Abstract: For detecting label stops in a label printer, a label stop sensing device is provided. In one implementation, the label stop sensing device comprises a sensor configured to sense print media being fed through a printer, wherein the print media comprises a plurality of labels separated by gaps. Also, the label stop sensing device includes a gap detecting module having a Fast Fourier Transform (FFT) module. The FFT module is configured to receive time domain signals of the sensed print media from the sensor and to obtain frequency domain signals. The gap detecting module is configured to detect the gaps between the labels on the print media based on at least the frequency domain signals.

Abstract: For detecting label stops in a label printer, a label stop sensing device is provided. In one implementation, the label stop sensing device comprises a sensor configured to sense print media being fed through a printer, wherein the print media comprises a plurality of labels separated by gaps. Also, the label stop sensing device includes a gap detecting module having a Fast Fourier Transform (FFT) module. The FFT module is configured to receive time domain signals of the sensed print media from the sensor and to obtain frequency domain signals. The gap detecting module is configured to detect the gaps between the labels on the print media based on at least the frequency domain signals.

Abstract: For detecting label stops in a label printer, a label stop sensing device is provided. In one implementation, the label stop sensing device comprises a sensor configured to sense print media being fed through a printer, wherein the print media comprises a plurality of labels separated by gaps. Also, the label stop sensing device includes a gap detecting module having a Fast Fourier Transform (FFT) module. The FFT module is configured to receive time domain signals of the sensed print media from the sensor and to obtain frequency domain signals. The gap detecting module is configured to detect the gaps between the labels on the print media based on at least the frequency domain signals.

Abstract: The present invention embraces methods to automatically adjust print locations on a label on center-tracked printers. The methods are applicable for the initial out of the box setup and when changing media/print scripts after deployment of the printer. A novelty of the present invention is that no additional hardware may be required and the method is implemented with a relatively simple software algorithm. By utilizing a simple software algorithm and an analysis of the objects (barcode, text, shape, graphics, etc.) in the rendered image buffer, the centered position for the label can be calculated. The calculation of the centered position for the label is based on the print head width and the image width. An additional benefit with this invention is that the risk of printing outside the physical label (due to mechanical or label media roll variations) is minimized, since the image is printed centered.

Abstract: For detecting label stops in a label printer, a label stop sensing device is provided. In one implementation, the label stop sensing device comprises a sensor configured to sense print media being fed through a printer, wherein the print media comprises a plurality of labels separated by gaps. Also, the label stop sensing device includes a gap detecting module having a Fast Fourier Transform (FFT) module. The FFT module is configured to receive time domain signals of the sensed print media from the sensor and to obtain frequency domain signals. The gap detecting module is configured to detect the gaps between the labels on the print media based on at least the frequency domain signals.

Abstract: Systems and methods for comparing different models of printers are provided. According to one embodiment, a system for comparing printers includes at least one web portal configured to receive a user's selection of two models of printers to be compared. The system further includes a printer analysis server configured to receive the user's selection via a first network. A plurality of sample printers is connected to the printer analysis server via a second network. The printer analysis server is configured to establish communication with two sample printers of the plurality of sample printers, the two sample printers corresponding to the two selected printer models. The printer analysis server is further configured to provide a data stream of print commands to the two sample printers and analyze print output results from the two sample printers, wherein the print output results may then be provided to the user.

Abstract: A method for facilitating the configuration, resource installation, and direct printing of print jobs to a printer device from a host system that may not require installation of drivers or host software is described. The printer device is coupled to a host system via a universal serial bus (USB) interface. The printer device presents to the host system a USB mass storage profile that includes one or more smart folders. The printer device receives from the host system a data file and stores the data file in one of the one or more smart folders causing a corresponding action event to automatically be triggered in the printer device. The corresponding action events may include setting-up a printer configuration, printing a print file or image file, installing a font file or an image file, and installing a firmware upgrade.

Abstract: Systems and methods for comparing different models of printers are provided. According to one embodiment, a system for comparing printers includes at least one web portal configured to receive a user's selection of two models of printers to be compared. The system further includes a printer analysis server configured to receive the user's selection via a first network. A plurality of sample printers is connected to the printer analysis server via a second network. The printer analysis server is configured to establish communication with two sample printers of the plurality of sample printers, the two sample printers corresponding to the two selected printer models. The printer analysis server is further configured to provide a data stream of print commands to the two sample printers and analyze print output results from the two sample printers, wherein the print output results may then be provided to the user.

Abstract: The present invention embraces methods to automatically adjust print locations on a label on center-tracked printers. The methods are applicable for the initial out of the box setup and when changing media/print scripts after deployment of the printer. A novelty of the present invention is that no additional hardware may be required and the method is implemented with a relatively simple software algorithm. By utilizing a simple software algorithm and an analysis of the objects (barcode, text, shape, graphics, etc.) in the rendered image buffer, the centered position for the label can be calculated. The calculation of the centered position for the label is based on the print head width and the image width. An additional benefit with this invention is that the risk of printing outside the physical label (due to mechanical or label media roll variations) is minimized, since the image is printed centered.

Abstract: A method for facilitating the configuration, resource installation, and direct printing of print jobs to a printer device from a host system that may not require installation of drivers or host software is described. The printer device is coupled to a host system via a universal serial bus (USB) interface. The printer device presents to the host system a USB mass storage profile that includes one or more smart folders. The printer device receives from the host system a data file and stores the data file in one of the one or more smart folders causing a corresponding action event to automatically be triggered in the printer device. The corresponding action events may include setting-up a printer configuration, printing a print file or image file, installing a font file or an image file, and installing a firmware upgrade.