SU1018140A2 - Telemetering data transmission device - Google Patents

Abstract

1. DEVICE FOR TRANSMISSION OF TELEVISIES ON AUTH. St. No. 746670, about the fact that, in order to increase the device's intrusion, the control unit of the error analysis was introduced into it, the first, second and third output of the error analyzer are connected to the first, second and third inputs of the unit, respectively The control of the error analyzer, the fourth and fifth inputs of which are connected respectively to the second output of the unit with the input and the output of the standby multivibrator, the reset input of the generator of the approximation error in each measuring channel is connected to the corresponding analyzer first output errors, a third output connected to a control input khoim Anash-tsiffovogo converter controlling th tions whose output is connected to a control input of read block kpschm. 2. Set up) under item 1, characterized in that the error analyzer is made on. pulse distributor, trigger, counter, decoder, amplifier, threshold element, memory element, AND elements and keys, key outputs are combined and connected to the first input of the memory element, the output of which is connected through a series-connected amplifier and threshold element to the counter input , the outputs of the counter are connected via a decoder with the first inputs of the first elements AND, the inputs of which are combined with the second input of the memory element and the first input of the trigger and connected to the first output of the impulse distributor QoS, the trigger output is connected to the first input of the ICP element I, the output of Kotopioro is connected to the second input of the counter and the input of the pulse distributor, the second outputs to (About which are connected to the first inputs of the keys, the second input of the keys, the second input of the trigger, the second input of the second element AND : w respectively to the first, second and third inputs of the error analyzer, the outputs of the first elements AND, the outputs of the counter and the output of the pulse distributor are connected respectively with the first, all and the third outputs of the analyzer error y. OS 3. The device according to claim 1, S is that the block; the error analyzer control is performed on an adder, register, threshold element, triggers, differentiate 11 (their elements, OR elements, AND element and indicator, register paths through differentiating elements are connected to the inputs of the first OR element, the output of which is connected to the first input of the first trigger, the output of the first trigger is connected to the first input of the AND element, the output of which is connected to the first input of the second OR element, the output of the adder through the threshold / connecting element with the first entrance

Description

the second trigger, the output of which is connected to the second input of the second element OR, the output of which is connected to the input of the indicator, the inputs of the adder, the first and second inputs of the register, the combined second inputs

the triggers and the second input of the And element are connected respectively to the first, second, third, fourth, and fifth inputs of the control unit of the error analyzer.

The invention relates to telemetry, may be applied in telemechanics, in automatic control systems, and the like. According to the main author. St. No. 746670, a device for transmitting telemetry is known, which contains an approximation error transducer / differential element, a trigger, an And element, a display unit and a key in each channel. In addition, the rOF device contains a clock pulse generator (GTI), an error analyzer, a standby multivibrator, an analog-to-digital converter (ADC), a reading unit, the information inputs of the PSA and the keys are connected to the inputs of the device, the outputs of the PPA are connected to the first inputs of the error analyzer and to the inputs of differentiating elements whose outputs are connected to the zero inputs of flip-flops, unit Vedohody which are connected to the first inputs of the elements And, the outputs of which are connected to the inputs of the display units. The first outputs of the error analyzer are connected to the control inputs of the keys, the outputs of which are connected to the information input of the AD. The information inputs of which are connected to the information outputs of the ADC, the second outputs of which are connected to the address inputs of the readout unit. The third input of the error analyzer, and the second output to the single inputs of the triggers and to the input of the waiting multivibrator, the output of which is connected to the second inputs of the elements AND, the output of the GTI is connected to the second input analysis ator error, the output of the unit is read-. This is the output of yCTpoftcTBaf Disadvantage | M of this device is the lack of control over the operation of the error analyzer, while the control unit of the tal blocks are or are known. Failure of the error analyzer can lead to the fact that in the communication channel it will transmit | incorrect information or information from only one channel. The purpose of the invention is to increase the reliability of the device and expand its functionality by introducing control over the operation of the error analyzer. The goal is achieved by introducing an error analyzer control unit into the telemetry transmission device, the first, second and third outputs of the error analyzer are connected to the first, second and third inputs of the error analyzer control unit, respectively, the fourth and fifth fifths of which are connected respectively to the second the output of the reading unit. and the output of the standby multivibrator, the reset input of the approximation error converter in each measuring channel is connected to the corresponding The output of the error analyzer, the third output of which is connected to the control input of the analog-digital converter, the control output of which is connected to the control input of the readout unit. In addition to what, the error analyzer is performed on the pulse distributor, trigger, counter, decoder, amplifier threshold element, memory element, AND elements and keys, the key outputs are combined and connected to the first input of the memory element, the output of which is through a series-connected amplifier and threshold the element is connected to the first input of the counter, the counter outputs are connected via a decoder to the first inputs of the first elements AND, the second inputs of which are connected to the second input of the memory element and the first input of the trigger and under Linked to the first output of the pulse distributor, the trigger output is connected to the first input of the second element, the output of which is connected to the second input of the counter and the input of the pulse distributor, the second outputs of which are connected to the first inputs of keys, the second inputs of keys, the second input of the trigger, the second input of the second element And connected respectively to the first, second and third

the inputs of the error analyzer, the outputs of the first elements And, the outputs of the counter and the output of the pulse distributor are connected respectively to the first, second and third outputs of the error analyzer.

The control unit of the error analyzer analyzer is executed on the adder, register, threshold element, triggers, differentiating elements, OR elements, AND element and indicator, register outputs through differentiation elements are connected to the inputs of the first OR element, the output of which is connected to the first input of the first trigger, the output of the first trigger is connected to the first input of the element I, the output of which is connected to the first input of the second element OR the output of the adder through a threshold element connected to the first input of the second trigger, output It is costly connected to the secondary input of the second OR element, the output of which is connected to the input of the adder input indicator, the first and second inputs / registers, the combined second inputs of the flip-flops to the second: the input of the AND element are connected with the first, second, third, fourth and to the inputs of the unit; and the control of the error analyzer. . .

The drawing shows a structural diagram of a device for transmitting a tele1Emereny.

The device contains a converter. 1 error approximations; 1PPA designed to generate; voltage, proportional to the error of approximation, trim elements 2, for the formation of signals s.bros triggers 3, which serve for fic- P1GA 1 fault condition and elements 4 and 4 are designed to determine the presence of PPA 1 alarms in the time specified by the waiting multivirator 5, display b blocks, indicating the results of the PPA control .1 keys 7 that are used to connect measured values to the analog input digital converter (.ДЩ1) 8, readout block 9, designed to convert a parallel code into a serial code and to transmit it to a communication channel, an error analyzer1 10 that serves to determine the measuring channel with the greatest error approximation.

The error analyzer 10 can be implemented with the help of keys 11 used for switching voltages in analyzing the values of errors, the distributor 12 of pulses controlling the operation of the error analyzer 10 of the memory element 13 of the memory, analog memory.

A voltage storage unit, proportional to the maximum approximation error, of the pulse amplifier 14, used to increase the approximation error increment, of the threshold element 15 intended to limit the signal-,. from 14 amplifier 16, which is used to fix the channel address with the highest

0 by the error, the decoder 17, converts the binary code of the address into positional, AND 18 elements, which control the switching of keys 7, trigger 19, and AND element 20, which are used to start the distributor 12 pulses.

In addition, the device for transmitting telemetry includes a clock pulse generator (GTI) 21,

0 is used to synchronize the operation of the device and the error analyzer control unit 22, which can be implemented, for example, using a parallel register 23,

5 serves to memorize the addresses of the polled channels, the differentiating elements 24 and the element OR 25j. employees to determine the presence of switchings of the analyzer 10 through Q errors, the trigger 26, which fixes the absence of operation, the analyzer 10 errors, element 27, designed to determine the presence of switchings of the analyzer 10 errors for a specific, adder 28, performed, for example / on resistors and implementing summation of the output signals of the analyzer 10 errors, the threshold element

0 29, which serves to determine from the left the scientific research institute at the outputs of the analyzer at 10 errors of more than one signal, triggered simultaneously, trigger 30, fyk-. In this case, the incorrect operation of the analyzer 10 errors, the element OR 31, combines the signals of failures, and the indicator 32, reflected (the degr results of the control of the anapiser 10 errors., the device works as follows

0 ebrazom ...

 In each measuring channel 33 JAPA 1, the input signal is continuously analyzed. The output voltage PPA 1, proportional to the approximation error, is fed to the information inputs of the keys 11 of the error analyzer 10. The start of the cycle signal, which is generated by the read block 9 on the first control output, the trigger 19 goes into one state, and the pulses from the GTI 21 begin to flow through the element 20 to the input of the pulse distributor 12, which

5, using keys 11, alternately connects the voltages from the PPA 1 outputs to the input of element 13, which stores the maximum approximation error, and if the error of any channel exceeds the voltage of the previous channel, a signal generated by the output of the pulse amplifier 14 appears then the threshold element 15. The signal from the output of the threshold element 15 resets the counter 16 to the position corresponding to the number of channels of the device. Further, if the approximation error does not exceed the error of the previous channel, the counter 16 is not reset, and the signals from the GTI 21 arriving at the other input of the counter 16 decrease with each clock cycle the number recorded in chiNge 16 by one. At the end of the operation of the distributor 12 pulses in the counter 16 there appears the code of the channel address with the highest approximation error. The decoder 17 converts the binary code of the address into a discretionary one. The signal at the output of the overflow of the pulse distributor 12 flips the trigger 19 to the zero state, prohibits the pulses to enter the distributor 12 pulses, resets the memory element 13, rewrites the address of the selected channel to the register 23, opens the key 7 of the channel with the maximum error and gives the command to start the operation of the A / D converter 8. The input signal of the selected channel is converted by A / D converter 8 into a code. At the end of the conversion, the A / D converter 8 issues a control signal enabling the operation of the reading unit 9. A parallel code of information from the output of the A / D converter 8 and an address code from the output of the error analyzer 10 enters readout block 9, where a serial code is formed which is transmitted to the communication channel. Upon completion of the readout, the readout unit 9 generates a signal at the beginning of the cycle, and then the device continues to operate in the same way. At the moment of selecting a particular channel 33, PPA 1 of this channel is reset, i.e. the output voltage of the PPA 1 decreases to zero. At the output of the differentiator element 2, a pulse appears that acts on trigger 3. Initially, trigger 3 is set to one state by a signal from reading unit 9, which goes through a certain number of device operation cycles. The signal from the output of differentiating element 2 resets the trigger 3 to zero. 1 At the end of a predetermined time determined by the dynamic properties of the input signals, a single appears at the output of the waiting multivibrator 5. If during the specified time any of the triggers 3 fail. returns to the zero state, element I 4 is activated, and its corresponding channel 33 and 5 is lit - the corresponding indicator 32.

The operation of the error analyzer 10 is monitored in two directions.

0 First, operation monitoring is performed, i.e. checks for changes in the addresses of the channels selected for transmission. If during the time specified by the waiting multivibrator 5, the address of the polling channel does not change, the output of the register 23 does not change the signals, therefore, the differentiation of the elements 24 does not work, and the trigger 26 is set up in the unit state in which it was set originally by the second control signal from the output of the reading unit 9. The element 27 and the signal with

5 of its output through the element OR 31 is fed to the input of the indicator 32, which identifies the malfunction of the analyzer 10 errors. Secondly, a malfunction is detected, resulting in the occurrence of signals simultaneously on two or more, the tires of the first outputs of the analyzers 10 errors. If signals appear more than the output,

5, the adder 28 outputs a signal exceeding. setting voltage threshold of the threshold element 29, which is triggered and throws the trigger 30 in one state. Pre-install trigger 30 to zero

the state is produced by the signal from the second control output of the readout unit 9. In case of malfunction, the signal unit from the unit output of the trigger 30 through the element OR 31

5 is fed to the input of the indicator 32, in which the fault is indicated.

One of the main indicators of 0 reliability in accordance with GOST

13377-75 51 reliability in technology. Terms and definitions is a KONBI complex indicator - the object availability factor. The availability factor C characterizes the likelihood that the object is in operation, and not in the maintenance state

(one)

where T is the average time between 65 and the failure; average recovery time of the object. If the object is monitored continuously, as in the proposed device, then K, - 1. In this case, the readiness coefficient increases by approximately Y, times. T - Ta. Those., 4 -T-, where K j. 1 is the readiness factor of an object with built-in unit 22. Suppose, for example, the recovery time is 10% of the time for work to failure. Then the introduction of the control unit 22 of the error analyzer increases its reliability index in accordance with formula (2) by approximately 10%. Since the amount of analyzer equipment is. about sinfulness; equal to half the volume of the apparatus of the entire device for transmitting telemetry, the readiness factor of the latter increases by approximately 5%. On the other hand, since the error analyzer controls the operation of the entire device for transmitting the telemetry, a malfunction of the analyzer causes the entire device to fail. Therefore, when measuring responsibly, in order to increase the reliability, it is possible to ensure that the hot re-testing of the control equipment, i.e. its duplication. The introduction of continuous monitoring of the error analyzer makes it possible to avoid such duplication, which reduces the hardware costs by approximately 1.5–2 times. We give this data on the technical and economic efficiency of the proposed device for transmitting telemetry compared to the base object. The basic object of the adopted information and measurement system is 1IIS) / K734, since it solves problems similar to those of the proposed device — collecting and initial processing of information from sensors and is one of the most common modern systems used for these purposes. The technical task of the invention is to create a highly efficient and reliable device for transmitting telemetry. IIS K 734 has up to 100 measuring channels switched with a constant frequency of up to 200 channels / s. The proposed device uses the principle of adaptive switching, which allows, by eliminating redundant samples (compression) at the same frequency of transmissions to the communication line, to increase the number of channels served by KC times where K is the compression ratio. For simpler and more common PPA algorithms with extrapolations of the null and first order K., d; taking into account the need to address the parcels. Thus, it is possible to use one proposed device instead of three basic objects. The cost of one IIS K 734 is about 30 thousand rubles. Given the fact that the proposed device is approximately 1.5-2 times more complicated than the base object, its cost can be estimated at 60 thousand rubles. Then the economic effect from the use of the invention is approximately 30 thousand rubles per proposed device.

Claims (3)

1. DEVICE FOR TRANSMISSION OF TELEVISION MEASUREMENTS by ed. St. No. 746670, with the exception that, in order to increase the reliability of the device, an error analyzer control unit has been introduced into it, the first, second and third outputs of the error analyzer are connected to the first, second and third inputs, respectively the error analyzer control unit, the fourth and fifth inputs of which are connected respectively to the second output of the reading unit and the output of the standby multivibrator, the reset input of the approximation error converter in each measuring channel is connected to the corresponding first at the output of the error analyzer, the third output of which is connected to the control input of the analog-to-digital converter, the control output of which is connected to the control input of the reading unit. 2. The device according to π. 1, characterized in that the error analyzer is made on. pulse distributor, trigger, counter, decoder, amplifier, threshold element, memory element, elements) And and keys, the outputs of the keys are combined and connected to the first input of the memory element, the output of which is connected through a series-connected amplifier and threshold element to the first input of the counter , the outputs of the counter are connected through a decoder to the first inputs of the first elements AND, the second inputs of which are combined with the second input of the memory element and the first input of the trigger and are connected to the first output of the pulse distributor s, the trigger output is connected to the first input of the second AND element, the output of which is connected to the second counter input and the pulse distributor input, the second outputs of which are connected to the first key inputs, the second key inputs, the second trigger input, the second input of the second AND element are connected respectively to the first , the second and third inputs of the error analyzer, the outputs of the first AND elements, the outputs of the counter and the output of the pulse distributor are connected respectively to the first, second and third outputs of the error analyzer. 3. The device pop. 1, 'characterized in that the unit / control of the error analyzer is made on the adder, register, threshold element, triggers, differentiating elements, OR elements, AND element and indicator, the register outputs through differentiating elements are connected to the inputs of the first OR element, the output of which is connected to the first input of the first trigger, the output of the first trigger is connected to the first input of the AND element, the output of which is connected to the first input of the second OR element, the adder output through the threshold / The element is connected to the first input "SU ... 1018140 the second trigger, the output of which is connected to the second input of the second OR element, the output of which is connected to the indicator input, the adder inputs, the first and second inputs of the register, the combined second inputs of the triggers and the second input of the AND element are connected respectively to the first, second, third, fourth and the fifth inputs of the control unit of the analyzer errors.