Electronic device with device operation information display graphical user interface

Abstract

1. Name of the product in this design: Electronic device with a graphical user interface for displaying device operation information. 2. Application of this design: This design is intended for use in an electronic device. 3. The key design features of this product are its graphical user interface content. 4. The picture or photo that best illustrates the key design points: Design 1 front view. 5. The electronic device described in this design is a conventional design, and the rear view, left view, right view, top view, and bottom view of Design 1 to Design 9 are omitted. 6. Design 1 is designated as the basic design. 7. Purpose of the graphical user interface: This design is used to display real-time information and operating status of the device during operation. 8. Human-computer interaction methods of graphical user interface: User interaction includes clicking on text or icon buttons that represent various functions. In addition, "XX" in the graphical user interface represents variable text or numbers, and gray blocks in the graphical user interface represent variable images. The graphical user interface of the main view in Design 1 is a device operation information display interface that does not distinguish between inbound and outbound ports and has no cache area within the device. The upper area is the area that displays real-time information of the device modules during device operation. Users can learn about the current device module type, quantity, name, status, progress, batch information, and operation status in this area. The lower area is the port display area, where users can learn about the current device port quantity, name, mode, label, status, operation status, and whether it is locked. The graphical user interface of the main view of Design 2 is a device operation information display interface that does not distinguish between inbound and outbound ports and has no cache area within the device. The upper area displays real-time information of wafers being processed when the device has no modules. In this area, users can understand the number, name, and status of wafers currently being processed by the device at the level of a single wafer. The lower area is the port display area, where users can understand the number, name, mode, label, status, operation status, and whether the current device ports are locked. The graphical user interface of the main view of Design 3 is a device operation information display interface that does not distinguish between inbound and outbound ports and has no cache area within the device. The upper area displays real-time information of wafers being processed when the device has no modules. In this area, users can understand the number, name, status, and which carrier the wafer belongs to, from the perspective of the carrier. The lower area is the port display area, where users can understand the number, name, mode, label, status, operation status, and whether the current device ports are locked. The graphical user interface of the main view in Design 4 is a device operation information display interface that distinguishes between inbound and outbound ports and has no buffer area within the device. The upper area is the outbound port display area, where users can see the number, name, mode, label, status, operation status, and whether it is locked of the current outbound ports. The middle area is the device module real-time information display area, where users can see the current module type, quantity, name, status, progress, batch information, and operation status. The lower area is the inbound port display area, where users can see the number, name, mode, label, status, operation status, and whether it is locked of the current device ports. The graphical user interface of the main view in Design 5 is a device operation information display interface that distinguishes between inbound and outbound ports and has no buffer area within the device. The upper area is the outbound port display area, where users can see the number, name, mode, label, status, operation status, and whether it is locked of the current outbound ports. The middle area is the area that displays real-time information of wafers being processed when the device has no modules. In this area, users can see the type, quantity, name, status, progress, batch information, and operation status of the wafers being processed by the device at the level of a single wafer. The lower area is the inbound port display area, where users can see the number, name, mode, label, status, operation status, and whether it is locked of the current device ports. The graphical user interface of the main view in Design 6 is a device operation information display interface that distinguishes between inbound and outbound ports and has no buffer area within the device. The upper area is the outbound port display area, where users can see the number, name, mode, label, status, operation status, and whether the outbound ports are locked. The middle area is the area that displays real-time information of wafers being processed when the device has no modules. In this area, users can see the number, name, status, and which carrier the wafer belongs to, from the perspective of the carrier. The lower area is the inbound port display area, where users can see the number, name, mode, label, status, operation status, and whether the inbound ports are locked. The graphical user interface of the main view in Design 7 is a device operation information display interface that does not distinguish between inbound and outbound ports and has a cache area within the device. The upper left area displays real-time information of the device modules during device operation, where users can learn about the current device module type, quantity, name, status, progress, batch information, and operating status. The lower left area is the port display area, where users can learn about the current device port quantity, name, mode, label, status, operating status, and whether it is locked. The right area is the cache area, where users can learn about the cache type, quantity, and usage. The graphical user interface of the main view is a device operation information display interface that does not distinguish between inbound and outbound ports and has a cache area within the device. The upper left area displays real-time information of the device modules during device operation, where users can learn about the current device module type, quantity, name, status, progress, batch information, and operation status. The lower left area is the port display area, where users can learn about the current device port quantity, name, mode, label, status, operation status, and whether it is locked. The right area is the cache area, where users can learn about the cache type, quantity, and usage. The graphical user interface of the main view in Design 9 is a device operation information display interface that does not distinguish between inbound and outbound ports and has a cache area within the device. The upper left area displays real-time information of the device modules during device operation, where users can learn about the current device module type, quantity, name, status, progress, batch information, and operation status. The lower left area is the port display area, where users can learn about the current device port quantity, name, mode, label, status, operation status, and whether it is locked. The right area is the cache area, where users can learn about the cache type, quantity, and usage.

Images