SU809625A2 - Device for synchronising multichannels communication systems - Google Patents

Description

(54) DEVICE FOR SYNCHRONIZATION OF MULTI-CHANNEL COMMUNICATION SYSTEMS

Claims (1)

The invention relates to communication technology and can be used in a discrete channel equipment for shortwave radio. According to the main auth. 711698 and a known synchronization device of multichannel communication systems, containing two pairs of switched filters, each of which through appropriate differential amplifiers and units of definition of the module is connected to a grader-subtractor, the output of which is connected to the first block of determining the sign of the correction, as well as to the inputs of two adders, the outputs of which through the comparison units are connected to the output inputs of the first block, before dividing the correction sign, and to the enabling inputs of the second correction sign determining unit, and Reference voltage 1 is applied to the second inputs of the comparison units. However, the known device has low synchronization accuracy. The purpose of the invention is to improve the synchronization accuracy. The goal is achieved by the fact that in a synchronization device of multichannel communication systems, containing two pairs of switched filters, each of which is connected to the integrator-subtractor, the output of which is connected to the first block of determining the sign of the correction, through appropriate differential amplifiers and the inputs of two adders, the outputs of which through the comparison units are connected to the inhibiting inputs of the first block for determining the sign of the correction and for allowing the inputs of the second block for determining correction, and the second inputs of the comparison blocks are supplied with a reference voltage, an analyzer of signal level exceptions is introduced, the inputs of which are connected to the outputs of the comparison blocks, and the outputs are connected respectively to the additional inputs of the blocks for determining the sign of the correction. In the drawing; The structural electrical circuit of the proposed device is presented. The synchronization device of the multichannel communication systems contains two pairs of 1-2 and 3-4 kanesh filters, two differential amplifiers 5 and b, two nodes 7 and 8 of module definition, integrator subtractor 9, analyzer 10 exceeding the signal levels, two adders 11 and 12 , two blocks. Comparison 13. and 14, the first 15 and the second 16 blocks determining the sign of the correction ,. The device works as follows. With the help of channel filters 1-4, the amplitudes of one of the channel signals are determined, and the calculation in pairs of channel filters occurs with a time shift by a guard interval. In addition, channel filters 1 and 3 determine the amplitude on odd data packets, and channel filters 2 and 4 on even ones. Further amplitudes from channel filters 1 and 2 are fed to the inputs of differential amplifier 5, and from channel filters 3 and 4 to the input of differential amplifier b, the output signal of which is the input difference. In units 7 and 8 of the module definition, the absolute value of the difference of the pairs is measured. amplitudes The outputs of the nodes are connected to the integrator 9, which subtracts the difference between the absolute values of the difference pairs of amplitudes, respectively, channel filters 1–4, and the corresponding adders 11 and 12, which calculate the value of the differences of pairs of amplitudes for n parcels. An integrator-subtractor 9 supplies the calculated difference to the information input of the first block 15 for determining the sign of the correction. The outputs of the adders 11 and 12 through the comparison blocks 13 and 14 are connected to the signal inputs of the first and second blocks 15 and 16 for the determination of the sign of correction, as well as to the data inputs of the analyzer 10 exceeding the signal level, and the reference voltages are supplied to the reference inputs of the two blocks and, and, and Ug, and the outputs of the analyzer 10 are connected to the inhibiting and permitting inputs of the first correction sign determining unit 1 and to the disabling input of the second block 16 determining the correction sign. When the level of the total signal calculated for the parcels at the output of the matrices 11. and 12 does not exceed the value of the reference voltage and, the generation of the correction signal from the block 15 is prohibited and the device 14 is not corrected at this time. When the signal from the outputs of the adders 11 and 12 exceeds the voltage UI (up to the value V,), any time moment before the expiration of n sent, permission is issued to issue a correction sign by the unit 15. In the event that the signal at the output of the adders 11 and l2 is above the voltage reference Uj produces a correction signal from block 16 with a duration equal to either a guard interval, or half the duration of the parcel b depending on the time t in the presence of further prohibitions from both outputs of adders 11 and 12. The number of parcels n during which I add with the meanings of absolute values of differences of pairs of signal amplitudes is chosen from the following considerations. Keeping time t. is determined by the stability of the generator Py and the guard interval t and is practically determined by the formula. 0. Td For a specific radio modem, 3 s. On the other hand, the continuous action of impulse noise, the level of which exceeds the dynamic range of the modem, occurs within a few seconds. Thus, the number n must be less than t and longer than the duration of the Interference, capable of covering the working signal without interruption. The outcome of this is the ncs 128 parcels. In this connection, with impulse noise acting on the level in zones O - and V-2, the ultrasound time is less than t, the device works without correction (and at the level of Interference corresponding to the U-jB zone, the time less than t is corrected, When interference occurs for more than t, the second correction step, and when the time exceeds 2t, the third correction step. The introduction of new blocks and connections has increased the noise immunity of reception under difficult propagation conditions by expanding the dynamic range of the device and reducing it to an optimal value. The readout of one of the main synchronization parameters: phasing accuracy. The invention of the synchronization device of multichannel communication systems according to the main auth. 711698, differs from the fact that, in order to improve the synchronization accuracy, an analyzer was inserted into it; are connected to the outputs of the comparison units, and the outputs are connected respectively to the additional inputs of the blocks for determining the sign of the correction. Sources of information taken into account in the examination 1. USSR author's certificate 711698, cl. H 04 L 7/04, 1977 (prototype).