Laser ablation marking system for and a method of providing an image to a web of packaging material

The invention claimed is: 1. A laser ablation marking system for providing an image to a web of packaging material, comprising: at least one marking device having at least one laser comprising a plurality of individually controlled light outputs arranged in the cross-wise direction of the web of packaging material, each light output having a power output of at least 60 W and being configured to emit light to provide laser ablation, and a controller being connected to the marking device and configured to control the light outputs based on the speed of the web of packaging material such that the emitted light will always hit the web of packaging material at the same angle, wherein the plurality of light outputs are arranged in a linear array, wherein the linear array extends in a direction being perpendicular to the travel direction of the web of packaging material, and wherein when generating the image, the controller is configured to activate the marking device in a pulsed manner corresponding with the speed of the web, so that the cross-wise resolution of the image is determined by the number of light outputs in the linear array, while the lengthwise resolution of the image is determined by the number of consecutive laser pulses from each light output in the linear array as, when each light output is in use to generate the image, only a single laser pulse is emitted from each light output at each lengthwise position and each cross-wise position of the image as the web of packaging material passes the marking device. 2. The marking system according to claim 1 , wherein each light output has a power output in the range of 60-1000 W. 3. The marking system according to claim 2 , wherein each light output has a power output in the range of 60 to 500 W, and wherein the speed of the web of packaging material is 300 m/min or greater. 4. The marking system according to claim 1 , further comprising at least one coating device configured to provide a coated area onto the web of packaging material. 5. The marking system according to claim 4 , wherein the at least one coating device is arranged upstream the at least one marking device. 6. The marking system according to claim 1 , wherein the number of light outputs is above fifteen. 7. The marking system according to claim 6 , wherein the number of light outputs is above twenty. 8. The marking system according to claim 1 , wherein each light output is connected to an optical fiber having a distal end at which a laser beam is allowed to exit. 9. The marking system according to claim 1 , wherein a dimension of the outputted laser beam, when hitting the web of packaging material, is 1 mm 2 or less. 10. The marking system according to claim 1 , further comprising a source of the web packaging material that is fed downstream continuously to pass the marking device. 11. The marking system according to claim 1 , wherein for each pulse, the plurality of light outputs are controlled individually. 12. The marking system according to claim 1 , wherein the controller is configured to controlling each light output binary to either emit light or not. 13. The marking system according to claim 1 , wherein the controller is configured to controlling the marking device in order to ablate selected parts of a coating substance arranged on a coated area on said web of packaging material. 14. The marking device according to claim 13 , wherein the controller is configured to controlling the marking device to ablate the entire layer of coating substance at said selected parts. 15. The marking device according to claim 13 , wherein the controller is configured to controlling the marking device to ablate only a part of the layer of coating substance at said selected parts. 16. A method for providing an image to a web of packaging material, comprising: feeding the web of packing material continuously in a downstream direction; providing at least one marking device having at least one laser and a plurality of individually controlled light outputs connected to said at least one laser, wherein each light output is configured to emit light having a power output of at least 60 W in order to provide laser ablation, wherein the plurality of light outputs are arranged in a linear array, providing a controller being connected to the marking device and configured to control the light outputs based on the speed of the web of packaging material, and controlling at least one of the light outputs to emit light in order to ablate selected parts of a coating substance arranged on a coated area on said web of packaging material such that the emitted light will always hit the web of packaging material at the same angle, extending the linear array in a direction being perpendicular to the travel direction of the web of packaging material, and generating the image on the web of packaging material by controlling the marking device with the controller in a pulsed manner corresponding with the speed of the web, so that the cross-wise resolution of the image is determined by the number of light outputs in the linear array, while the lengthwise resolution of the image is determined by the number of consecutive laser pulses from each light output in the linear array as, when each light output is in use to generate the image, only a single laser pulse is emitted from each light output at each lengthwise position and each cross-wise position of the image as the web of packaging material continuously passes the marking device. 17. The method according to claim 16 , further comprising: applying the coating substance at one or more coated areas on the web of packaging material using at least one coating device arranged upstream of the at least one marking device, wherein the generating the image on the web of packaging material includes ablating the selected parts of the coating substance using the single laser pulse emitted from each light output in the linear array at each lengthwise position and each cross-wise position of the image as the web of packaging material continuously passes the marking device, such that each ablated part of the coating forms a dot that provides visual contrast with neighboring non-ablated parts of the coating substance, and the image generated comprises a pattern of the dots having the cross-wise resolution and the lengthwise resolution, in which each dot of the pattern provides the same visual contrast as the other dots in the pattern. 18. The method according to claim 16 , wherein the same light output power is used for each single laser pulse at each lengthwise position and each cross-wise position of the image. 19. The method according to claim 16 , further comprising: detecting shifting of the web of packaging material by using a sensor that detects a change in the lateral position of a reference mark located on the web of packaging material, and using the controller to control the light outputs based upon the detected change in the lateral position of the reference mark to account for the shifting of the web of packaging material. 20. A laser ablation marking system for providing an image to a web of packaging material, comprising: at least one marking device having at least one laser comprising a plurality of individually controlled light outputs arranged in the cross-wise direction of the web of packaging material, each light output having a power output of at least 60 W and being configured to emit light to provide laser ablation, and a controller being connected to the marking device an