SU721681A1 - Device for measuring sensitivity threshold of photoelectric shadow instrument - Google Patents

Description

(54) DEVICE FOR THRESHOLD MEASUREMENT

SENSITIVITY OF A PHOTOELECTRIC SHADOW DEVICE

3 is fixed stationary, and part 4 is pressed by the spring 6 to the spring-loaded lever 8 mounted on the axis 9. The second end of the lever 8 rests on the eccentric 10 mounted on the shaft of the electric motor 11.

The device works as follows.

The device is installed so that the beam of light coming out of the FETP lens passes through the wedges 1, 2 of the device. When power is applied to the electric motor 11, the eccentric 10 starts to move and causes an oscillating movement (relative to axis 9) of the lever 8, the second end of which transmits the force to the moving part

4 with a wedge 2. Part 4 performs oscillatory movements about the axis (lock) 5. At the same time, the angle of incidence of the beam on the wedge 2 periodically changes with the frequency of rotation of the engine, as a result of which the part of the beam passing through the wedge 2 periodically changes its direction. This leads to the appearance of a signal at the FETP output. The springs b and 7 create a force that ensures the oscillation amplitude of the lever 8 and the part 4 of the frame, while the waveform at the output of the FETP is close to sinusoidal. The geometrical dimensions of part 4 and lever 8 choose,. based on the requirements for the angle of rotation of the light beam. By setting the interface between the wedges 1 and 2 to different places of the beam section coming out of the objective lens to be tested. possible to study the band characteristics of FETP.

The effectiveness of the proposed device is determined by the ability to set the input of the tested FETP at the input.

an amplitude constant (within the whole dynamic range) input influence (angle of rotation of light rays) and a ratio varying at the discretion of the researcher (within the beam section) of constant and variable angles of rotation of light rays, i.e. ; Vat, optical heterogeneity of various sizes. The state of amplitude: the driving effect causes a decrease in the measurement error of the IF. One of the additional advantages of the device is the possibility of using it in vibration-proof modifications, devices in which the light beam passing through different sections of the viewing volume takes place. Previously known devices do not provide the possibility of measuring the frequency converter of such modifications. The use of the device allows the calibration of FETP, which ensures easy interchangeability of devices and significantly improves the accuracy of measurements using FETP.

Claims (2)

Invention Formula A device for measuring the threshold of sensitivity of a photoelectric shadow device, containing an optical wedge in the frame and a mechanism for periodic oscillations of the wedge, characterized in that, in order to expand the measurement capabilities of the device by simulating optical inhomogeneities and improve the measurement accuracy, it is made in the form of two optical wedges with equal refractions angles mounted in a common frame consisting of two parts connected by a hinge, one of which is fixed, and the period The wedge oscillates in the form of a spring-loaded lever, one end of which interacts with a movable part of the frame, and the other with an eccentric mounted on the motor shaft. Sources of information taken into account in the examination .one. Lyskov V.G. and etc-. Measurement of the threshold of sensitivity of a photoelectric shadow device, OMP, 1970, No. 5, p. 64. 2. Krasovsky E.I., Naumov B.V. An installation for measuring the threshold of sensitivity of the ripple transducer of the water refractive index. Collection of Optical Studies in the Ocean and in the Atmosphere over the Ocean, Moscow, Institute of Oceanography, USSR Academy of Sciences, 1975 (prototype). Y // A T I Q iy / V