EP3940681A1 - Display function monitoring - Google Patents

Abstract

The invention relates to a device and a method for monitoring the function of a display (1) with a display film (2) which defines an active display area (3) which is divided into a predetermined number of rows (Z) and columns (S) that can be illuminated. at least one photosensitive element (4, 4') for detecting an illumination and/or illuminance of the respective row (Z) and/or or column (S), with an electrical resistance (5) of the photosensitive element (4, 4') corresponding to the lighting or illuminance of the respective row (Z) or column (S) and with a data memory (7 ) to the respective electrical resistance (5) corresponding reference resistances (6) are stored for comparison with the corresponding electrical resistance (5).

Description

The invention relates to a device for monitoring the function of a display with a display film that defines an active display area.

In the case of digital displays or displays, for example in the interior of a motor vehicle, faulty cells in the display can lead to defective reproduction of the display. In particular, in the case of safety-relevant functions of the display, such as the reproduction of an area in the immediate vicinity of the motor vehicle that is captured by a reversing camera, it is necessary for the row and column drivers to function of the display to ensure error-free operation of the display.

In the DE 10 2014 213 456 A1 discloses, for example, a system for transmitting a signal containing optical information from a recording device to an output device and for monitoring the transmission of the signal, as well as a corresponding method in which a signal specially introduced with a reference signal generating device and optical read-back at the output device or the Detecting the signal sent to the output device, the route between image recording and image display can be monitored in real time and during the runtime. The reference signal displayed on one of the output devices can be optically read back by a monitoring device and can be used to evaluate the real-time behavior and the falsification of the optical information.

Furthermore, in the DE 10 2008 034 160 A1 discloses a device that enables a spatial area to be monitored in such a way that delays or failures in the image transmission between a recording device and a display device can be detected. For this purpose, a dynamic means coupled to the operation of the recording device is provided for generating an optically perceptible change over time during operation of the recording device.

The disadvantage of the above solutions is that although discrete components are arranged or provided on a display, with which a function or malfunction of the display can be detected, the exact position of the faulty cell cannot be detected or displayed.

It is therefore an object of the present invention to provide a device for monitoring the function of a display by means of which the position of a faulty cell of the display can be determined.

This object is achieved by the combination of features according to claim 1.

According to the invention, a device for monitoring the function of a display with a display foil is proposed, which defines an active display area that is divided into a predetermined number of rows and columns that can be illuminated. At least one photosensitive element for detecting an illumination and/or illuminance of the respective row and/or column is arranged in a peripheral edge area of the display foil in the respective row and the respective column. An electrical resistance of the photosensitive element corresponds to the illumination or illuminance of the respective row or column. Furthermore, reference resistances corresponding to the respective electrical resistance are stored in a data memory for comparison with the corresponding electrical resistance.

The advantage here is that the functionality of the column and row drivers of the display can be verified by means of the photosensitive elements, which are arranged on a display foil, such as a touch foil, in the surrounding edge area of the display. During display operation, the active display area is illuminated. As a result, the photosensitive element integrated in the display foil is also illuminated and is operational. By assigning at least one photosensitive element to each column and each row, according to the division of the active display area into the predetermined number of rows and columns, the entire active display area is covered for detecting an illumination and/or illuminance of the respective row and/or column . Furthermore, the photosensitive element has an electrical resistance corresponding to the illumination of the display, which depends on varies by an illumination and/or illuminance of the respective row or column. This value of the electrical resistance can be compared in a data memory with the reference resistance that corresponds to the respective electrical resistance. For all rows and columns, corresponding reference resistors are stored for a respectively possible illumination or illuminance of the active display area. Thus, for example, a tolerance range can be defined by the reference resistors, which, by means of limit values for the electrical resistance, determines a range in which the illumination and/or illuminance of the display is functional. In this way, a functional and/or defective row or column can be determined based on the electrical resistance of the photosensitive element.

In an advantageous embodiment variant of the invention, it is provided that the respective photosensitive element is a photodiode or a photoresistor. It is favorable for a photodiode that it is a semiconductor diode that converts light in the visible IR or UV range into an electrical current through an internal photo effect or provides this current with an electrical resistance that depends on the lighting. A photoresistor is a light-sensitive electrical component in which the electrical resistance varies according to the incidence of light on the photoresistor due to an internal photoelectric effect, and is therefore also particularly suitable.

The device is preferably designed in such a way that a further photosensitive element is arranged in the respective row and/or column, which is arranged in the respective row or column in an edge region opposite the at least one photosensitive element in such a way that the photosensitive elements cover the entire surrounding the edge area of the display film. As a result, a photosensitive element is arranged at both edge areas of each row and each column and the measurement accuracy of the device improved for function monitoring of the display.

In a preferred exemplary embodiment of the invention, it is provided that the respective photosensitive element comprises at least one photosensitive material which is arranged between two metal edge elements. Furthermore, in a preferred embodiment of the invention, the electrical resistance of a photosensitive element is the resistance between the two metallic edge elements. The photosensitive material is electrically contacted by the metallic edge elements of the photosensitive element. In addition, the electrical resistance of the photosensitive element can be determined between the two metallic edge elements, which varies according to the illumination or the illuminance of the corresponding row or column. Consequently, functioning or faulty rows and/or columns or also positions of the respective row or column of the active display area can be determined.

Furthermore, an embodiment is favorable in which the respective metallic edge element is connected to the data memory by means of an electrically conductive contact. As a result, the electrical resistance or a value of the electrical resistance of the photosensitive element can be transmitted to the data memory for function monitoring or for comparison with the corresponding reference resistance.

In a further advantageous variant, the invention provides that the photosensitive element is arranged in the edge region of the display film in such a way that the edge elements and/or the photosensitive material extend orthogonally to the respective row or column. This alignment of the photosensitive element for detecting the illumination and/or illuminance of the respective row and/or column is particularly favorable since the photosensitive element is arranged perpendicular to the light source.

In an advantageous embodiment it is provided that the two metallic edge elements of a photosensitive element in a straight line and extend parallel to one another. This reduces the complexity of determining the electrical resistance of the photosensitive element and facilitates placement on a display film.

In a development of the device, it is also provided that the photosensitive elements of the respective row and/or column are arranged next to one another or adjacent to one another in the edge region of the display film. With this arrangement, the device ensures functional monitoring of the entire active display area, in which the complexity of determining the electrical resistance of the photosensitive element is optimized with a compact design.

In a preferred embodiment of the invention, further photosensitive elements are provided for at least partial detection of an illumination of two rows or columns arranged next to one another. In this case, the respective additional photosensitive element overlaps the photosensitive elements of the respective rows or columns arranged next to one another. The advantage of this is that the further photosensitive elements can be used to determine additional values for an electrical resistance which are dependent on the illumination or illuminance of the two rows or columns arranged next to one another. Due to the additional resistance values, the function monitoring is more accurate. Each photosensitive element returns its own resistance value and the position of the individual photosensitive elements on the display film is known. Accordingly, the functionality of the cells and columns or the exact position of a defective cell can be determined from a ratio of the resistances between two opposite photosensitive elements.

In one embodiment of the invention, the device according to the invention is designed such that the metal edge elements that adjoin one another overlapping photosensitive elements have a mutually corresponding geometry, in particular a non-rectilinear geometry. In this arrangement, two opposing surfaces are arranged side by side or adjacent to one another. Each surface geometry, such as a triangle or cuboid, has a corresponding electrical resistance, which simplifies the determination of the electrical resistance and/or optimizes the accuracy of the measurement results. As a result, the function monitoring can be adapted to the respective requirements of an application of the display.

In addition, an embodiment variant is favorable in which the overlapping metallic edge elements form a gap between them. Due to the gap, the device is protected against a short circuit between the metallic edge elements of adjacent photosensitive elements. In addition, for example, the arrangement of an electrically insulating component between the overlapping metallic edge elements is conceivable.

In a further advantageous embodiment, the invention provides that the display has a cover which is arranged on a visible side of the display in the edge area of the display film in such a way that the respective photosensitive element or elements is/are covered by the cover and the cover is at least in is opened towards a center of the display. The cover protects the photosensitive elements from damage and dirt and at the same time serves as a frame for the display, dividing the active display area into a visible and a non-visible area. The edge area of the active display area with the photo-sensitive elements is covered by the cover and the remaining area is the visible area. Functional monitoring is possible by opening the cover towards the center of the display, although the photosensitive elements are visible from one side of the display are not recognizable.

1. a. Beleuchten der Anzeige, insbesondere Beleuchten des Randbereichs der Anzeigefolie und der fotosensitiven Elemente, die einer jeweiligen Spalte bzw. Zeile zugeordnet sind,
2. b. Bestimmen oder Erfassen eines elektrischen Widerstands der fotosensitiven Elemente,
3. c. Vergleichen des erfassten elektrischen Widerstands des jeweiligen fotosensitiven Elements mit einem in einem Datenspeicher zu dem jeweilige elektrischen Widerstand korrespondierenden Referenzwiderstand.

According to the invention, a method for monitoring the function of a display with a device according to the above features is also proposed, which comprises the following steps:

1. a. Illuminating the display, in particular illuminating the edge area of the display foil and the photosensitive elements that are assigned to a respective column or row,
2. b. determining or detecting an electrical resistance of the photosensitive elements,
3. c. Comparing the detected electrical resistance of the respective photosensitive element with a reference resistor in a data memory that corresponds to the respective electrical resistance.

If there is a predetermined deviation of the respective electrical resistance from the corresponding reference resistance, a warning signal is output by the display.

The advantage of this is that a malfunction can be displayed using the display. A deviation of the illumination or the illuminance of the active display area from a target illumination or target illuminance can be adapted or predetermined according to an application and the requirements for the display or the device for monitoring the function of the display. The warning signal is, for example, a warning sign or a message on the display that indicates the presence of a malfunction of the display and/or the exact position of the defective cells, rows and/or columns.

Fig. 1

eine schematische Darstellung einer Vorrichtung zur Funktionsüberwachung einer Anzeige,

Fig. 2

eine Schnittansicht einer schematischen Darstellung einer Vorrichtung zur Funktionsüberwachung der Anzeige mit einer Abdeckung,

Fig. 3

eine schematische Darstellung eines fotosensitiven Elements für eine Vorrichtung zur Funktionsüberwachung einer Anzeige und

Fig. 4

eine schematische Darstellung überlappender fotosensitiver Elemente für eine Vorrichtung zur Funktionsüberwachung einer Anzeige.

Other advantageous developments of the invention are characterized in the dependent claims or are presented in more detail below together with the description of the preferred embodiment of the invention with reference to the figures. Show it:

1

a schematic representation of a device for monitoring the function of a display,

2

a sectional view of a schematic representation of a device for monitoring the function of the display with a cover,

3

a schematic representation of a photosensitive element for a device for monitoring the function of a display and

4

a schematic representation of overlapping photosensitive elements for a device for monitoring the function of a display.

In figure 1 a schematic representation of a device for monitoring the function of a display 1 is shown. The display 1 is, for example, a display in the interior of a motor vehicle and includes a display film 2 that defines an active display area 3 that is divided into a predetermined number of rows Z and columns S that can be illuminated. The display foil is a touch foil, by means of which a technical component of the motor vehicle can be controlled directly by touching parts of the active display area 3 .

In the figure 1 The display 1 shown or the active display area 3 is divided into four rows Z and eight columns S. A photosensitive element 4, 4' for detecting an illumination and/or illuminance is in the respective row Z and the respective column S in a circumferential edge area of the display film 2 the respective row Z or column S arranged. In addition, the respective row Z and column S includes a further photosensitive element 4 ′, which is positioned in the respective row Z or column S in the edge region which is opposite the respective photosensitive element 4 . In this way, the photosensitive elements 4, 4' run around the entire edge area of the display film 2.

Furthermore, the photosensitive elements 4, 4' of the respective row Z and column S are arranged next to one another in the edge region of the display film 2. The adjacent photosensitive elements 4, 4' are directly adjacent to one another, so that the entire active display area 3 of the display film 2 is covered for monitoring the function of the display 1. Furthermore, the photosensitive elements 4 extend in the edge area of the display film 2 orthogonally to the respective row Z or column S.

The respective photosensitive element 4, 4' is a photoresistor which has an electrical resistance 5 which corresponds to the illumination and the illuminance of the respective row Z or column S. This electrical resistance 5 is transmitted to a data memory 7 by means of an electrical conductor, for example. Reference resistances 6 corresponding to the respective electrical resistance 5 of the photosensitive elements 4, 4' are stored in the data memory 7 for comparison with the corresponding electrical resistance 5. The data memory 7 is, for example, a control unit of a motor vehicle, by means of which a technical component of the motor vehicle is regulated or controlled.

figure 2 shows a sectional view of a schematic representation of a device for monitoring the function of a display 1 with a cover 10. The display has all the features of the display 1 described above figure 1 on. In addition, the display 1 includes the cover 10, which is on a visible side of the display 1 in the edge area of the display film 2 is arranged. The cover 10 extends orthogonally from the edge of the display film 2 in the direction of the visible side, so that it protrudes to a certain extent over the respective photosensitive element 4, 4'. At this point the cover 10 extends orthogonally angled towards the center of the display 1 and parallel to the display sheet 2 to some extent beyond the photosensitive element 4, 4'. As a result, the photosensitive elements 4, 4' are covered by the cover and cannot be seen by a viewer of the display 1 on the visible side. At the same time, the cover 7 is opened in the direction of a center of the display 1 and a functional monitoring of the display 1 for the entire active display area 3 is ensured.

In figure 3 a schematic representation of a photosensitive element 4 for a device for monitoring the function of a display 1 is shown. The photosensitive element 4 comprises a photosensitive material 41 which is arranged between two metal edge elements 8 . The two metallic edge elements 8 extend in a straight line and parallel to one another. Consequently, in a mounted state in a device for monitoring the function of a display 1, the edge elements 8 and the photosensitive material 41 can be arranged orthogonally to a respective row or column. Furthermore, the respective metallic edge element 8 is connected to a data memory 7 by means of an electrically conductive contact 9, whereby an electrical resistance 5 of the photosensitive element 4 can be transmitted to the data memory 7, in which the reference resistors 6 of the photosensitive element 4 are stored. The electrical resistance 5 of the photosensitive element 4 is the resistance between the two metallic edge elements 8.

figure 4 shows a schematic representation of overlapping photosensitive elements 4, 4', 4" for a device for monitoring the function of a display 1. The two photosensitive elements 4, 4' are each for the arrangement provided on rows Z of an active display area 3 running next to one another. In addition, a further photosensitive element 4" is arranged for at least partial detection of an illumination of the two rows Z arranged next to one another. The further photosensitive element 4" overlaps the two photosensitive elements 4, 4' of the respective row Z arranged next to one another.

The photosensitive elements 4, 4', 4" each comprise a photosensitive material 41 which is arranged between two metallic edge elements 8. The metallic edge elements 8 adjoining one another of the overlapping photosensitive elements 4, 4', 4" have a geometry which corresponds to one another and are not straight and triangular. Furthermore, in addition to triangular edge elements 8, cuboid edge elements 8, for example, are also possible. The overlapping metallic edge elements 8 are arranged in such a way that a gap is formed between the respective overlapping edge elements 8 in order to prevent a short circuit between the photosensitive elements 4, 4', 4". gap arranged.

1. a. Beleuchten der Anzeige 1, insbesondere Beleuchten des Randbereichs der Anzeigefolie 2 und der fotosensitiven Elemente 4, 4', die einer jeweiligen Spalte S bzw. Zeile Z zugeordnet sind,
2. b. Bestimmen oder Erfassen eines elektrischen Widerstands 5 der fotosensitiven Elemente 4, 4',
3. c. Vergleichen des erfassten elektrischen Widerstands 5 des jeweiligen fotosensitiven Elements 4, 4' mit einem in einem Datenspeicher 7 zu dem jeweilige elektrischen Widerstand 5 korrespondierenden Referenzwiderstand 6,

wobei bei einer vorbestimmten Abweichung 11 des jeweiligen elektrischen Widerstands 5 von dem korrespondierenden Referenzwiderstand 6 ein Warnsignal von der Anzeige 1 ausgegeben wird.Those in the foregoing Figures 1 to 4 The device described is designed to carry out a method for monitoring the function of a display 1, which comprises the following steps:

1. a. Illuminating the display 1, in particular illuminating the edge area of the display film 2 and the photosensitive elements 4, 4', which are assigned to a respective column S or row Z,
2. b. Determining or detecting an electrical resistance 5 of the photosensitive elements 4, 4',
3. c. Comparing the detected electrical resistance 5 of the respective photosensitive element 4, 4' with a reference resistor 6 in a data memory 7 that corresponds to the respective electrical resistance 5,

a warning signal being output by the display 1 in the event of a predetermined deviation 11 of the respective electrical resistance 5 from the corresponding reference resistance 6 .

Claims (14)

Device for monitoring the function of a display (1) with a display film (2), which defines an active display area (3) which is divided into a predetermined number of illuminable rows (Z) and columns (S), in a peripheral edge area of the display film (2) at least one photosensitive element (4, 4') for detecting an illumination and/or illuminance of the respective row (Z) and/or column (S) is arranged in the respective row (Z) and the respective column (S). , wherein an electrical resistance (5) of the photosensitive element (4, 4') corresponds to the illumination or illuminance of the respective row (Z) or column (S) and wherein in a data memory (7) to the respective electrical resistance ( 5) corresponding reference resistances (6) are stored for comparison with the corresponding electrical resistance (5). Device according to Claim 1, characterized in that the respective photosensitive element (4, 4') is a photodiode or a photoresistor. Device according to Claim 1 or 2, characterized in that a further photosensitive element (4') is arranged in the respective row (Z) and/or column (S) and in the respective row (Z) or column (S) is arranged in an edge region opposite the at least one photosensitive element (4) in such a way that the photosensitive elements (4, 4') run around the entire edge region of the display film (2). Device according to one of claims 1 to 3, characterized in that the respective photosensitive element (4, 4 ') comprises at least one photosensitive material (41) between two metallic Edge elements (8) is arranged. Device according to Claim 4, characterized in that the respective metallic edge element (8) is connected to the data memory (7) by means of an electrically conductive contact (9). Device according to Claim 4 or 5, characterized in that the photosensitive element (4) is arranged in the edge region of the display film (2) in such a way that the edge elements (8) and/or the photosensitive material (41) are orthogonal to the respective line (Z) or column (S) extend. Device according to one of Claims 4 to 6, characterized in that the two metal edge elements (8) of a photosensitive element (4) extend in a straight line and parallel to one another. Device according to Claim 7, characterized in that the photosensitive elements (4, 4') of the respective row (Z) and/or column (S) are arranged next to one another in the edge region of the display film (2). Device according to one of Claims 4 to 6, characterized in that further photosensitive elements (4, 4') are provided for at least partially detecting an illumination of two rows (Z) or columns (S) arranged next to one another, the further photosensitive element (4, 4') overlaps the photosensitive elements (4, 4') of the respective row (Z) or column (S) arranged next to one another. Device according to Claim 9, characterized in that the mutually adjacent metallic edge elements (8) of overlapping photosensitive elements (4, 4') correspond to one another Have geometry, in particular a non-rectilinear geometry. Device according to Claim 9 or 10, characterized in that the overlapping metallic edge elements (8) form a gap between them. Device according to one of Claims 4 to 11, characterized in that the electrical resistance (5) of a photosensitive element (4) is the resistance between the two metal edge elements (8). Device according to one of the preceding claims, characterized in that the display (1) has a cover (10) which is arranged on a visible side of the display (1) in the edge region of the display film (2) such that the or the respective photosensitive elements (4, 4') is/are covered by the cover, the cover (7) being open at least towards a center of the display (1). Method for monitoring the function of a display (1) with a device according to one of the preceding claims, comprising the following steps: a. Illuminating the display (1), in particular illuminating the edge area of the display film (2) and the photosensitive elements (4, 4'), which are assigned to a respective column (S) or line (Z), b. Determining or detecting an electrical resistance (5) of the photosensitive elements (4, 4'), c. Comparing the detected electrical resistance (5) of each photosensitive elements (4, 4') with a reference resistor (6) in a data memory (7) corresponding to the respective electrical resistor (5), wherein a warning signal is output by the display (1) if there is a predetermined deviation (11) of the respective electrical resistance (5) from the corresponding reference resistance (6).

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