SU851445A1 - Adaptive telemetering device - Google Patents

Description

(54) ADAPTIVE TELEMETRIC DEVICE

one

The invention relates to telemetry and can be used in telemechanics, long distance communication, in automatic control systems.

A device for telemetry with adaptive switching is known, in each measuring channel of which there is an approximation error converter (PAD) operating on the basis of a certain algorithm. The error analyzer sequentially polls all PPA, detects the channel with the greatest approximation error and opens the key of this channel. The information from the sensor of this channel is encoded by an analog-to-digital converter and, together with the number of the selected channel, is transmitted through the transmitting device to communication channel 1.

However, the device has a low speed, due to the considerable time of the sequential analysis of the errors of the approximation of the measurement signals, in connection with this there can be significant dynamic errors.

Closest to the proposed is an adaptive switch of the telemetry system with parallel analysis.

approximation errors, containing a software switch, whose information inputs are connected to device inputs, a maximum signal detector, whose inputs are connected to outputs — a block of memory for instants of demand, whose inputs are connected to the outputs of activity analyzers, the first inputs of which are connected to device inputs, and the second inputs - to the outputs of the program switch, the output of which is connected to the 10 output of the device, the memory block of addresses, the outputs of which are connected to the inputs of the software switch pa, and the inputs through the channel selection unit connected to the outputs of the detector maximum signal 2.

15 A disadvantage of the known device is the insufficient field of application, due to the fact that, with a general high load, a low-active channel may not be interrogated, which leads, in a number of cases, to the inconvenience of using information.

Claims (2)

The purpose of the invention is to expand the scope of application by forcibly connecting low-activity channels to the device output at the required time points. The goal is achieved by the fact that in an adaptive telemetry device containing a software switch, the information inputs of which are connected to the device inputs and the first inputs of the corresponding approximation error converters, the second inputs of which are connected to the corresponding first outputs of the nporpauviMHoro switch, the outputs of the converters converters are connected to the socket. maximum signal, the outputs of which are connected via the channel selection block to the inputs of the first address block, the control inputs of the maximum signal detector and the program switch are connected to the read resolution, the second output of the program switch is connected to the output of the device, the second address memory block, a switch, a code comparison unit, a time block, a delay element, the OR element and the AND element, the outputs of the first memory block of addresses are connected to the corresponding first inputs of the switch and the code comparison block, the output of which is connected to the first input of the OR element, the second input cat connected to the output of the delay element, the output of the OR element is connected via a time block to the first input of the AND element and directly to the input of the second memory block of addresses, the outputs of which are connected to the corresponding combined second inputs of the code comparison unit and the switch, the second input of the AND element connected to the bus The read resolution, the output of the And element, is connected to the input of the delay element and the third input of the switch, the outputs of which are connected to the address inputs of the software switch. The drawing shows the proposed device, the structural scheme. The device contains convergence error converters 1, maximum signal detector 2, channel selection block 3, first address memory block 4, program switch 5, switch 6, second address memory block 7, code comparison block 8, time block 9, And element 10 , delay element II, OR element 12, strip 13 "Read resolution. Approximation error transducers serve to produce a voltage proportional to the input signal approximation error. The maximum signal detector 2 is a multi-input comparison circuit and serves to generate a signal at the output that corresponds to the highest approximation error. The channel selection unit 3 is intended to organize service in the order of channel numbering in case of group arrival of requirements. The first block 4 of the address memory serves to convert the unit code of the selected channel number into a necessary, for example, binary code. Block 4 may contain a matrix with trigger output. Soft switch 5 is used to transmit the input signal of the selected channel to the device output and reset the PPA. Switching unit 6 serves to connect to the program switch 5 of unit 4, or the second block of address memory 7. The code comparison block 8 serves to generate a signal when the codes with the output of blocks 4 and 7 are equal. Time block 9 is designed to set the maximum possible time interval between samples of the monitored channel. As block 9, for example, a standby multivibrator or a counter can be used. Element AND 10 serves to control the operation of switch unit 6. The delay element 11 and the OR element 12 serve to reset blocks 7 and 9 after the end of the reading. The device works as follows. Input. Signals are analyzed by PPA 1 and detector 2 generates a signal at the output that corresponds to the largest value of the approximation error from all channels. If such a signal appears on only one output, then it passes through block 3 of channel selection. If there are several largest errors, block 3 selects one channel according to the channel number (for example, the channel with the lower number is served first). The algorithms of operation of channel selection block 3 have the form (x, vaCiV ... V2; j ,,) where Y) is the signal at the ith output of block 3; J. - signal at the i-M input of block 3; Do the symbols of logical operations “conjunction and disjunction. The unit code of the selected channel number is converted by the block 4 of the address memory into a necessary code, for example a binary one. A binary (or other) code is fed through switch 6 to soft switch 5, and information from the selected channel passes to its output. When monitoring the channel selected for monitoring, the address code from the output of block 4 goes to one input of code comparison block 8, where the selected channel code is compared to the code of the monitored channel from the outputs of memory block 7. The monitoring is carried out sequentially, starting from any channel, depending on the initial state of the address memory block 7, for example, a counter. If, for the maximum possible time determined by block 9, the output of block 4 is wired with the same code as the output of block 7, then the output of block 8 of code comparison is a signal that switches through the element OR 12 block 7 to the next channel for control At the same time, block 9 is reset to the initial state. If the time determined by block 9 is not sufficient for the address of the monitored channel to appear, then block 9, for example, a waiting multivibrator, is triggered and simultaneously with the appearance of the signal "Read resolution through element 10" the switching unit 6 to the address inputs of the software switch 5 connects the second address storage unit 7 so that information from the monitored channel is output. The signal from the AND 10 element acts through the delay element 11 and the OR 12 element on the second block 7 of the address memory and block 9 of the time interval setting, switching the block 7 to the next monitored channel and resetting block 9 to the initial state. The delay time generated by the delay element 11 is determined by the time required to read the information. The maximum possible time between samples of one channel, defined by time block 9, is determined by both the dynamic properties of the input signals and the requirements of the information consumer. The proposed device has an expanded scope of application as compared with the known one, since it allows transmitting information from low active channels to output at specified intervals determined by the usability of the information. An adaptive telemetry device comprising a software switch, the information inputs of which are connected to the device inputs and the first inputs of the respective approximation error converters, the second inputs of which are connected to the corresponding first outputs of the program switch, the outputs of the approximation error converters connected to the maximum signal information inputs of the detector, which through the block channel selection connected to the inputs of the first memory block These addresses, the control inputs of the maximum signal detector and the program switch are connected to the read resolution bus, the second output of the program switch is connected to the output of the device, characterized in that, in order to expand the application area of the device, a second address memory block is inserted into it, , code comparison block, time block, delay element, OR element and AND element, outputs of the first address memory block are connected to the corresponding first inputs of the switch and code comparison block, output which is connected to the input element OR input, the second input of which is connected to the output of the delay element, the output of the input element OR is connected via a temporary block to the first input of the AND element and directly to the input of the second address memory block, the outputs of which are connected to the corresponding combined second inputs of the block comparison of the codes and the switch, the second input element And connected to the bus "Read resolution, the output element And connected to the input of the delay element and the third input of the switch, the outputs of which are connected to the ad esnymi inputs softswitch. Sources of information taken into account in the examination 1.Fremke A.V. Telemetry. M., “Higher School, 1975, p. 232-234. 2. Barsukov F. I. and Rusanov Yu. B. Elements and devices of radiotelemetric systems. M., “Energie, 1973, p. 243- 247, fig. 8-9 (prototype).