude detector, threshold unit and key, which are connected in series at the same time (the second output of the demodulator is connected to the input of the filter whose bandwidth is chosen - (i outside the frequency spectrum of the information signal, the control input of the switch a power output control unit, and a key output coupled to the input power regul1fovki send out to the z-snip. The drawing shows the structural electrical circuit of the proposed transceiver for a radio relay line. A transceiver for a radio relay line contains a transmitter 1, the output of which is connected to the input of a power control unit 2 and connected in series to a receiver 3, a demodulator 4 and a regenerator 5, as well as a filter 6, amplitudes -. detector 7, a threshold unit 8 and a switch 9, which are connected in series. The second output of the demodulator 4 is connected to the input of the filter 6, the bandwidth of which is Selected outside the frequency spectrum of the information signal. The control key input 9 is connected to the output of the power control unit 2, and the output of the key 9 is connected to the power control input of the transmitter 1. The device operates as follows. The signal from the output of the receiver 3 is fed to the input of the demodulator 4, which has two outputs. A generator 5 is connected to the first output, in which the received digital signal is restored and the restored signal is transmitted to the recipient of information. From the second output of the demodulator 4, the information signal and the receiver noise signal are fed to the input of filter 6, the passband of which is higher or lower than the spectrum of the information signal, so the filter output only contains the receiver’s own noise, which is fed to the amplitude detector 7, the Output of which is constant This voltage is proportional to the noise level at the output of the filter 6. Since, at the output of the receiver with AGC or limited, the information signal within the dynamic range of the receiver has a constant level, then the noise level at the output of the filter 6, and consequently, and the constant voltage at the output of the amplitude detector 7 change inversely proportional to the signal-to-noise ratio in the receiver 3 and give an objective assessment of the state of the communication channel, From the output of the amplitude detector 7 Eg: W: The unit is fed to unit 8, which has two levels of comparison: low and high. Under normal conditions of radio wave propagation, transmitter 1 operates with a reduced level of radiation, which is ensured by applying a constant voltage from the output of block 8 to transmitter 1. When the propagation conditions on the path deteriorate and decrease, respectively, the signal-to-noise ratio in receiver 3, the voltage increases. the output of the amplitude detector 7 and when it exceeds a high level of comparison, the voltage at the output of block 8 disappears and the transmitter 1 begins to radiate maximum power. The voltage at the output of block 8 does not appear until the voltage at the output of the detector 7 exceeds the lower one (the level of comparison in block 8. When the voltage decreases at the output of the detector 7, below the specified level, the output of the block 8 This voltage also decreases the power of the radiation in the transmitter 1. If it turns out that the power of the transmitter 1 is below the specified level set in the power control unit, then a constant voltage appears at the output of the unit, which blocks the normally open key 9 and transmitter 1 The output signal of the unit 2 also serves as a signal of the transmitter 1 failure. When a strong external noise gets into the receiver 3, it passes to the output of the filter 6 and is perceived as an increase in the receiver noise 3. This increases the voltage at the output of the amplitude detector 7. When the indicated voltage exceeds the threshold level of the block 8 (decrease in the signal-to-noise ratio), as in the previous case, the output of the block 8 to the transmitter 1 stops flowing constant voltage and power transmitter 1 is increased. When the interference disappears, the power of transmitter 1 decreases again. The use of the proposed transceiver for a radio relay line is both. Enhances noise immunity. Formula from Selection A transceiver for a radio relay line containing a transmitter whose output is connected to an input of a power control unit and a series-connected receiver, demodulator and regenerator, characterized in that, in order to improve noise immunity, a filter, an amplitude detector, a threshold unit are introduced into it and a key that are connected in series, the second output of the demodulator being connected to the input of the filter, the passband of which is selected outside the frequency spectrum of the information signal, the input at systematic way switch connected to the output control unit .moschnosti and key output is connected to the input of the transmitter power adjustment. Sources of information taken into account during the examination 1. French patent N 2275О77, cl. H 04 B 7/14, published. OO.Ol.76. and