SU1515045A1 - Device for measuring parameters of disturbance - Google Patents

Abstract

The invention relates to the measurement of the parameters of the waves of an open water surface and improves the accuracy, reliability and reduce the power consumption of the device due to the fact that the source of heating voltage is made in the form of an electronically controlled voltage regulator. The device is equipped with a temperature sensor 1 fixed in the upper part of the string 2 and two comparators 6, 7, the input of the first comparator is connected to the output of the converter unit 4, the output is connected to the control input of the second comparator 7, the signal input of the second comparator 7 is connected to the temperature sensor 1 , the output of the second comparator is to the control input of the source of heating voltage. When the top part of the string is heated above 100 ° C, intense evaporation of the film forming water is ensured and ice formation is eliminated. A temperature sensor 1, a comparator 7, and a controlled source 5 of the heating voltage are used to automatically maintain the required temperature difference between the surface and submerged parts. 1 il.

Description

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The invention relates to hydrometeorological measurements and can be used to measure the parameters of wind waves in an open water surface.

The purpose of the invention is to improve accuracy and reliability while reducing power consumption.

The drawing shows a functional diagram of the proposed device.

The device comprises a string temperature sensor 1, a high-resistance non-oxide string 2 connected by line 3 to a signal conditioning unit A, and a source of heating voltage 5. The temperature sensor 1 is fixed in the upper surface part of the string 2, the device also contains comparators 6 and 7 and the recorder 8.

The device works as follows.

Changes in string resistance 2,

caused by excitement, are converted by block 4 into an electrical signal, which is fed to recorder 8. The voltage from source 5 of the heating voltage is fed through line 3 to string 2 and heats it. When the top part of the string is heated above 100 ° C (the temperature of the submerged part does not exceed 100 ° C), intense evaporation of the water film is formed and ice formation is eliminated. A temperature sensor 1, comparators 6 and 7, and a controlled source 5 of heating voltage are used to automatically maintain the required temperature difference between the surface and submerged parts. When the temperature of the top part of the string reaches a certain value higher than 100 ° C (when the value of the submerge temperature correlated with it is lower than 100 ° C), the comparator 7 generates a signal that turns off the heating voltage. So, not until

0

five

0

5 5 the string is overheated, which increases the measurement accuracy and leads to a reduction in the power consumption of the device.

The operation of the comparator 7 is as follows. When a logical zero input is applied to its control input, the heating voltage source 5 is turned on, and when a logical unit is applied, the output signal shuts off the heating voltage. The signal to the control input of the comparator 7 is supplied from the output of the comparator 6, whose input is connected to the output of block 4. Comparator 6 is configured so that the voltage of the logical unit at its output will be in the absence of waves, as well as in positive half-cycles. Thus, the preheating voltage will not be applied to string 2 in the absence of waves, as well as during positive half cycles of waves, when the resistance of the sensor can reach unacceptably small values. This is further reduced. The device's net consumption and increased reliability.

Claims (1)

Claims. A device for measuring wave parameters, comprising a high resistance of an oxide-free string connected by a communication bus to a signal conditioning unit, connected to the recorder, and a source of string heating voltage, characterized in that it is equipped with a sensor in order to improve accuracy and efficiency. string temperature associated with a string heating voltage source configured to be switched off, via the first comparator entered, and a second comparator connected between the output of the signal conditioning unit and the corresponding the input of the first comparator.