RU2047274C1 - Receiver of wide-band signal - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: device has first and second multipliers 1 and 2, orthogonal random sequence generator 3, reference random sequence generator 4, synchronization unit 5, band-pass filter 6, narrow-band filter 7, synchronous detector 8, amplitude detector 9, first and second low-pass filters 10, 11, first and second threshold units 12, 18, first and second absolute value generators 13, 17, gate 14, subtraction unit 15, integrator 16. EFFECT: increased stability to noise caused by device elements. 1 dwg

Description

 The invention relates to radio engineering and can be used in broadband communication systems in the presence of intra-system interference.

A receiving device is known that contains first and second multipliers connected at the inputs, the outputs of which are connected to the inputs of the output phase detector through the corresponding bandpass filters, a pseudo-random sequence generator connected to the second input of the first multiplier, an orthogonal pseudo-random sequence generator connected to the second input of the second multiplier, block synchronization connected between the input of the device and other inputs of the pseudo-random sequence generator And a synchronization unit, the outputs of which are connected to the control inputs of pseudorandom sequence generator [1]
This device can reduce intra-system interference.

 Closest to the invention is a receiving device [2] for a broadband signal (SHPS), comprising a synchronization unit, the output of which is connected via an orthogonal pseudo-random sequence generator (PSP) and a reference PSP generator to the inputs of the first and second multipliers, the other inputs of which are combined with the input of the block synchronization and are the input of the device, as well as a series-connected narrow-band filter, the input of which is connected to the output of the first multiplier, a synchronous detector, another input which is connected to the output of the second multiplier, the first low-pass filter and the first threshold block.

 A disadvantage of the known device is the low noise immunity from intra-system interference.

 The technical result that can be obtained by carrying out the invention is to increase the noise immunity from intra-system interference.

 To do this, to the ShPS receiving device, which contains a synchronization unit, the output of which is connected to the inputs of the first and second multipliers, the other inputs of which are combined with the input of the synchronization block and are the input of the device, respectively, through the orthogonal pseudo-random sequence generator (PSP) and the reference PSP generator connected by a narrow-band filter, the input of which is connected to the output of the first multiplier, a synchronous detector, the other input of which is connected to the output of the second multiplier, the first a low-pass liter and a first threshold block, a second threshold block is introduced, as well as a band-pass filter, an amplitude detector, a second low-pass filter, a subtraction block, the other input of which is connected in series through the first module driver and integrator to the output of the first low-pass filter, and the second a module driver, connected in series between the output of the first mixer and the input of the second threshold block, as well as the key connected to the input of the first threshold block, the control input of the key and the other in od synchronization unit connected to the output of the second threshold block.

 The drawing shows a structural diagram of the receiving device SHPS.

 The ShPS receiver device contains the first and second multipliers 1 and 2, the orthogonal PSP driver 3, the reference PSP generator 4, a synchronization unit 5, a bandpass filter 6, a narrowband filter 7, a synchronous detector 8, an amplitude detector 9, and a second low-pass filter (FCF) 10 , the first 11 low-pass filters, the first threshold block 12, the first driver of module 13, the key 14, the subtraction unit 15, the integrator 16, the second driver of the module 17 and the second threshold block 18.

 The receiving device operates as follows.

 The receiving signal is supplied to the multipliers 1, 2. In the first multiplier 1, the received signal is multiplied by the sync-PSP, which is generated by the orthogonal PSP driver 2. The demanipulated clock is then fed to a band-pass filter 6, which improves the output signal-to-noise ratio. The output voltage of the filter is supplied to an amplitude detector 9, the output of which is a unipolar signal, which passes through the second low-pass filter 10 to the first input of the subtraction unit 15. At the same time, the voltage from the output of the first multiplier 1 is fed to the input of a narrow-band filter 7, the output of which receives the voltage of the reference frequency. The voltage from the output of the narrow-band filter 7 is supplied to one of the inputs of the synchronous detector 8.

 The received signal also arrives at the input of the second multiplier 2 of the information channel, the other input of which receives the information bandwidth from the output of the reference bandwidth generator 4.

 In the second multiplier 2, the manipulation of the phase of the information signal is removed according to the law of the SRP while maintaining the symbolic phase manipulation according to the law of the transmitted information. From the output of this multiplier, an information signal is supplied to the other input of the synchronous detector 8. From the output of the synchronous detector 8, the bipolar low-frequency signal through the first low-pass filter 11 is fed to the inputs of the first threshold block 12 of the information channel and the first driver of module 13.

 Shapers of the module can be implemented according to one of the schemes described in the book "Analog and analog-to-digital computing", Sat. articles edited by B. B. Ushakova. M. "Sov. Radio", 1973, p. 245-250.

 From the output of the first threshold block 12, the received information pulses are fed to the first input of the key 14, which transmits these pulses to the output of the receiving device when a permission signal is received at its second input.

 The first driver module 13 converts a bipolar signal into a unipolar. In the integrator 16 is the accumulation of this signal.

 The signal from the output of the integrator 16 is fed to the second input of the subtraction block 15. At the output of the subtraction block 15, a difference signal is obtained corresponding to the difference in voltage levels in the information and synchro channels. This difference signal is fed to the second driver of module 17, from the output of which it passes to the input of the second threshold block 18, where, when the input signal does not exceed the inserted threshold, a signal is generated which, by the input signal of the inserted threshold, forms a signal that is supplied to key 14 and synchronization device 5.

 When this signal appears, the search in the synchronization device 5 is stopped and the key 14 is opened.

 Therefore, the operation of the described receiving device is based on the fact that on the transmitting side, the levels of information and clock signals are rigidly interconnected.

 In the device for the appearance of a false alarm, even when the synchronization device is triggered from repeated interference, it is necessary that in the information and synchro channels the values of the cross-correlation functions of the corresponding signals and the interference are approximately equal.

 Such a criterion for detecting one's signal is effective in case of repeated interference, i.e., false alarms arising from the influence of intra-system interference are eliminated.

Claims (1)

 A WIDE-BAND SIGNAL RECEIVER, comprising a synchronization unit, the output of which is connected via the orthogonal pseudo-random sequence generator and the reference pseudo-random sequence generator to the inputs of the first and second multipliers, the other inputs of which are combined with the input of the synchronization unit and are the input of the device, as well as a series-connected narrow-band filter, the input of which is connected to the output of the first multiplier, a synchronous detector, the other input of which is connected to the output of the second multiplier, the first low-pass filter and the first threshold block, characterized in that, in order to increase the noise immunity from intra-system interference, a second threshold block is introduced, as well as a band-pass filter, an amplitude detector, a second low-pass filter, a subtraction block, and another input which the first shaper of the module and the integrator are connected in series to the output of the first low-pass filter and the second shaper of the module, connected in series between the output of the first mixer and the input of the second horny block, as well as a key connected to the output of the first threshold block, and the key output is the output of the device, and the control input of the key and the other input of the synchronization block are connected to the output of the second threshold block.