SU1035815A1 - Apparatus for coherent receiving of spaced signals - Google Patents

Abstract

DEVICE. FOR COHERENT RECEPTION OF DIFFERENT SIGNALS, containing an input frequency converter, each of whose N outputs is through N phasing channels, each consisting of a limiting amplifier and an adjustable amplifier, the control input of which is connected through a block (Determining the signal-to-noise ratio with the amplifier-limiting input, connected to the appropriate input of the addition unit, and a readout signal generator, characterized in that, in order to improve the phasing accuracy, a control unit is introduced into it, the allocation unit is optimal The phasing channel and each of the N phasing channels also have a write signal shaper, a memory unit and a feedback operation suppressor connected in series, and the output of the limiter is connected to the combined input of the recording signal generator and the second the input of the memory unit, and the output of the reverse operation de-blocking unit is connected to the input of the adjustable amplifier, the shaper of the recording signal of each of the N F-channels connected to the corresponding generator readout input, the control input of which is connected to the second input of the reverse operation operation block of each of the N channels (L phasing and output of the allocation channel of the optimal phasing channel, and the output is connected to the combined readout inputs of the memory blocks and reverse operation operation blocks of all N phasing channels and input readout of the control unit, the output of which is connected to the combined SLE inputs of the control of the memory blocks and the elimination block of reverse operation of all N phasing channels and the control input of the block in Selection of the optimal phasing channel.

Description

The invention relates to radio engineering and can be used in radio communication and radio control systems for transmitting discrete messages on parallel channels with parameter variables in terms of additive interference. I know a device for coherent reception of separated signals, containing an input frequency converter, each of N outputs of which are via N phasing channels, consisting of a limiting amplifier and an adjustable amplifier, the control input of which is connected through the signal-to-noise ratio determining unit a limiting amplifier is connected to the corresponding input of the block, and a C 1 read signal generator, however, this device does not provide for the specific addition of the separated signals of the phase telegraphy; since the signal at the output of the bed block has a phase that is independent of the phase of the signals at the input of the phase channels. The purpose of the invention is to improve the phasing accuracy. This goal is achieved by the fact that the device for coherent reception of diversity signals contains an input frequency converter, each of N outputs of which are through N phasing channels consisting of each of the limiting amplifier and adjustable amplifier whose control input is connected through the unit determining the signal-to-noise ratio with the input of the limiting amplifier is connected to the corresponding input of the adder unit, and a read signal generator, a control unit and an optimal channel channel are introduced In each of the N channels of phasing, a write signal shaper, a memory unit and a feedback operation eliminator are also connected in series, with the output of the limiting amplifier connected to the combined input of the write signal generator and the second memory unit input in each of the N phasing channels , and the output of the reverse operation eliminator is connected to the input of an adjustable amplifier, the output of the recording signal generator of each of the N phasing channels is connected 15 to the corresponding input of the read signal generator, in The control unit of which is combined with the second input of the de-operation block of each of the N phasing channels and the output of the allocation unit of the optimal phasing channel, and the output is connected to the combined read inputs of the memory blocks and de-feedback blocks of all N phasing channels and the read input of the control unit, output which is connected to the combined inputs of the control of the memory blocks and blocks for the elimination of the reverse operation of all N channels of the phasing and the control input of the allocation unit of the optimal channel -, vani. The drawing shows the structural electrical circuit of the device. A device for coherent reception of spaced signals contains an input frequency converter 1, each of N outputs of which through N channels of phasing 2.1 - 2N. each consisting of a downlink amplifier 3 and an adjustable amplifier, the control input of which is connected through the signal-to-noise ratio determining unit 5 to the input of the amplifier-limiter 3, is connected to the corresponding input of the adding unit 6, and the readout signal generator 7B has also a block 8 control unit 9 allocation of the optimal channel phasing. Each of the N phasing channels also contains a write signal shaper 10, a memory unit 11, and a feedback operation unit 12 connected in series. At the same time, in each of the N phasing channels, the output of the limiting amplifier 3 is connected to the combined input of the recording signal generator 10 and the second input of the memory block 11, and the output of the reverse operation eliminator 12 is connected to the input of the adjustable amplifier t. The output of the recording signal generator 10 of each of the N phasing channels is connected to the corresponding input of the read signal generator 7. A control input of which is combined with the second input of the reverse operation suppression unit 12 of each of the N phasing channels and connected to the output of the optimum phasing channel 9, and the output connected to the combined read inputs of the ill blocks of the memory, the reverse elimination block 12. The operation of all N channels is phased (and the read input of the control block .8) The output of the control block 8 is connected to the common control inputs of the memory block 11 and the de-energizing block 12 of all channels of N phasing and the control input of the block 9 for allocating the optimal phasing channel. The device works as follows, the input frequency converter 1 converts the received multi-frequency signal in such a way that on each of the outputs of the input frequency converter will be the signal of only one channel of diversity, and the frequencies of all N channels of the phasing of the input frequency converter 1 are the same. The converted channel signal of the diversity in each of the 2.12 M channel channels is fed to the input of the amplifier-limiter 3, which forms a discrete analog input signal. This signal is applied to the input of the recording signal generator 10 and the second input of the memory unit 11. A write signal shaper 10 includes a discrete phase-locked loop for the write signal for the frequency and phase of the input discrete signal. Thus, the input disk signal, which falls on the information input of the memory block 11, and the recording signal, which allows the recording of information, are strictly synchronized in time. The main purpose of the memory block 11 is to write into it a discrete input sequence of one character length and read the recorded signal at a time instant for all phasing channels 2.1 - 2, N. For this, each memory block 11 must include two memorizing elements, one of which for the duration of one character operates in the recording mode, and the other in the reading mode, after which their modes change. This phasing method eliminates the phase shifts between the diversity channel signals received at the input frequency converter 1 in the case of a multi-frequency signal or in the process of propagation during spatial diversity. In this case, only phase shifts of a multiple of 0.180 ° (about 1 at. Operation) appear unresolved. With a frequency-spaced signal, the reverse operation is due to the presence of an input frequency converter 1, in which a 180 ° phase uncertainty occurs due to frequency conversion. With spatially separated reception, phase uncertainty occurs in the high-frequency path of the receiver. In block 12, the reverse operation is eliminated comparing the phase of the signal of the given phasing channel with the phase of the signal with the best signal-to-noise ratio of the phasing channel. If during the period of one character the number of phase mismatches of the compared signals is greater than the number of matches, the signal of the given phasing channel in block 12 is inverted to eliminate the reverse operation. If the phases of the compared signals dominate, its output signal is not inverted. Phased discrete signals in each of the N phasing channels with the output of blocks 12 are fed to the inputs of the respective adjustable amplifiers, whose gain depends on the signal-to-noise ratio in the diversity channels. A voltage proportional to this ratio is generated by the ratio determining units 5 signal - noise. Thus, Phased and weighted signals of the phasing channels are fed to the inputs of the addition unit 6. In addition, the voltage weights of the channels are fed to the input of the block 9 for selecting the optimum phasing channel from the point of view of the signal-to-noise ratio. In this block {9), a voltage comparison is made in the interval of one symbol and the discrete signal is switched from the output of the memory block 11 of the best channel to the inputs of the blocks 12 to eliminate the reverse operation of all channels. In the read signal generator 7, a selection is made of the recording signals of all the phasing channels, the number of which determined the block 9 for the allocation of the optimal phasing channel. 8 further, this signal serves as a readout signal for memory blocks 11 of all N phasing channels, and can also be used as a reference voltage for coherent detection. The control unit 8 in the simplest case is a counting trigger, generating pulses whose repetition rate coincides with the frequency of manipulation. Thus, the control unit 8 performs symbolic synchronization of the operation of the device. At the output of the adder unit,

coherent sum of weighted signals of all N1 phasing channels. 2.1-2N.

The proposed device provides an increase in phasing accuracy with coherent addition of phase telegraphy signals.

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Claims (1)

A device for coherent reception of diversity signals, containing an input frequency converter, each of the N outputs of which through A ^ phasing channels, each consisting of an amplifier-limiter and an adjustable amplifier, the control input of which is connected through a block I determine the signal-to-noise ratio with the input of the amplifier-limiter, connected to the corresponding input of the addition unit, and a read signal generator, characterized in that, in order to increase the phasing accuracy, a control unit, a block for allocating the optimal phasing channel and into each of N phasing channels, a recording signal shaper, a memory unit and a reverse operation elimination unit 'are connected in series, while in each of the N phasing channels the output of the amplifier-limiter is connected to ennym input of the recording signal and the second input of the storage unit, and an output unit removing operation is connected to the feedback input of the adjustable amplifier shaper vuhod signal recording each of N channels Bani phase position ⁰ is connected to a corresponding? <ode reading signals generator, which is connected to the control input with the second input of the block eliminating the reverse operation of each of the N phasing channels and the output of the allocation unit of the optimal phasing channel, and the output is connected to the combined read inputs of the memory blocks and b shackles eliminate reverse operation all N input channels and phasing read control unit, an output 'which is connected to the combined control inputs of memory blocks and blocks backward elimination of all N channels phasing and entry control channel allocation unit optimum phasing. SU., „1035815. 1035815,