Abstract: An example method for managing power within an imaging device includes: determining an interface of the imaging device via which the imaging device is receiving power; based on the interface, determining a power budget associated with the interface; determining which fixed load components of the imaging device are enabled; calculating a remaining power budget by subtracting a power consumption of the enabled fixed load components from the power budget; responsive to the remaining power budget being positive, configuring non-fixed load components such that a total power consumption of the non-fixed load components does not exceed the remaining power budget; and responsive to the remaining power budget being negative, providing, via a user interface, a notification of insufficient power budget.

Abstract: Techniques for pre-configuring a barcode reader device for establishing a communication link with a particular computing device via a short-range communication protocol are provided herein. An example method includes sending, by a barcode reader device, a request to a computing device via a first short-range wireless communication protocol (e.g., NFC); receiving, by the barcode reader device, from the computing device, via the first short-range wireless communication protocol, an indication of one or more barcode reader device settings for establishing a short-range communication link with the computing device via a second short-range wireless communication protocol (e.g., Bluetooth®); modifying, by the barcode reader device, the one or more barcode reader device settings as indicated; and establishing, by the barcode reader device, the short-range communication link with the computing device via the second short-range wireless communication protocol.

Abstract: Techniques for connecting and disconnecting cordless scanners to/from host devices are disclosed herein. A transceiver of an example barcode reader is configured to attempt to establish a wireless connection with a host device (e.g., repeatedly) over a first period of time. Responsive to failing to establish the connection with the host device over the first period of time, the barcode reader enters a power-saving mode. During the power-saving mode at least one of the transceiver, a decode engine, a peripheral sensor, and an imaging engine of the barcode reader are deactivated. The wireless transceiver of the barcode reader is configured to attempt to re-establish the wireless connection with the host device after (i) a passage of a second period of time following the first period of time, wherein the second period of time is greater than the first period of time; or (ii) a receipt of an interrupt signal.

Abstract: A checkout system for electro-optically reading targets includes a host, a workstation reader, and an auxiliary reader operatively connected to the workstation reader. The workstation reader captures data associated with the targets, and communicates its captured data with the host over a predetermined communications protocol. The auxiliary reader also captures data associated with the targets independently of the workstation reader. The workstation reader automatically integrates the auxiliary reader in the system by automatically detecting the protocol of the auxiliary reader, and by automatically configuring the detected protocol of the auxiliary reader to conform to the predetermined communications protocol of the workstation reader, thereby enabling the auxiliary reader to communicate its captured data with the host.

Abstract: A checkout system for electro-optically reading targets includes a host, a workstation reader, and an auxiliary reader operatively connected to the workstation reader. The workstation reader captures data associated with the targets, and communicates its captured data with the host over a predetermined communications protocol. The auxiliary reader also captures data associated with the targets independently of the workstation reader. The workstation reader automatically integrates the auxiliary reader in the system by automatically detecting the protocol of the auxiliary reader, and by automatically configuring the detected protocol of the auxiliary reader to conform to the predetermined communications protocol of the workstation reader, thereby enabling the auxiliary reader to communicate its captured data with the host.

Abstract: A reader for electro-optically reading two-dimensional symbols of different heights, includes a scanner for scanning the symbols with light in a raster scan pattern of an adjustable height, and for detecting light scattered from the symbols to generate electrical signals indicative of the detected light. A controller not only decodes the electrical signals to read the symbols, but also controls the scanner to adjust the height of the raster scan pattern, and optionally the rate of height adjustment, upon a determination that a symbol being scanned is a two-dimensional symbol, and that the two-dimensional symbol has not been read after a predetermined time period has elapsed. The controller can also be programmed to read symbols only of a certain height.