SU436986A1 - Device for automatically measuring the intensity of the light field - Google Patents

Description

one

The invention relates to measurement technology and can be applied, for example, to measure the amplitude characteristics of a light field in optical information processing systems.

Logarithmic photometers for measuring the light intensity in a wide dynamic range are known, which consist of a photo multiplier, adjustable resistance, connected in series with a power source and a photomultiplier divider, and a voltmeter for measuring the voltage on the photomultiplier divider, moreover, the photomultiplier signal is fed to the control input of the adjustable resistance and changes its value so that the output current of the multiplier remains constant.

Such devices are characterized by rather large measurement errors, since in real FEMT the intensity of the light applied to the photocathode and the photocurrent are related to the dependence that is different from linear, and the dependence of the photocurrent on the PMT voltage differs significantly from the exponential.

The purpose of the invention is to improve the accuracy and speed of measuring the intensity of a light field, which varies over a large dynamic range.

This is achieved by the fact that the proposed measuring device contains a source

and a sequence of pulses with predetermined amplitudes, connected through an additional amplifier and a scaler with a data retrieval device, and a comparison unit

signals, the output of which is also connected to the input of the data picker. Moreover, the output of the additional amplifier is connected to the control unit by the input of an adjustable sunroof, and the input of the comparison unit - to the output of the amplitude. And a photomultiplier. The construction of the device according to the proposed scheme makes it possible, by calibrating the device, to select the amplitude of pulses in such a way as to compensate for errors associated with

the difference between the real characteristics of the PMT and the theoretical ones, which achieves an increase in the measurement accuracy.

The drawing shows a block diagram of the proposed device.

The measured light note is absorbed by the photomultiplier 1. The output of the photomultiplier 1 is connected via an amplifier 2 to the input of a unit 3 for comparing signals. Source 4 sequence through additional amplifier 5 with input

scaling device 6. The outputs of the scaling device 6 and the signal comparison unit 3 are connected to the inputs of the data pick-up device 7. In the circuit of the power source 8 in series with the PMT 1, an adjustable impedance 9 is connected. The output of the amplifier is 5 coi