1. An apparatus comprising:
a crystallization apparatus for crystallizing a semiconductor layer, the crystallization apparatus having:
a roller;
at least one heat emission part that is provided at an outer surface of the roller and is configured to receive external electric power so as to emit heat, each heat emission part being sized to correspond to the semiconductor layer of a thin film transistor;
an electrical network arranged in a cylindrical configuration, the electrical network including a first power line and a second power line connected to a separate power source from the first power line to provide the external electric power to the heat emission part.
2. An apparatus comprising:
a crystallization apparatus for crystallizing a semiconductor layer, the crystallization apparatus having:
at least one heat emission part configured to emit heat;
an electrical network arranged in a cylindrical configuration, the electrical network including a first power line and a second power line connected to a separate power source from the first power line;
a support part that supports the heat emission part; and
a roller that receives the heat emission part and comprises at least one opening that is aligned with the heat emission part and that is sized to correspond to the semiconductor layer of a thin film transistor,
wherein the heat emission part is connected between the first power line and the second power line to receive power from the first power line and the second power line.
3. The crystallization apparatus of claim 2, wherein the first power line and the second power line are disposed on an outer surface of the support part.
4. The crystallization apparatus of claim 3, wherein the heat emission part comprises a protruding tip comprising two ends that are connected to the first power line and the second power line, respectively.
5. The crystallization apparatus of claim 4, wherein the protruding tip is aligned with the opening to emit heat through the opening.
6. The crystallization apparatus of claim 4, wherein the heat emission part comprises one of tungsten, nickel-chrome, and platinum.
7. The crystallization apparatus of claim 2, wherein the heat emission part comprises a lamp and the lamp is configured to receive electric power from the first power line and the second power line so as to emit a pulsed laser beam.
8. The crystallization apparatus of claim 7, wherein the heat emission part protrudes from the outer surface of the roller and is shaped into a circle, an ellipse or a polygon.
9. The crystallization apparatus of claim 8, wherein the heat emission part comprises one of tungsten, nickel-chrome, and platinum.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A method to manage at least one RIPped image having control andor identification information during job workflow before printing comprising:
receiving at least one RIPped image that can be reproduced by a printing engine, wherein the at least one RIPped image comprises an image and data indicating at least one of location, shape, and orientation of objects or components;
displaying a print server interface with individual panes showing active, paused, and completed print jobs, wherein the pane showing the active print jobs comprises the received at least one RIPped image;
determining if a user through a keyboard or user interface, or by receiving an indication from the print server interface has selected a RIPped image for modification;
displaying a modification processing user interface with menus to facilitate user changes to the selected RIPped image;
sensing the user changes to the control andor identification information in the selected RIPped image;
performing modification processing based on the user changes to the selected RIPped image by:
decomposing with a segmenter the selected RIPped image into individual pages that are then segmented into the components or the objects to extract information contained therein;
processing coded symbology and then erasing the processed coded symbology;
processing modification of the control andor identification information in the selected RIPped image and then for each page of the selected RIPped image extracting the control andor identification information from the selected RIPped image to alter the segments or objects based on the sensed user changes;
forming an output bitmap image after modification of the selected RIPped image;
wherein the modification comprises adding a security feature, adding tracking information, and voiding an active print job.
2. The method of claim 1, wherein the modification is selected from a group comprising of deleting extracted information, deleting extracted information and adding additional information, adding additional information, andor embedding a control instruction in the selected RIPped image.
3. The method of claim 2, wherein the output bitmap image has a format compatible with one of Tagged-Image File Format (TIFF), Joint Photographic Experts Group (JPEG), Portable Network Graphics (PNG), Windows Bitmap (BMP), Exchangeable image file format (EXIF), Windows Media Photo (WMP), raw image format (RAW).
4. The method of claim 2, wherein adding additional information is selected from a group comprising of operator identification (ID) information, printer identification (ID) information, time stamp information, watermark, tracking information, security feature andor data specific to a user’s application.
5. The method of claim 2, wherein the at least one RIPped image comprises at least one of a barcode, a glyph, text, and an image.
6. A print server for implementation by at least one machine for processing a job workflow, the print workflow server comprising:
a processor to receive at least one RIPped image that can be reproduced by a printing engine and to execute instructions for processing the job workflow and to sense whether a modification of the at least one RIPped image has been selected, wherein the at least one RIPped image comprises at least one image and data indicating at least one of location, shape, and orientation of objects or components; and
an interface to connect to the print workflow server so as to receive a modification print instruction;
wherein the processor when coupled to a storage device with instructions operative on the processor to manage the at least one RIPped image by:
causing to be display a print server interface with individual panes showing active, paused, and completed print jobs, wherein the pane showing the active print jobs comprises the received at least one RIPped image;
determining if a user through a keyboard or user interface, or by receiving an indication from the print server interface has selected a RIPped image for modification;
performing modification processing on the selected RIPped image by:
causing to be display of a user interface with menus to facilitate user changes to the selected RIPped image;
receiving the user changes that when processed causes the processor to extract information from the selected RIPped image and to modify the selected RIPped image;
wherein the processor executes instructions for processing some coded symbology on the selected RIPped image and then erasing the processed coded symbology;
in response to the user changes decomposing the selected RIPped image into individual pages that are then segmented into components or objects to extract information contained therein;
in response to the user changes for each page extracting control andor identification information from the selected RIPped image and performing modification of the segments or objects;
in response to the modification of the segments or objects forming an output bitmap image of the selected RIPped image.
7. The print server of claim 6, the executed instructions causing the processor to facilitate printing of a document when receiving a print command for printing from a user by:
receiving a print command for printing the document;
displaying a print user interface with selectable settings and selectable modification settings that form part of the modification print instructions;
receiving an indication from the user of selected settings and modification settings; and
controlling the at least one machine using the selected settings and modification settings.
8. The print server of claim 7, wherein a modification setting is selected from a group comprising of deleting extracted information, deleting extracted information and adding additional information, adding additional information, embedding a control instruction in the selected RIPped image.
9. The print server of claim 8, wherein the output bitmap image has a format compatible with one of Tagged-Image File Format (TIFF), Joint Photographic Experts Group (JPEG), Portable Network Graphics (PNG), Windows Bitmap (BMP), Exchangeable image file format (EXIF), Windows Media Photo (WMP), raw image format (RAW).
10. The print server of claim 8, wherein adding additional information is selected from a group comprising of operator identification (ID) information, printer identification (ID) information, time stamp information, watermark, tracking information, security feature, andor data specific to a user’s application.
11. The print server of claim 8, wherein the at least one RIPped image comprises at least one of a barcode, a glyph, text, and an image.
12. An apparatus for controlling print processing of a document having at least one RIPped image, comprising:
a processor; and
a storage device coupled to the processor, wherein the storage device contains instructions operative on the processor for:
receiving at least one RIPped image that can be reproduced by a printing engine, wherein the at least one RIPped image comprises at least one image and data indicating at least one of location, shape, and orientation of objects or components;
displaying a print server interface with individual panes showing active, paused, and completed print jobs, wherein the pane showing the active print jobs comprises the received at least one RIPped image;
determining if a user through a keyboard or user interface, or by receiving an indication from the print server interface has selected a RIPped image for modification;
performing modification processing on the selected RIPped image by:
displaying a print user interface having menus to facilitate at least one selectable change to the selected RIPped image;
sensing selection of the at least one selectable change;
extracting information from the selected RIPped image if it is sensed that a selection of the at least one selectable change has been made, wherein the extracting is decomposing the selected RIPped image into individual pages that are then segmented into components or objects to extract information contained therein; and
applying the at least one selectable change to the document;
processing some coded symbology on the selected RIPped image and then erasing the processed coded symbology;
forming an output bitmap image after modification of the selected RIPped image.
13. The apparatus of claim 12, further comprising:
wherein the modification is selected from a group comprising of deleting extracted information, deleting extracted information and adding additional information, adding additional information, embedding a control instruction in the selected RIPped image;
wherein the output bitmap image has a format compatible with one of Tagged-Image File Format (TIFF), Joint Photographic Experts Group (JPEG), Portable Network Graphics (PNG), Windows Bitmap (BMP), Exchangeable image file format (EXIF), Windows Media Photo (WMP), raw image format (RAW).
14. The apparatus of claim 13, wherein adding additional information is selected from a group comprising of operator identification (ID) information, printer identification (ID) information, time stamp information, watermark, tracking information, security feature.
15. The apparatus of claim 13, wherein the at least one RIPped image comprises at least one of a barcode, a glyph, text, and an image.
16. The apparatus of claim 12, further comprising:
processing coded symbology and then erasing the processed coded symbology;
wherein the modification is selected from a group comprising of deleting extracted information, deleting extracted information and adding additional information, adding additional information, embedding a control instruction in the at least one RIPped image;
wherein the output bitmap image has a format compatible with one of Tagged-Image File Format (TIFF), Joint Photographic Experts Group (JPEG), Portable Network Graphics (PNG), Windows Bitmap (BMP), Exchangeable image file format (EXIF), Windows Media Photo (WMP), raw image format (RAW).