SU855714A1 - Channel switching device for telemetering system - Google Patents

Description

(54) SWITCH CHANNELS FOR TELEMETRIC SYSTEMS

one

The invention relates to information measuring equipment and is intended for use in the transmission equipment of an information and telemetry system.

The adaptive switch of the telemetry system is known, which contains analyzers of channel activity, a circuit of moment memory for generating requirements for polling channels with sawtooth generators, a maximum signal detector, a logical circuit of channel selection, a circuit for statistical and dynamic memory of channel addresses, a diode array, key elements and the element OR 1.

However, a switch of this kind provides adaptive switching of information channels as the demand (requirements) for their service arrives, and if there is a group request, information channels with a lower sequence number are subject to service. The information service discipline adopted in the switch does not exclude the loss of significant samples in individual information channels during periods of their high activity. During periods of low channel activity, such a switch issues idle samples to the communication channel, which are required to load it evenly.

An adaptive telemetry system switchboard is also known, which contains channel activity analyzers, a channel selection logic that contains match schemes, OR elements and anti-match stages, AND elements, static and dynamic channel address memory schemes, diode array, key elements, OR element (2 .

Claims (3)

The closest to the invention according to the technical essence and the achieved result is a channel switch for the telemetry system, which contains a block of moment memory of requests for polling channels, the first group of inputs of which is connected to the outputs of input activity analyzers, the outputs of the maximum signal detector , the outputs of which are through a series-connected block of choice of channels, an encoder. The dynamic address memory block is connected to the corresponding inputs of the decoder, the outputs of the cord are connected to the primary control inputs of the key elements, the information inputs of the device are connected to the information inputs of the activity analyzers of the input signals and the inputs of the key elements whose outputs are connected to the device outputs, the OR element, the cyclic block polling channels, the input of which is connected to the output of the OR element. The discipline of information service received in this channel switch ensures the switching of information channels in the mode of adaptive switching or in the mode of cyclic switching. In the adaptive switching mode, the channels are switched as soon as the demand for their request is received, and in the presence of group requirements, preference is given to the channel with a lower sequence number. In this case, the switch controls the activity of the input signals. If, in the process of monitoring, the number of formed significant samples for a fixed time interval does not exceed a specified value, the switch is switched to cyclic switching mode. In this mode, all information channels are sequentially polled until the switch detects an excess of the number of significant samples issued to a given value of 3. The combined information service received by this channel switch partially reduces transmission over the communication channel. idle samples, however, the bandwidth of the switch is inefficiently used due to the need to transfer its address feature with each daclic sample. This not only reduces the bandwidth of the switch, but also increases the service time. The purpose of the device is to increase the capacity of the system. The goal is achieved by the fact that the device containing the block of memory of the moments of demand for polling channels, the first group of inputs of which are connected to the outputs of the analyzers of the activity of input signals, are connected to the inputs of the maximum signal detector, the outputs of which are through channels, an encoder, a block of dynamic memory of addresses are connected to the corresponding inputs of the decoder, the outputs of which are connected to the first control inputs of the key elements, and Ion inputs of the device are connected to information inputs of activity analyzers of input signals and inputs of key elements whose outputs are connected to the device outputs, an OR element, a cyclic polling unit for channels whose input is connected to an OR element output, a group of OR elements and a cycle marker forming unit are entered, the output of which is one of the outputs of the switch, and the input is connected to the first output of the cyclic polling channel, the second output of which is connected to the control input of the maximum si detector The third output group is connected to the corresponding second control inputs of the key elements and the first inputs of the corresponding OR elements of the OR group, the second inputs of which are connected to the corresponding outputs of the decoder, the outputs of the OR elements of the elements d are connected to the corresponding second inputs of the activity analyzers of the input signals and inputs the second group of inputs of the memory block of the moment of occurrence of requirements, the outputs of activity analyzers are connected to the corresponding inputs of the OR element. FIG. 1 shows a functional diagram of the channel switch; in fig. 2 is a block diagram of a cyclic polling of channels, one of the embodiments; in fig. 3 is a diagram of a channel selection block, one of the embodiments. The proposed channel switch contains analyzers 1 of the activity of input signals, block 2 of memory of the moment of appearance of requirements for interrogation of channels, detector 3 of the maximum signal, block 4 of channel selection, encoder 5, block 6 of dynamic memory of addresses 6. de1S1frator 7, key elements 8, element OR 9, block 10 cyclic polling channels, block 11 forming a loop marker, a group of 12 elements OR 13, a group of 14 inputs, inputs 15-19, outputs 20-22. Positions 23-28 designate, respectively, the Pershe and the second group of inputs of the memory block of the moment of appearance of requirements for polling channels, the first and second control inputs of channel elements, the signal inputs of channel elements, the second control input of the maximum signal detector. The cyclic polling unit 10 of channels (ftl. 2) can be implemented as a functionally connected counter 29, a control unit 30 and a time distributor 31 with an output 32. Switch ksh {alov works as follows. Signals from a group of 14 inputs from sensors (not shown) are continuously analyzed by analyzers of Act I, which, depending on the current characteristics of the input signals, perform their non-uniform sampling according to the selected algorithm and generate an impulse to interrogate the channels at the appropriate points. The service time of a single request is chosen equal to the length of the information word in the binary code, consisting of the information and address part of the telemetry frame for the adaptive information service mode or only of the information part for the cyclic information service mode. The voltages from the generators of the block 2 of the memory of the moment of occurrence of requirements for interrogation are fed to the input of the detector 3 of the maximum signal, which is a set of voltage comparison elements that corresponds to the beginning of the information word in the telemetry frame, to the control input 18 of the detector 3 from The system clock (not shown) of the transmitting equipment comes a sync signal. At the same time, at the output of the detector 3 of the maximum signal, a signal appears at that output, which corresponds to the input voltage of the maximum value. The signals from the output of the detector 3 maximum signal is fed to the inputs of the block 4 channel selection. Moreover, in the case when the signal from the detector output 3 of the maximum signal only goes to one block of the channel selection block 4, the block passes this signal to the output without any effect on it. If at the moment of comparison at the input of the detector 3 of the maximum signal there are several identical voltages (group requirement), then the output of the channel selection unit 4 is a signal from the output that corresponds to the lowest channel number. Thus, the maximum signal detector 3, together with the channel selection unit 4, plays the role of the dispatcher organizing the dis-. SH1PLINU information service channel, taking into account their number, arrival time for and priority signs. The signal from one of the outputs of the block and the choice of channels goes to the encoder 5, where the address of the information channel received for servicing in binary code is formed. The values of the channel addresses are fixed by the programmer programmatically and can be changed by external commands. The address code generated in the encoder 5 is rewritten into the dynamic address memory block 6 and fed to the corresponding output of the decoder 7 and the key element 8 of the channel is opened. The strings from the corresponding input of the group of inputs 14 through the key element 8 are issued to give the lowest conversion to binary code and transmission over the communication channel. At the same time, a substantial sample from the encoder 5 (output 20) is assigned a code for its address. The voltage from the output of the decoder 7 through the element OR 13 of the group of elements OR 12, in addition, the analyzer 1 activates the input signals and the block 2 of the moment memory of the occurrence of requirements. for a survey in the original state. This completes the service cycle for one requirement. With the arrival of the next sync signal that coincides with the beginning of the next information word, the first control input of the maximum signal detector 3 starts the service of the next request, if it exists. With this method of information service, both idle words and idle frames are possible in the structure of transmitted signals, when requests for polling channels are received in redo. Blank words have a specific structure and are transmitted, for example, in the form of a binary code containing only null parcels. When there are a large number of idle words, the switch is switched to the cyclic mode. To this end, in the process of switching channels, the activity of the input signals is monitored. To do this, using the counter 29 of the channel polling unit 10 at a fixed time interval defined by the clock signals (input 17), the requirements for all information channels are calculated through the OR 9 element. If, during the control process, the number of requests does not exceed the set value, the switch is switched to the cyclic switching mode. The control signal generated in the control unit 30 blocks the operation of the maximum signal detector 3 at the second control input 28, forms a cycle marker in the cycle marker generation unit 11, and starts the temporary separator 31. The formed marker signal fixes the beginning of the cyclic switching mode and marks its boundaries . The structure of the marker signal is selected from the condition of providing a given noise immunity of its restoration in the receiving equipment. The polling of the information channels in the cyclic mode begins with a certain channel, and switching to the subsequent interrogation of alternate channels is performed by the clock synchronization signals applied to the input 19. The maintenance channel of each information channel in this mode is selected from the conditions of only the information part of the binary code of the telemetry frame. At the same time, control over the activity of information channels continues. According to the test results, the switch is switched to adaptive switch mode, or the cyclic switch mode is retained. Thus, by controlling key elements along separate circuits of adaptive switching and cyclic switching of current control over the activity of input signals and arranging unaddressed transmission of real samples in cyclic maintenance mode, the amount of transmitted service (address) information is reduced. This increases the system capacity and reduces the service time of individual information channels. A switch of channels for a telemetry system containing a block of memory of the moment of appearance required for polling channels, the first group of inputs of which are connected to the outputs of analyzers of activity of input signals, the outputs are connected to the inputs of the detector of the maximum signal, the outputs of which are channeled to the selector , the block of dynamic memory of addresses is connected to the corresponding inputs of the decoder, the outputs of which are connected to the first control inputs of key elements, The device's input inputs are connected to the informational inputs of the activity analyzers of input signals and the inputs of key elements whose outputs are connected to the device outputs, an OR element, a cycle 48 block of a personal polling of channels, the input of which is connected to an OR element output, characterized in that capabilities of the system, a group of OR elements and a cycle marker generation unit, the output of which is connected to the corresponding output of the switch, are entered, the input is connected to the first output of the cyclic block polling channels, the second output of which is connected to the control input of the maximum signal detectors, a group of third outputs connected to the corresponding second control inputs of the key elements and the first inputs of the corresponding OR elements of the group of OR elements, the second inputs of which are connected to the corresponding outputs of the decoder, the outputs of the OR elements of the group the OR elements are connected to the corresponding second inputs of the activity analyzers of the input signals and the inputs of the second group of inputs of the moment memory laziness requirements activity analyzer outputs connected to respective inputs of OR element. Sources of information taken into account in the examination. USSR author's certificate number 225036, cl. G 08 C 19/28, 1968. 2. USSR author's certificate number 412619, cl. G 08 C 19/28, 1974. 3. USSR author's certificate number 407376, cl. G 08 C 19/28, 1973 (prototype). 24f5 Lj rw F /four n 25 2S l n 25 & 27 ± -l7ff Z5i g; to 26 Veltvpenta Aliy / 7 nineteen 31