DE1283099B - Aviation training device for the simulation of wedge-shaped radar beams on a viewing screen - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN ^ W ^ SS PATENT OFFICE Int. Cl .:

G09b

EDITORIAL

German class: 62 c -27/03

Number: 1283 099

File number: P 12 83 099.8-22 (C 30124)

Filing date: June 6, 1963

Opening day: November 14, 1968

The invention relates to an aviator training device which is used to simulate wedge-shaped radar beams serves on a viewing screen.

The display of radar information that moves on sections of the earth's surface or on Relating goals is used for teaching purposes, for example when evaluating cartographic recordings or mimicked in exploration projects by devices that use a light point scanner as well as a focusing screen arrangement and display the data on a cathode ray tube.

Aviation training devices are already using optical distortion devices for the same purpose used, which are arranged in the light path between the light point scanner and the ground glass and convey a picture similar to the radar beam.

By synchronizing the distortion of the lens with the movement of the radar beam you can mechanical mismatches occur which result in inadequate representation during beam scanning the fluorescent screen.

Another solution for aviator training purposes provides a distortion level that matches a biased cathode follower generates a distorted signal. The fuzzy outline of the ray that is generated in this way, but is not suitable for training pilots, because when applying the distorted signal to the brightness control grid of a cathode ray tube illuminates the viewing screen becomes uneven.

The invention deals with an aviator training device that uses those appearing on a radar viewing screen to imitate wedge-shaped beam images realistically. The aviation training device that a controlled light point scanner, which has a deflection coil excited by a generator, is according to the invention characterized in that the control circuit for the light point scanner with a Function generator is equipped, which generates a high-frequency voltage that is fed to the input of a Modulator is supplied, the modulator also the output voltage of a deflection generator is fed to the ampoule curve of the output voltage of the modulator through the voltage to supplement from the deflection generator, and that the light point scanner with a further and from the output voltage of the modulator excited deflection coil is equipped, which together with the first deflection coil causes wedge-shaped replica of the radar beam on the viewing screen.

In the circuit between the deflection generator and the modulator, a variable resistor is an aviator training device to simulate
wedge-shaped radar beams on a viewing screen

Applicant:

Curtiss-Wright Corporation,
New York, NY (V. St. A.)

ίο representative:

Dr.-Ing. W. Reichel, patent attorney,
6000 Frankfurt, Parkstr. 13th

Named as inventor:

John Joseph Edmunds Jr.,
Towaco, NJ (V. St. A.)

Claimed priority:

V. St. v. America June 15, 1962 (202 869)

as joined, with which the wedge angle of the radar beam is determined will.

An embodiment of the pilot training device is shown in the drawing. It shows
F i g. 1 is a schematic block diagram of a

3 »light point scanner with the associated switching elements,

F i g. 2 shows a simplified, schematic block diagram of a device with a focusing screen arrangement.

A deflection generator (FIG. 1) generates sawtooth-shaped waves 1 'which are fed to a deflection amplifier 2 and serve to excite a deflection coil 5 of a light point scanner 4. The deflection coil 5 of the light point scanner 4 has a coil 6 to form a clearly delimited wedge-shaped Radar beam. The coil 6 is excited by a modulated signal coming directly from the deflection generator 1 and a high frequency function generator 7 is obtained.

The deflection fields of the deflection coil 5 and the beam limiting coil 6 are arranged at right angles to one another, the resulting illumination or beam distribution being the width of the mimicked Corresponds to the radar beam.

At the output of the deflection generator 1, a variable resistor 3 is connected, its Tension that can be adjusted manually on a

809 637/995

Resistance grinder 3 'is removed and fed in a pulse form 3 "to a modulator 8. The modulator 8 is also connected to the output of the high-frequency function generator 7, which emits a signal with a waveform T. An output signal 8' of the modulator 8 is high-frequency and is with modulated the weakened toggle signal 3 ". The signal 8 'excites the coil 6 of the light point scanner 4 which, together with the deflection coil 5 on the end face or the viewing screen 9 of the light point scanner, provides a delimited, wedge-shaped display.

With the manual adjustment of the resistor 3, the teacher or student can adjust the amplitude of the modulation signal 3 "and thus regulate the width of the beam.

The light spot scanner 4 (Fig. 2) is excited by the main signals of waveforms 1 'and 8'. Its scanning light signal is projected from a viewing screen 9 of the light point scanner via projection optics onto an ao ground glass, on which information about the contours of the earth's surface of the area in question are plotted, the ground glass being movable in the direction of the X and Y axes.

The light let through by the screen is directed to photocells via converging lenses, whose Signals passed through an image intensifier to a radar viewing screen 11 with an oscillographic display 12 with the simulated radar beam displayed in the delimited form 10 (FIG. 1).

Claims (2)

Patent claims: 1. Aviation training device to simulate wedge-shaped radar beams on a viewing screen with a controlled light spot scanner that excited one of a deflection generator Has deflection coil, characterized in that the control circuit for the light point scanner (4) with a function generator (7) is equipped, which generates a high-frequency voltage (7 ') that the input a modulator (8) is fed, the modulator (8) also the output voltage of the deflection generator (1) is fed to the amplitude curve of an output voltage (8 ') of the modulator (8) to be supplemented by a voltage (1 ') from the deflection generator (1), and that the light point scanner (4) with a further deflection coil excited by the output voltage (8 ') (6) is equipped, which, together with the first deflection coil (5) on the viewing screen, forms the wedge-shaped Figure (10) evokes. 2. Aviation training device according to claim 1, characterized in that a variable resistor (3) is inserted in the circuit between the deflection generator (1) and modulator (8), with which the wedge angle of the radar beam is set. Considered publications:
U.S. Patent No. 2,652,636. 1 sheet of drawings 509 637/999 11.68 ® Bundesdruckerei Berlin