SU1717975A1 - Circuit for measurement of radiation - Google Patents

Abstract

The invention relates to a measurement technique, namely to contactless methods for measuring the parameters of objects by their radiation, and can be used in pyrometry, laser and light engineering. The purpose of the invention is to improve the measurement accuracy. The essence of the invention is to eliminate the instability of the output voltage of the voltage source 5, which sets the current through the radiation receiver 1, by providing a constant current flowing through the series-connected radiation receiver 1 and the first resistor 2. By changing the voltage drop on the third resistor 4, the magnitude of the flux of the investigated radiation is judged. In this way, the accuracy of the measurements is improved. 1 il.

Description

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The invention relates to a measurement technique, namely to contactless methods for measuring the parameters of objects by their radiation, and can be used in pyrometry, laser and light engineering.

A known scheme for measuring thermal radiation by a thermo resistive radiation detector comprising a substrate with lead electrodes, a metal heat sink unit and a thermal resistive layer.

A known scheme for measuring the light emission by a photoelectric device, which is connected in series with an active resistance and a power source.

A significant disadvantage is the large distortion of the measured signal as a result of the non-linearity of the dependence on changes in the size of the power supply, as well as the lack of protection against interference.

The purpose of the invention is to improve the measurement accuracy.

The drawing shows a block diagram of the device.

The radiation measurement circuit contains a radiation receiver 1, made in the form of photoresistance, the first 2, second 3 and third 4 resistors, voltage source 5, regulating element 6, discriminator 7 and reference voltage source 8.

The scheme works as follows.

The radiation flux from the object under study (not shown) hits the receiving area of the radiation receiver 1, causes a change in its resistance value, which leads to a change in the current flowing through the series-connected radiation receiver 1 and the first resistor 2 from the voltage source 5 A change in the magnitude of the current flowing through the first resistor 2 causes a change in the voltage drop across it, and a signal appears at the output of the discriminator 7, the value of which is proportional to the spacing voltage at its first and second inputs, while the voltage at the second input is determined by the output voltage of the source 8 of the reference voltage. The signal from the output of the discriminator 7 is fed to the control input of the regulating element 6, at the output of which the voltage value changes until

the output of the discriminator 7, the signal will not be equal to zero. In this case, the magnitude of the current flowing in the circuit of the radiation receiver 1 connected in series and

the first resistor 2 returns to its original value.

A change in the voltage value at the output of the discriminator 7 also causes a change in the magnitude of the current flowing

through series-connected second 3 and third 4 resistors, causing changes in the voltage drop across them. In terms of the voltage drop across the third resistor 4, the magnitude of the radiation flux from the object under study is judged, the unambiguous connection between which is established upon certification of the device.

The magnitude of the voltage at the output of the source 8 of the reference voltage is set when the radiation receiver 1 is darkened, so that the signal at the output of the discriminator 7 is equal to zero. All this allows to exclude the effect of changing

the voltage at the output of the voltage source 5, which leads to an increase in the measurement accuracy.

Claims (1)

Invention Formula A radiation measurement circuit comprising a series-connected radiation receiver and a first resistor, the first terminal of which is connected to the first output of a voltage source, characterized in that that, in order to improve the measurement accuracy, it additionally contains a regulating element, a discriminator, a source of reference voltage and serially connected second and third resistors, the second terminal of the voltage source is connected via the regulating element to the first terminals of the radiation receiver and the second resistor, the first input of the discriminator is connected to the second terminals the radiation receiver and the first resistor, the second input is with the output of the voltage source, and the output is with the control input of the regulating element; scheme.