SU890081A1 - Photometer - Google Patents

Description

The invention relates to photometry and can be used to measure the intensity of the light flux. One of the known photometers contains a series-connected reference source, an output adder, an operational amplifier with photoresistors in the input circuit and a negative feedback circuit, and an output adder (1j. The disadvantage of this photometer is limited accuracy. The closest technical solution to the proposed is a photometer containing a series-connected reference voltage source, an input adder, an operational amplifier with photoresistors in the input circuit, and in the negative circuit brotherly connection and output adder-, the second input of which is connected with the output of the input adder, as well as the second operational amplifier with photoresistors in similar circuits, the output of which is connected with the terminator C2j. The disadvantage of the known photometer is limited accuracy. accuracy increase. To achieve this goal, a known photometer containing series-connected reference voltage input adder, operational amplifier with photoresistors in the input circuit and in the circuit is negative The second feedback and output adder, the second input of which is connected to the output of the input adder, as well as the second operational amplifier with photoresistors in similar circuits, the input of which is connected to the third adder, additionally introduced the fourth adder, the output of which is connected to the photoresistor of the second operating amplifier, one input - with the output of the second operational amplifier, and the second input - with the second input adder

and with the output of the third adder, the second input of which is associated with the output of the first operational amplifier.

The drawing shows a diagram of the device.

The device contains a source of reference voltage 1, an input adder 2, an operational amplifier 3 with photoresistors and 5f adders 6-8, and an operational amplifier 9 with photoresistors 10, T1.

The device works as follows.

When exposed to luminous flux on the photoresistors 5 and 11, their resistance changes in proportion to the intensity of the effect. Since photoresistors 4 and 10 have a constant illumination, respectively, the variation of the resistance of photoresistors 5 and 11 varies koe (the transmitters of the operational amplifiers and the value of the output voltage of the device. The mathematical expression of the output voltage of the meter looks like a fractional function, the members of which are the transfer coefficients of adders and characteristics of photoresistors.The values of the transmission coefficients, linearizing the dependence of the output voltage, can be obtained by calculation and set with With the help of variable resistors. The proposed device performs, with a zero error, the linearization of the photoresistor characteristic, which is approximated by a rational fraction with second-order polynomials in the numerator and denominator. The photoresistors and 10 are used to compensate for the temperature error. Compensation occurs due to the fact that the photoresistors i and

10 are in the same operating conditions as five, eleven, but included in different points of the circuit, as well as by choosing the level of illumination and transmission coefficient values of the adders.

The present invention makes it possible to increase the linearity of the characteristic of the conversion of the light flux to the output voltage, or, without decreasing the accuracy of the conversion, to extend the measuring range.

Claims (2)

1. USSR author's certificate If 638852, cl. G 01 J, 1978. 2. Author's certificate (GSSR according to the application ff, class C. 01 J lA 1979 (prototype).