SU175271A1 - TWO-CHANNEL COMPENSATION PHOTOMETER - Google Patents

Description

A two-channel compensation photometer is known, which contains one source and one radiation receiver, a modulator, spherical mirrors, a photometric wedge, and a device for automatically recording measurement results.

In the proposed device, the spherical mirrors in each of the channels are made with the same focal length, which allows varying the path length of the rays in the test medium. The photometer allows you to expand the range and select the optimal measurement conditions.

An external pressure sensor (depth gauge) is installed in the underwater part of the photometer, which makes it possible to obtain the transparency coefficient of seawater as a function of depth.

FIG. Figure 1 shows the optical layout of the photometer; FIG. 2 is a block diagram of the device.

The light from the source / after the modulator 2 is directed to two optical channels — the reference (mirrors 3, 4) and the measuring (mirrors 5, b), and in both channels the luminous flux passes through the test liquid. The mirrors in the measuring channel are made with long focal lengths, and the mirrors in the compensation one are made with short focal lengths, and the distance between the mirrors 5 and b can be changed to select the optimal measurement conditions. Next, using prisms 7, 8 n 9 n lenses 10 and

11 light enters the photodetector 12 alternately from each of the channels. The equality of the light fluxes determines the constant illumination of the photodetector. Different light fluxes cause pulses of a constant photocurrent and a load of a photoreceiver of peak 12 (see Fig. 2).

The capacitor 13, standing at the input of the AC amplifier 14, does not pass the constant component of the photocurrent. Therefore, the current on the phase detector 15 is supplied only in the presence of fluctuations in illumination. Switching voltage to phase detector 15 is supplied from a switching voltage generator, consisting of a photoresistance 16, to which light comes from a light source / after modulator 2 and power amplifier 17.

At the output of the phase detector, a direct current voltage arises, the sign of which depends on which of the channels the luminous flux is greater and the magnitude — the error signal — is proportional to the difference of these fluxes. The error signal after amplification is fed to the reversing motor 18, which, by means of the transmission of the angle 19, distributes the position of the photometric wedge 20 placed in the measuring channel. Engine 1, wedge until the mismatch signal

will not be equal to zero, i.e. the light fluxes of both channels will not become equal.

An external pressure sensor 21 is installed in the underwater part of the device, which serves to determine the depth of the instrument.

Subject invention

Claims (2)

1. Two-channel; 1n compensation photometer containing one source and one radiation receiver, modulator, spherical mirrors, photometric wedge and device for automatic recording of measurement results, characterized in that, for the purpose of scattering the range and selection of optimal measurement conditions, spherical mirrors in each of the cases are made with the same focal length. 2. A photometer according to claim 1, characterized in that, in order to obtain the transparency coefficient of seawater as a function of depth, an external pressure sensor (depth gauge) is installed in its iodine part. FIG 2