RU2002216C1 - Converter of lased radiation power - Google Patents

Description

housing 1. After multiple reflections from the inner surface of the housing, the scattered radiation, proportional in power to the radiation incident on the input of the converter, enters the receiving element 4, which forms the output signal of the converter. The use of a focusing mirror makes it possible to localize all the radiation on a small primary portion of the diffuse-reflecting surface and thereby reduce the dependence of the transducer readings on the spatial and angular distribution of radiation entering the transducer by equalizing the conditions of re-reflection of radiation inside the transducer housing for all spatial and angular components of the full beam.

The receiving element 4 is mounted outside the optical system formed by the input window 2 and the focusing mirror 3 so as to completely exclude the direct radiation of the laser beam from the receiving element and to ensure that only repeatedly reflected light is received. Since during repeated reflection from the inner surface, in addition to scattering radiation, it is also depolarized, practically depolarized radiation is incident on the receiving element regardless of the azimuth and degree of polarization of the laser radiation incident on the input of the converter.

The depolarized radiation received by the receiving element is converted into an electrical signal, which is directly proportional to the power of this radiation. Thus, the depolarization of radiation in this case eliminates one of the main components of the error of the converter, due to the dependence of the readings of the receiving element on the degree and azimuth of the polarization of the radiation incident on it.

In addition, the placement of the receiving element inside the enclosed volume ensures the stability of convective heat transfer between the receiving surface and the surrounding air in contact with it, and ensuring good thermal contact between the receiving element and the housing leads to equalization of the temperature of the receiving element, housing and air inside the housing, which reduces the intensity of the above convective heat transfer of the receiving surface with the surrounding air.

Elimination of error components due to radiation polarization and instability of convective heat transfer provides an increase in the accuracy of power conversion by a converter, (56) M. L. Kozachenko, Primary Measuring Transducer TPI-14, Quantum Electronics. 1978., v. 5, No. 11, p. 2516.

Anatychuk L.I. Thermoelements and thermoelectric devices. Handbook, 1979, p. 664

US patent No. 3851174, CL. G 01J 3/00, 1976.

Claims (1)

The claims A LASER RADIATION POWER TRANSFORMER, comprising a receiving element in the form of an electrically insulating substrate, on the surface of which an anisotropic film of thermoelectric material is made, characterized in that a closed housing is introduced about it (with an input window and a focusing mirror, the inner surface of the housing is made on a diffusely reflecting, focusing mirror is located inside the housing and forms an optical system with the input window, and the focusing mirror is inclined to the axis of the optical system, the receiving element is installed inside the housing, outside the optical system, the rear surface of the substrate of the receiving element is mounted on the inner surface of the housing. 4