TRIMMABLE LED FILM

Abstract

A method for producing an LED film with a cut-off edge is disclosed. The LED film has a film with LED pixels arranged thereon. The LED pixels, which each have at least one LED, are controlled via the data line of a daisy chain, which is arranged in a meandering shape on the film. The method provides for a loop of the meandering shape to be severed and for the thereby produced free ends of the data line to be connected or for a loop of the meandering shape to be bridged and for the edge of the LED film to be subsequently trimmed so that the loop is cut off outside the connection remaining on the LED film. Electrode paths of supply voltage lines are preferably arranged in a matrix shape on the LED film.

Claims

1. A method for easy adaptation of an LED film comprises the steps of: A) providing the LED film, wherein the LED film has the following: a) a flexible film; b) multiple LED pixels (LED n.m, LED n), which are arranged in a matrix shape in rows (Z n) and columns (S n) indirectly or directly on the film, wherein the LED pixels (LED n.m, LED n) are connected in a meandering shape in a first daisy chain, wherein the first daisy chain has a first loop, which has multiple LED pixels (LED n.m, LED n) in a first leading row (Z n) and has multiple LED pixels (LED n.m, LED n) in the following first returning row (Z n), wherein the first leading row (Z n) is connected at the end in the direction of a column (S n) to the beginning of the first returning row (Z n); B1) cutting off a portion of the LED film, wherein the first leading row (Z n) and the first returning row (Z n) are severed; and connecting the end of the first leading row (Z n) to the beginning of the first returning row (Z n) before the cut-off portion; or B2) connecting the end of the first leading row (Z n) to the beginning of the first returning row (Z n) before a portion of the LED film to be cut off; and cutting off the portion of the LED film to be cut off, wherein the first leading row (Z n) and the first returning row (Z n) are severed.

2. The method according to claim 1, wherein the LED film has multiple LED pixels (LED n.m, LED n) connected in a second daisy chain.

3. The method according to claim 2, wherein the first daisy chain can be connected to a control line via a controllable first switch (SW n) and the second daisy chain can be connected to the control line via a controllable second switch (SW n).

4. The method according to claim 2, in which the second daisy chain is mirrored to the first daisy chain.

5. The method according to claim 3, in which the second daisy chain is mirrored to the first daisy chain.

6. The method according to claim 1, wherein the connection in method step B1 or B2 takes place by means of a shorting bridge (J n) or a switch.

7. The method according to claim 1, wherein rows (Z n) and columns (S n) of the matrix shape are at right angles to one another.

8. The method according to claim 1, wherein supply voltage lines for conducting a first pole of a supply voltage for the LED pixels (LED n.m, LED n) are arranged row-wise on a first layer of the film and supply voltage lines for conducting a second pole of the supply voltage for the LED pixels (LED n.m, LED n) are arranged column-wise on the opposite, second layer of the film, wherein in the region of the LED pixels (LED n.m, LED n), at least one via is provided in each case in order to supply the LED pixels (LED n.m, LED n) with voltage.

9. The method according to claim 1, wherein connection options for cable lines for the supply voltage and/or data line are present on multiple LED pixels (LED n.m, LED n).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1 shows an LED film with a bus control provisionally not according to the claims.

[0026] FIG. 2 shows an LED film according to the invention with multiple LED pixels in a daisy-chain control.

[0027] FIG. 3a shows a front portion of the LED film of FIG. 2, in which supply voltage lines for conducting a first pole of a supply voltage for the LED pixels can be seen.

[0028] FIG. 3b shows a rear portion of the LED film of FIG. 2, in which supply voltage lines for conducting a second pole of a supply voltage for the LED pixels can be seen.

[0029] FIG. 4 shows a further embodiment of an LED film which is provisionally not according to the claims and which has multiple LED pixels which can be controlled by various daisy chains.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0030] FIG. 1 shows an LED film 10 with a film 12 and multiple LED pixels LED n.m. The LED pixels LED n.m are connected both row-wise and column-wise via data lines 14 and supply voltage lines 16. The data lines 14 are designed as bus lines. The LED pixels LED n.m can be uniquely addressed individually. Edge regions 18a, 18b, 18c (contoured in dashed lines in FIG. 1) of the LED film 10 can be readily removed since all remaining LED pixels LED n.m, for example LED 5.1, can still be supplied via the remaining data and supply voltage lines 14, 16. The LED film 10 shown in FIG. 1 represents an independent part of the invention, which is provisionally not claimed herein.

[0031] FIG. 2 shows an LED film 10 with a film 12 and multiple LED pixels LED n arranged thereon. The LED pixels LED n are connected in series via a data line 14 in the form of a daisy chain 20. The data line 14 is meander-shaped with rows Z 1 to Z 5 and columns S 1 to S 4. The rows Z 1, Z 3 and Z 5 are leading; the rows Z 2 and Z 4 are returning. Both the leading rows Z 1, Z 3 and Z 5 and the returning rows Z 2 and Z 4 are provided with LED pixels LED n.

[0032] 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.

[0033] FIG. 3a shows a portion of a first layer 22a of the LED film 10 with the LED pixel LED 16. The data line 14, here with multiple electrode paths 24a, 24b, is arranged on the first layer 22a. Furthermore, row-wise guided electrode paths 26a,26b of a first supply voltage line 28a can be seen. The first supply voltage line 28a serves to supply the LED pixels LED n with a first pole 30a, here VCC.

[0034] FIG. 3b shows the rear side of the LED film 10 of FIG. 3a, i.e., a second layer 22b. In this second layer 22b, column-wise aligned electrode paths 26c,26d of a second supply voltage line 28b can be seen. The second supply voltage line 28b serves to supply the LED pixels LED n with a second pole 30b, here GND. The row-wise and column-wise voltage supply of the LED pixels LED n secures the voltage supply of the LED pixels LED n even in the case of large trimming of the edge region of the LED film 10.

[0035] FIG. 4 shows a variant of an LED film 10 with multiple LED pixels LED n.m, which are arranged in daisy chains 20a, 20b, 20c, 20d, 20e. The daisy chains 20a-e are controlled via a common control line 32. The connection of the control line 32 to the daisy chains 20a-e takes place via controllable switches SW n, for example in the form of MOSFETs. In order to control the LED pixels LED n.m, only one switch SW n is ever switched on and the remaining switches SW n are switched off.

[0036] 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).

LIST OF REFERENCE SIGNS

[0037] 10 LED film [0038] 12 Film [0039] 14 Data line [0040] 16 Supply voltage line [0041] 18a-c Edge region of the LED film 10 [0042] 20, 20a-e Daisy chain [0043] 22a,b Layer [0044] 24a,b Electrode path of data line 14 [0045] 26a-d Electrode path of supply voltage line 28a,b [0046] 28a,b Supply voltage line [0047] 30a,b Pole [0048] 32 Control line [0049] J n Jumper [0050] LED n.m LED pixel [0051] LED n LED pixel [0052] S n Column [0053] Z n Row [0054] SW n Switch