DE3603476A1 - Visual display unit (VDU) - Google Patents

Abstract

It is proposed to provide a compensation coil on the cathode ray tube of the visual display unit, between the screen (luminescent screen fluorescent screen) and the deflection means, which compensation coil has applied to it a compensation current whose polarity and intensity can be varied, in order to compensate for raster rotation of the screen caused by the earth's magnetic field.

Description

The present invention relates to a display device according to the preamble of claim 1.

Such a screen device is from DE-OS 28 09 725 known. This device is intended to be the compen sationsstrom depending on one also at the Tubes attached to produce measuring winding. A compen sationsstrom only arises with this arrangement, if there is a change in the external field, e.g. B. if the foreign field is an alternating field. Not suitable is the well-known arrangement for eliminating image disturbances due to the essentially unchanging magnetic earth field. Especially with screen devices with cathode ray tubes with very large deflection angles and high reproduction quality makes the magnetic Earth field disrupted by a grid rotation of the image noticeable. The degree and direction of rotation of this grid hung depends on the location of the device. By appropriate turning of the deflection coil on the tube This grid rotation can be counteracted. The however, requires intervention in the device every time.

M

The present invention is based on the object the shock caused by the earth's magnetic field a grid rotation of one of a cathode ray tube generated fluorescent screen image with simple Mit easy to handle.

This task is accomplished by the in the hallmark of the patent claims 1 specified features solved.

An advantage of the arrangement described is that without much effort, e.g. B. only by turning an adjustment button, for example on the back side of the device is attached after a change of location sel or a turning of the device, the annoying off effects of the earth's magnetic field can be eliminated can.

On the basis of shown in Figs. 1 and 2 before ferred embodiments of the invention will be explained by following.

Fig. 1 shows schematically a front view of a monitor and the

Fig. 2 shows schematically a side view of a cathode ray tube with the corresponding circuit arrangement.

The front of the display device 1 is shown as a rectangular area. In it is the screen, which is the fluorescent screen 2 of a cathode ray tube in the use position. Such a screen is in a known manner essentially rectangular with rounded corners, which is due to the requirements of vacuum technology. With 3 the vertical longitudinal axis of the drawing tube axis is designated net. Also shown is a rectangle 4 recorded on the surface of the screen by the cathode ray, which shows the screen grid and which is shown rotated about the tubes longitudinal axis 3 . This Rasterver rotation is shown somewhat exaggerated, but it occurs due to the magnetic earth field; ie more precisely, through the components of the magnetic earth field, which run parallel to the tube longitudinal axis 3 and cross the path of the deflected electron beam or beams. The rotation of the grid 4 shown is dependent on the local position of the monitor and it becomes more noticeable the larger the deflection angle of the cathode ray tube of the monitor 1 .

In Fig. 2 the side of the luminous screen penetrating and approximately parallel to the tube axis 3 components of the magnetic earth field are designated by 11 . The cathode ray tube is designated 5 . In the transition area between the tube neck and the cone, magnetic deflection means 6 are attached in a known manner to the outside of the tube, with the aid of which the electron beam or beams can be deflected in two mutually perpendicular directions.

According to the invention, a compensation coil 7 is now placed in the area between the fluorescent screen 2 and the deflection means 6 on the outside of the cathode ray tube 5 . This coil 7 can be fastened adjacent to the screen 2 , as shown, on the outer surface of the tube or it can also be arranged on the conical part of the tube closer to the deflection means 6 .

The central axis of the coil essentially coincides with the longitudinal axis 3 of the tube. A direct current, which comes from a direct current source 8, is sent through the coil 7 . Such a direct current source is generally present in the display device, since direct currents are required to operate the tube. In order now to be able to adjust the strength of the current flowing through the compensation coil 7 by hand, a variable resistor 10 is switched on in the supply line. Furthermore, a polarity reversal device 9 is switched into the direct current feed line, which allows the direction of passage of the direct current to be reversed. Appropriately, at least the control button for the variable resistor 10 and the polarity reverser 9 is put together, for example in such a way that the adjustable resistance is a potentiometer, the axis of which is additionally actuated by pressing and pulling out a polarity reversal switch.

With the described invention, it is now easier Way possible, one caused by the earth field Compensate grid rotation, so that the tube too most accurate measurements can be used.

The DC power source is suitably connected so that it is the operating switch of the device is put into operation and the set compensation current always flows when the device is switched on.

Claims (6)

1. Screen device with a cathode ray tube with a fluorescent screen and deflecting means for deflecting at least one electron beam and with a compensation coil for compensating for external fields, which surrounds the cathode ray tube in the area between the deflecting means and the fluorescent screen, and which is arranged so that its central axis essentially coincides with the tubes along the longitudinal axis and with means for generating a compensation current flowing through the compensation coil, characterized in that a direct current source ( 8 ) is provided for generating the compensation current and that adjusters ( 9 , 10 ) are provided, with the aid of which the polarity can be seen and the strength of the compensation current can be adjusted so that a raster rotation ( 4 ) of the screen image generated by the magnetic earth field component ( 11 ) about the tube longitudinal axis ( 3 ) can be compensated. 2. Screen device according to claim 1, characterized by a cathode ray tube ( 5 ) with a maximum deflection angle of greater than 70 °, in particular greater than 90 °. 3. Screen device according to claim 1 or claim 2, characterized in that the compensation coil ( 7 ) on the outer surface of the cathode ray tube ( 5 ) is BEFE Stigt. 4. Screen device according to one of claims 1 to 3, characterized in that the adjuster on the Housing accessible from outside for stand adjustment, ins special on the back wall. 5. Screen device according to one of claims 1 to 4, characterized by a cathode ray tube with high Resolving power, in particular for measuring purposes. 6. Screen device according to one of claims 1 to 5, characterized in that the DC power source always is in operation when the device is switched on.