RU1791838C - Information transmitting device - Google Patents

Abstract

The invention relates to telemechanics and can be used to measure various values recorded by current output sensors and an exponential output characteristic. The purpose of the invention is to increase the reliability of information transfer. The device contains on the transmitting side code relays, code wires of the communication line, contacts of the code relay, information wires of the communication line, sensors and on the receiving side a generator, code generator, code relays, power supply unit, logarithmic amplifier, analog subtractor, analog divider, analog a digital converter, an indication unit, a voltage divider comprising a power supply unit, a reference resistor, driving resistors, closing contacts of the code relays, and a voltage divider consisting of a power supply unit, a reference resistor RA, setting resistors and make contacts of code relays. The device linearizes the characteristics of each sensor, which ensures high accuracy of telemetry. Sensitivity (steepness of the output characteristic) is easily controlled by changing the scale factor specified by the second voltage divider 20, which leads to high reliability and sensitivity of telemetry. 1 ill. | cl | C

Description

The invention relates to telemechanics and can be used to measure various values recorded by sensors of non-electric quantities with a current output and an exponential output characteristic.

The purpose of the invention is to increase the reliability of information transfer.

The drawing shows a functional diagram of a television measuring device.

The device comprises on the transmitting side code relays 1, code wires of the communication line 2, contacts of the code relay 3, information wires of the communication line 4, sensors 5, and on the receiving side a clock pulse generator 6. code generator 7.

code relays 8, power supply 9. logarithmic amplifier 10, analogue reader 11, analogue divider 12, analog-to-digital converter 13.h, display unit 14, voltage divider 15, containing the block; a power supply 16, a reference resistor 17, the driving resistors 18 and the making contacts 19 of the code relays 8, and a voltage divider 20, consisting of a power supply unit 21. a supporting resistor 22, the setting resistors 23 and the making contacts 24 of the code relays 8.

The device operates as follows.

6. Clock Generator 6. Which can be used, per kgEg &

an example, a multivibrator, generates rectangular pulses. When pulses arrive at the code setter 7, which is, for example, a binary counter, the code corresponding to the polled sensor 5 is transmitted via the code wires 2 of the communication line. In this case, the corresponding code relay 1 is activated and, with its contacts 3, connects the polled sensor 5 to the information wires 4 communication lines and power supply 9. If a semiconductor element is used as the sensing element in the sensor with current output 5, the output dependence of the sensor is a complex exponential function p emogo parameter. Therefore, the output of the logarithmic amplifier 10 receives a signal in the form of a direct current, the value of which exponentially depends on the value of the measured parameter. The voltage at the output of the logarithmic amplifier 10 is the sum of the value inversely proportional to the measured value and a constant, the value of which is determined by the parameters of the sensor 5 and the logarithmic amplifier 10, and does not depend on the measured value. This voltage is supplied to the first input of the analog subtractor 11 and subtracted from the voltage supplied to the second input of the analog subtractor from the voltage divider 15.

When the setter moves 7 on the code wires of the communication line 2 of the code combination, simultaneously with unlocking the relay 1 on the transmitting side, the corresponding code relay 8 on the receiving side is also triggered. The make contacts 19 and 24 connect resistors 17 and 18, 22 and 23, respectively, in parallel with the power supply units 16 and 21 of the respective voltage dividers 15 and 20.

The voltage at the output of the voltage divider 15 is a function of the voltage of the power supply unit 16, the reference resistor 17, and the driving resistor 18. By changing the value of the driving resistor 18, the voltage applied to the second input of the analog subtractor 11 is constant, a constant part of the voltage the input to the first input of the analog subtractor. Therefore, the voltage at the output of the analog subtractor 11 supplied to the first input of the analog divider 12 is inversely proportional to the measured parameter. The proportionality coefficient is determined by the parameters of the sensor 5 and the logarithmic amplifier 10 and is a constant value for the selected sensor 5.

The second input of the analog divider 12 receives the voltage generated by the voltage divider 20 similar to the divider 15 and proportional to the coefficients

of proportionality, the Analog divider 12 divides the voltage supplied to the second input from the voltage divider 20 by the voltage supplied to the first input from the analog subtractor 11. A voltage proportional to the measured parameter is generated at the output of the analog divider predefined by a scale factor. This voltage is fed to the input of the analog-to-digital converter 13 and is displayed by the display unit 14.

After the end of the pulse supplied by the generator 6, a pause occurs and the contacts of the code relays 1 and 8 are disconnected. The information wires 4 are disconnected from the outputs of the sensor 5, the voltage dividers 15 and 20 are disconnected from the power supplies 16 and 21, respectively, and the functional units 10- 14 resets. When a new pulse is received at the input of the code setter 7 from the clock generator, the measurement cycle is repeated for the next sensor 5.

0 Thus, in the proposed device, the characteristics of each sensor are linearized, which ensures high accuracy of telemetry. The sensitivity (steepness of the output characteristic) is easily controlled by changing the scale factor set by the second voltage divider 20, which leads to high accuracy and sensitivity of the telemetry.

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Claims (1)

SUMMARY OF THE INVENTION A device for transmitting information, comprising a group of sensors on the transmitting side and a pulse generator, a logarithmic amplifier and an indication unit on the receiving side, characterized in that, in order to increase the reliability of information transmission, a code relay group is input on the transmitting side, input 0 each of which is connected to the corresponding code wire of the communication line, the movable terminals of the binary and second make contacts of each code relay of the code relay group are connected respectively to the first and second information wires of the communication line, the fixed terminals of the first and second make contacts of the code relay of the code group relays are connected respectively to the first and second conclusions of each sensor of the group, on the receiving side are entered - a code master, a group of code relays, an analog subtractor, an analog divider, an analog-to-digital converter, the first and second voltage dividers, each of which contains a power supply, the first terminal of which is connected through the first resistor to the first terminals of the second and a third resistor, the second terminals of which are respectively connected to the movable contacts of the respective code relays of the group, the second terminal of the power unit is connected to the fixed contacts of the corresponding code relays of the group, One pulse generator is connected to the input of the code generator, the output of which is connected to the corresponding input of the code relay of the code relay group, the output of the logarithmic amplifier connected to the first input of the analog subtractor, the second input of which is connected to the combined first outputs of the second and third resistors of the first voltage divider, the output of the analog subtractor is connected to the first input of the analog divider, the second input of which is connected to the combined first outputs of the second and third resistors of the second divider voltage, the output of the analog divider is connected via an analog-to-digital converter to the input of the display unit, the first input of the logarithmic amplifier is connected to the first output power supply house, second the input of the logarithmic amplifier and the second output of the power supply are connected respectively to the first and second data wires of the communication line.