DE1993232U - OPTO-ELECTRONIC DEVICE. - Google Patents

Description

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Opto-electronic device

The innovation concerns an opto-electronic device. with angles of view > 40 °. ".

With certain opto-electronic devices, e.g. In the case of night driving devices with image converter tubes, lenses are used with large entrance pupils, high focal ratios E./f, large image angles 2 63> 50 ° and small image field diameters required. These requirements cannot be met at the same time, especially not when a distortion-free Image is required. In the opto-electronic devices on which the invention is based, the constructive task lies in front of a lens in a round shaft with a given diameter or a rectangular shaft with a given width with the largest possible entrance pupil opening D and a large relative opening D / f ^ j, 1: 1.3 to accommodate and the entire Use the angle of view of the lens to produce a distortion-free image on the photocathode of an image converter in the Generate image plane of the lens.

Image converter tubes that fit in the same slot have photocathode diameters that are much smaller, than the usable field of view of the lens.

The task of the innovation is to measure the field of view of the lens and to adapt the photocathode diameter to each other without that a reduction in the effective angle of view and a noticeable picture distortion occurs "

According to the innovation, the photocathode becomes one of itself constricting glass fibers switched existing glass fiber optics, in such a way that their entry surface is in the image plane • the lens is lying.

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The fiber optic represents a reduction element, which the image in the lens image plane on the exploitable Reduced diameter of the photocathode.

It enables the image generated by the lens to be viewed without loss of contrast and without severe weakening of the Transfer cathode.

The image produced by the lens will be in get full sharpness when you look at the entry surface of the Fiber optics to the existing field curvature of the lens adapts. The transfer to the cathode can therefore be further improved if the entry surface of the glass fiber optics is ground to match the curvature of the lens. ' ■ ·

The cathode itself is curved in the opposite direction. Here, too, the transmission can be improved when the exit surface of the fiber optic Curvature of the cathode is ground out accordingly.

In the figure, an embodiment of the innovation is shown schematically.

The illustration shows a device equipped with the innovation. In a housing k, lh the entrance optics with the connected amplifier tube of an opto-electronic device are accommodated. The entrance optics consists of a deflecting prism 2 arranged in the head 1 of the device and an objective 5 connected to it. The first amplifier stage 6 is arranged below the objective; the image appearing on the screen of this tube is made horizontal by the angle optics 7. Direction deflected and fed to a further stage 16 of the amplifier tube. The eyepiece 8 is connected to this amplifier tube. Because the photocathode of the tube 6 has a smaller diameter. has as the image field of the lens 5, a glass fiber optic 10 is connected between the two. The glass fiber optic consists of a large number of glass fibers that narrow from their entry side to the exit side.

Protection claims

Claims (3)

1) Opto-electronic device with a wide-angle lens and subsequent amplifier tube, thereby characterized in that the diameter difference between the usable field of view of a lens and the cathode of the tube by a narrowing one Glass fiber optics is compensated for. 2) Device according to claim 1, d a du rc h ge k e η η ζ e i c h η e t that the entry surface of the fiber optic ground out to match the curvature of the lens is. 3) Device according to claims 1 and 2, d a d u r c h ge k e η η ζ e ic h η e t that the exit surface corresponding to the fiber optic optics of the cathode curvature is ground out.