SU638852A1 - Illumination intensity meter - Google Patents

Claims (2)

values, respectively, on the course and in the feedback circuit of the operational amplifier 6, variable resistors 7 and 8, standing at the inputs of the adder 9, the variable resistor 7 connected to the output of the adder 3, and the variable resistor 8 - with the output of the operational amplifier 6 and through a variable the resistors 2 - with the input of the adder 3. The meter works as follows. When a photoresistor 5 is exposed to the light flux, its resistance changes by the value of i R, the resistance of the photoresistor 4, which has a constant illumination, remains constant. Consequently, the transmission coefficient of the operational amplifier b will change, and the output of the circuit will have a voltage that is proportional to the luminance value. The mathematical expression of the dependence of the output voltage of the circuit on the measured parameter has the form of a fractional function, which includes the transfer coefficients of the adders 3 to 9, the constant voltage Uo and the nonlinear function of the transfer ratio of the operational amplifier 6. output voltage is achieved by setting the corresponding coefficients of transmissions of adders 3 9, can be obtained by calculation and which are installed with the aid of ae | The variable resistors i, 2, 7, and 8. The photoelectric resistor Prc 5, with a photoresistor, which has a different luxometric characteristic, is calculated and set using variable resistors 1, 2, 7, and 8 new values of transmission coefficients. When the ambient temperature changes, the photo sensors of the same type change by the value of D R, and the output signal increments should appear at the output of the circuit, caused by the change in temperature of the photoresistors, but since the photo sensors are included at different points in the circuit, these output signal increments have different signs and compensate each other. Thus, the temperature error is compensated in the meter, which, in turn, increases the measurement accuracy. Claims An illumination meter comprising two photoresistors, one of which with a constant illumination, an operational amplifier, characterized by the fact that in order to increase the accuracy of the measurement, two adders with variable resistors are inputted to it, and the input of the first adder is connected through variable resistor with the first input of the second adder and through a photoresistor with a constant illumination with the input of the operational amplifier, the second photoresistor is connected to the feedback circuit, and its output is connected through ennye resistors to a second input of the second adder and the input of the first adder, a second input coupled to a variable resistor. Sources of information taken into account in the examination:. USSR author's certificate number 209799, cl. G 01 J 1/00, 1968. 2. USSR author's certificate No. 224849, cl. G 01 J / 00, 1968. Uv