DE2948320A1 - Control of visual display unit - has separate light emitting diode fields responding to different levels of detector signal - Google Patents

Abstract

A two colour display system is used to allow detector signals, such as infrared, to be highlighted against a background. In a system utilising a single detector (D), an amplitude filter (A) is used to identify two different signal levels (A1,A2) that are amplified (V1,V2) and used to drive separate overlaid display fields. The display fields can consist of a green light emitting diode field (F1) and a red light emitting diode field (F2). An alternative system uses separate detectors to drive each field. Alternatively the system may be adapted to cathode ray tube display.

Description

Arrangement for controlling image display units

The invention relates to an arrangement for controlling Image display units by means of amplifiers, with one or more different colored ones Display element (s), in particular for locating devices.

For devices that are equipped with an image display unit, In addition to cathode ray tubes, light-emitting diodes are often used to display information used as display elements. It is also known to display information consisting of a plurality of light-emitting diodes, in particular arranged in rows Use light-emitting diode fields as image display units. A preferred area of application are locating devices, especially infrared devices, in which in addition to cathode ray tubes for multicolored picture display picture display units made of light-emitting diode fields different colors can be used.

The control of the image display units consisting, for example, of light-emitting diode fields takes place in such arrangements in a known manner via amplifier, the one Generate a voltage proportional to the signal to be displayed and convert this voltage into convert a current, which in turn corresponds to the light intensity to be emitted by the light-emitting diodes is proportional. These arrangements usually have the greatest intensity radiation due to the greatest brightness of the light-emitting diode fields (positive image) or represented by the lowest brightness of the light-emitting diode fields (negative image).

The invention is based on the object in an arrangement of type mentioned at the beginning for a multicolored image display as rich in contrast as possible, to achieve a three-dimensional image.

This task is carried out with an arrangement of the type mentioned at the beginning solved according to the invention in that the control of an image display unit a first color inverted for controlling an image display unit second color takes place.

The invention is in contrast to the positive or negative image representation the idea is based on the amplifier or amplifiers for a multicolored image display for one color inverted to the amplifier or amplifiers for another Operate color. For example, in an infrared locating device with light-emitting diode fields operated as image display units a green light-emitting diode field so that the colder Areas of a scene are displayed with greater brightness than the slightly warmer ones Areas. At the same time, warm parts of a red light-emitting diode field become one Scene displayed with greater brightness than something colder. It This creates a three-dimensional, high-contrast image, whose Impression corresponds more to the human eyesight.

Advantageous embodiments of the subject matter of the claim 1 are specified in the subclaims.

The invention is illustrated schematically below with reference to in the drawing illustrated embodiments explained in more detail. Here, FIGS. 1 and show 2 two exemplary embodiments of an arrangement with different light-emitting diode arrays Colors as image display units and FIG. 3 shows a further exemplary embodiment of a Arrangement according to the invention with a cathode ray tube as a display element.

The arrangement according to FIG. 1 has two light-emitting diode fields as image display units L1 and L2 of different colors F1 and F2, e.g. a green and a red light-ber diode field, on. The light-emitting diode fields L1 and L2 each become an amplifier V1 or V2 is controlled by the signal from a detector D, e.g. by an infrared signal. An amplitude filter A is located between the detector D and the amplifiers V1 and V2 provided, with a first amplitude range A1 of the detector on the amplifier V1 D and on the amplifier V2 a second amplitude range A2 of the same detector D acts.

The different colored light emitting diode fields L1 and L2 are thus So from the same detector, but from different signal amplitudes this one Detector controlled. The amplifier V1 is inverted for the color F1 operated to the amplifier V2 of the other color F2.

In the embodiment of FIG. 2, the inventive Arrangement as image display units also have two light-emitting diode fields L1 and L2 different colors F1 and F2, which via 3eweils an amplifier V1 or V2, however of two detectors D1 resp.

D2 can be controlled. Either of the two detectors works in a certain spectral range SI resp.

S2 or in a specific instantaneous field of view Gl or G2. the Image display units Ll and L2 are thus in the arrangement according to FIG a detector D1 of a first spectral range SI or a first instantaneous Field of view G1 and from a second detector D2 of a second spectral range S2 or a second instantaneous field of view G2 controlled.

Here, too, the amplifier V2 f (1r the color F2 is inverted operated to the amplifier V1 for the color Fl.

Instead of. of different colored light emitting diode fields L1 and L2 can in an arrangement according to the invention also a multicolored cathode ray tube K (Fig. 3) used as a single display element or as a single image display unit will. In such an arrangement according to FIG. 3, the control of the cathode ray tube takes place K again via an amplifier V1 or V2 inverted for each color F1 or

F2 from a detector arrangement D3 working e.g. in the infrared, this detector arrangement consisting of a single detector D when the Kathodenstralilröhre K over different signal amplitudes of this detector or as in Fig. 2 from two detectors Dl and D2 when controlled via different Spectral ranges or fields of view exist.

6 claims 3 figures

Claims (6)

Claims: arrangement for controlling image display units by means of an amplifier, with one or more different colored display element (s), especially for tracking devices, d u r c h e k e n n n e i c h n e t that the control of an image display unit of a first color (F1) inverted to An image display unit of a second color (F2) is controlled. 2. Arrangement according to claim 1, d a d u r c h g e k e n nz e i c h n e t that the image reproduction unit of the first color (F1) from a first amplitude range (Al) of a detector (D) and the image display unit of the second color (F2) a second amplitude range (A2) of the same detector (D) is controlled. 3. Arrangement according to claim 1, d a d u r c h g e k e n nz e i c h n e t that the image display unit of the first color (F1) from a detector (D1) in a first spectral range (S1) and the image rendering unit of the second color (F2) controlled by another detector (D2) in a second spectral range (S2) is. 4. Arrangement according to claim 1, d a d u r c h g e k e n nz e i c h n e t that the image display unit of the first color (F1) from a detector (D1) of a first instantaneous field of view (Gi) and the image display unit of the second Color (F2) from another detector (D2) of a second instantaneous field of view (G2) is activated. 5. Arrangement according to one of the preceding claims, d a d u r c h e k e n n n z e i n e t that. the image display units from different colored Light-emitting diode fields (L1, L2) exist. 6. Arrangement according to one of claims 1 to 4, d a -d u r c h g e it is not possible to use that as an image display unit for the first and the second Color (F1 or F2) a multicolored cathode ray tube (K) is provided.