SU366362A1 - U'DK 535.8 (088.8) - Google Patents

Description

one

The invention relates to the improvement of photometric devices.

Two-beam photometric instruments are known which contain a compensating element and a control circuit. The compensating element is made, for example, in the form of a photometric wedge.

In the proposed device, the compensating element is designed as a chemotronic integrating diode, which makes it possible to increase the measurement accuracy and eliminate the kinematic coupling between the compensating element and the control circuit.

The drawing shows the optical layout of a dual beam photometric instrument.

The light beam from the source / is divided into two beams - measuring and reference. In the measuring channel, the light from the source passes through the object under study 2, in the reference channel through the compensating element 3, made in the form of a chemotronic diode. After modulation with an obturator 4, the luminous flux is sensed by the photomultiplier 5 and fed to an amplifier 6.

The amplified electrical signal controls the phase-sensitive switch 7, which connects the chymotronic diode to the DC source. The current flows through the chemotron diode until its transparency becomes equal to the transparency of the object and the electrical signal at the amplifier output disappears. The phase-sensitive key disconnects the diode from the current source, and the electrolyte transparency does not change more.

Parallel to the chemotron diode, any reading device can be switched on, calibrated in units of density.

Subject invention

A two-beam photometric device containing a compensating element and a control circuit thereof, characterized in that, in order to increase the accuracy, the compensating element is designed as a chemotronic integrating diode.