This application claims priority to German Patent Application No. DE 10 2022 203 888.6 filed Apr. 20, 2022, the entire contents of which are hereby incorporated in full by this reference.
The invention relates to a method for easy adaptation of an LED film.
It is known to remove edge regions of electronic components in order to obtain a component adapted to the substrate. For example, electronic components with a multiplicity of LEDs have become known from EP 2 400 822 A2. The edges of the components can be removed, wherein the remaining LEDs can continue to be controlled.
In contrast, the object of the invention is to provide a method for producing an LED film, which is structurally simplified and can be trimmed significantly more variably.
This object is achieved according to the invention by a method according to claim 1. The dependent claims reflect preferred embodiments.
The object according to the invention is thus achieved by a method for adapting the geometry of an LED film with the method steps of:
The structure of the LED film according to the invention allows trimming of the LED film for adaptation to differently shaped carriers. The connection in method steps B1 or B2 can relate to a data line and/or, preferably, to a supply voltage line.
In variant B1, a portion of the LED film is cut off before a corresponding connection takes place; in variant B2, a portion of the LED film is cut off after a connection has taken place, in particular with a pick and place machine, preferably with the same pick and place machine with which the LED pixels are applied to the film.
An LED pixel may have a control IC. The control IC may be connected to one or more LEDs. The LEDs may each have a respective control IC. The LED pixels may emit one or more light colors, in particular RGB, RGBW, W, warm white, cold white and/or amber per LED pixel.
The indications “row” and “column” should not be understood as “horizontal” and “vertical” but as an indication of an arrangement in a first direction and a second direction transverse, in particular perpendicular, to the first direction.
A film is understood here to mean an independent thin bendable sheet, in particular with a thickness of less than 5 mm, preferably of less than 3 mm, particularly preferably of less than 2 mm. The LED film can preferably be rolled in a non-destructive manner with an inner diameter of less than 1000 mm, in particular of less than 500 mm, particularly preferably of less than 300 mm.
The LED film can have multiple LED pixels connected by means of a second daisy chain.
In this case, the first daisy chain can be connected to a control line by means of a controllable first switch and the second daisy chain can be connected to the control line by means of a controllable second switch. This enables image construction, daisy chain by daisy chain, in a constructively particularly simple manner.
An LED film that can be trimmed particularly well is achieved if the second daisy chain is mirrored to the first daisy chain.
The connection in method step B1 or B2 can take place by means of a controllable switch, for example a MOSFET. However, in order to simplify the LED film, the connection preferably takes place by means of a shorting bridge or a mechanical switch.
The layout of the LED film is further simplified if the rows and columns of the matrix shape are at right angles to one another.
In a further preferred embodiment of the invention, the voltage supply of the LED pixels takes place by means of supply voltage lines applied in a matrix shape. In this case, supply voltage lines for applying a first pole, for example VCC, of a supply voltage for the LED pixels can be provided row-wise on a first layer or first side of the film. On the opposite, second layer or side of the film, supply voltage lines for conducting a second pole, for example GND, of the supply voltage can be provided column-wise. A via may be provided in each case in the region of the LED pixels. In this way, edge regions of the LED film can be removed very variably without endangering the voltage supply of the remaining LED pixels.
Edge regions of the LED film can be removed even more easily if a connection option for a cable line for the supply voltage and/or data line is present at multiple LED pixels. As a result, after the method step B1 or B2, at least one LED pixel can be supplied with voltage and/or data via the cable line.
Further advantages of the invention can be found in the description and the drawings. Likewise, according to the invention, the aforementioned features and those which are to be explained below can each be used individually or together in any desired combinations. The embodiments shown and described are not to be understood as an exhaustive list, but, rather, have an exemplary character for the description of the invention.
The LED pixels LED n are or can be connected column-wise with jumpers J 1 to J 16 in order to repair the daisy chain 20 after removal of a portion of the LED film 10. In the present example, the edge region 18a (bordered by dashed lines) of the LED film 10 is removed. As a result, the LED pixels LED 15 to LED 20 can no longer be controlled. As a result of connecting the end of the leading row Z 3 to the beginning of the returning row Z 4, i.e., by setting or connecting the jumper J 10, the LED pixels LED 15 to LED 20 can be controlled.
When combining all figures of the drawing, the invention thus relates in summary to a method for producing an LED film 10 with a cut-off edge 18a-c. The LED film 10 has a film 12 with LED pixels LED n.m, LED n arranged thereon. The LED pixels LED n.m, LED n, which each have at least one LED, are controlled via the data line 14 of a daisy chain 20, 20a-e, which is arranged in a meandering shape on the film 12. The method provides for a loop of the meandering shape to be severed and for the thereby produced free ends of the data line 14 to be connected or for a loop of the meandering shape to be bridged and for the edge 18a-c of the LED film 10 to be subsequently trimmed so that the loop is cut off outside the connection remaining on the LED film 10. Electrode paths (26a-d) of supply voltage lines (28a,b) are preferably arranged in a matrix shape on the LED film (10).
Number | Date | Country | Kind |
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10 2022 203 888.6 | Apr 2022 | DE | national |