RU195121U1 - Hybrid photodetector module for low-level television surveillance camera - Google Patents

Abstract

The utility model relates to electronic equipment, in particular, to the device of a low-level television surveillance camera. The hybrid photodetector module for a low-level television surveillance camera contains an electron-optical converter with an output window in the form of a gas-tight fiber-optic element with a luminescent screen at the end located in the vacuum volume of the electron-optical converter, and an image sensor assembly with a gas-tight fiber-optic element, one the end face of which is in contact with the image sensor, and the other with the end of the fiber-optic element of the electron-optical conversion at the opposite end with a luminescent screen. In this case, an optically transparent film is located between the contacting ends of the fiber-optic elements. The technical result of the proposed utility model is the elimination of interference spots. 1 ill.

Description

The invention relates to electronic equipment, in particular, to a low-level television surveillance camera device that uses an electron-optical converter (EOC) as a brightness amplifier and an image sensor assembly with a gas-tight fiber-optic input element, the outer end of which contacts the end of the fiber-optic element of the image intensifier tube, and is characterized in that an optically transparent film is located between the contacting ends of the fiber-optic elements.

Known low-level television surveillance cameras containing image intensifiers coupled to CCD arrays via a focon and called “Low Light Level Image Sensors” or “Intensified CCD Sensor (ICCD)” [1]. Using the image intensifier tube as a brightness amplifier in front of the image sensor allows two to three orders of magnitude to increase the working range of illumination.

EOPs for a low-level television surveillance camera are known, containing an exit window in the form of a fiber optic element, for example, 2+ generation image intensifiers [2] (see also PHOTONIS image intensifier tubes of type XX1451 [3]).

Also known are image sensors based on a charge-coupled device with a fiber-optic input window, for example, CCDs with a fiber-optic input window ELCM1070F manufactured by NPP Elar JSC (St. Petersburg) [4].

In the process of assembling a hybrid photodetector module containing such image intensifier tubes and image sensors, it is necessary to bring into contact the ends of the optical fiber elements of the image intensifier tube and the image sensor. The disadvantage of this design with direct contact of the ends of the fiber-optic elements, as practice shows, is the appearance of interference spots associated with non-ideal flatness of the contacting surfaces (the so-called Newton rings). These interference spots overlap and distort the television image.

The design of the proposed hybrid photodetector module is presented in FIG. 1. Here 1 is the image intensifier tube, 2 is the fiber-optic element of the image intensifier tube, 3 is the optically transparent film, 4 is the fiber optic input window of the sensor, 5 is the image sensor containing a CMOS or CCD matrix on a ceramic-metal base, 6 is the image sensor body , 7 - electronic sensor control unit, 8 - hybrid module housing.

The light image of the object focused through the input window onto the photocathode of the image intensifier tube 1 is converted into an electronic image intensifier tube. The electron image amplified in the image intensifier enters the cathodoluminescent screen deposited on the fiber-optic element 2 of the image intensifier tube, creating an image on it. The image through the fiber-optic element of the image intensifier tube, the optically transparent film 3 and the fiber-optic window of the sensor 4 are scaled and transmitted to the CMOS or CCD matrix of the image sensor 5, where it is converted into a video signal.

The claimed utility model allows to overcome a known drawback - the occurrence of interference spots on a television image. This technical result is achieved as follows. During the assembly of the hybrid photodetector module, a compressive force is applied to the contacting fiber-optic elements along the axis of these elements. An optically transparent film placed between the contacting elements is partially deformed in the places of the local non-flatness of the contacting surfaces, thereby eliminating the local air gap between these planes. At the same time, interference spots are eliminated.

In experimental hybrid photodetector modules, polyethylene and polyimide films were used. The film thickness ranged from 12 to 240 microns. The transparency of the films varied from 0.1% with a thickness of 12 microns to 2% with a thickness of 240 microns. The television resolution of the investigated samples of modules with and without film was no worse than 400 television lines. Samples passed the test for low (-30 ° C) and high (+ 50 ° C) temperature. In all cases, the use of a film eliminated interference spots.

Literature:

1. ICCD television cameras [Electronic resource]. - URL: http://videoscan.ru/page/761 (accessed date: 05/14/2019)

2. Optical devices [Electronic resource]. - URL: http://optik-shop.ru/2-e-pokolenie/eop-2-pokoleniya-formatom-18-i-25mm-ne-invertiruyushchiy/

(Date of access: 05/14/2019)

3. PHOTONIS [Electronic resource]. - URL: https://alpha-photonics.com/produkt/gen-ii-commgrade-xx1451-o43mm/?lang=en

(Date of access: 05/14/2019)

4. Development and production of FPSS and digital cameras based on them. Part I. [Electronic resource] / G. I. Vishnevsky, V. G. Kossov, V. K. Nesterov, M. V. Chetvergov, M. G. Vydrevich, V. L. Rivkind // TeleFotoTehnika. - 2008. - URL: http://telephototech.ru/kat_podr.php?stid=13 (accessed date: 05/14/2019)

Claims (1)

A hybrid photodetector module for a low-level television surveillance camera, comprising an electron-optical converter with an output window in the form of a gas-tight fiber-optic element with a luminescent screen at the end located in the vacuum volume of the electron-optical converter, and an image sensor assembly with a gas-tight fiber-optic element, one end of which is in contact with the image sensor, and the other with the end of the fiber-optic element of the electron-optical conversion ovatelya opposite end with a phosphor screen, characterized in that between the contacting faces of the optical fiber unit is optically transparent film.

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