Systems for alternative illumination in global shutter barcode readers are disclosed herein. An example system includes an imaging apparatus configured to capture an image during an image capture period, and an imaging shutter configured to actuate and expose the imaging apparatus to an external environment during the image capture period. The example system also includes an illumination light emitting diode (LED) configured to emit illumination, and an illumination drive circuit configured to cause the illumination LED to emit the illumination (i) during the image capture period and (ii) when the imaging apparatus is shielded from exposure to the external environment by the imaging shutter.

Apparatuses and methods of reading DPM codes on objects therewith are provided. An apparatus includes a housing and a first imaging assembly housed within the housing and includes a first image sensor. The apparatus also has a second imaging assembly housed within the housing and includes a second image sensor. The apparatus also includes an illumination assembly configured to provide an illumination light having a central illumination axis. At least two of a FOV central axis of the first imaging assembly, a second FOV central axis of the second imaging assembly, and the central illumination axis pass through a plane within a first distance of no greater than about 40 mm of each other. The plane being (i) normal to the first FOV central axis and (ii) a second distance between about 0 to about 5 inches from a nose of the housing.

An imaging assembly for capturing at least one object appearing in a field of view (FOV) is provided that includes an image capturing system, a controller operatively coupled to the image capturing system to control operation thereof, and a processor operatively coupled to the controller. The image capturing system is adapted to capture an image having at least one sub-frame and is further adapted to obtain distance information of the object. The processor analyzes the image to determine a brightness value of at least a portion of the image and analyzes the distance information of the object to determine a distance value from the imaging assembly to the object. The processor further determines an illumination characteristic based on the brightness value and the distance value.

A removable adapter device is integrated into a cradle for holding a handheld scanner. The adapter device enables the cradle to be removed and reattached or removed and replaced with another cradle without needing access to or changing cables that connect the cradle to a host system. The adapter device provides a standardize configuration, connection, or both to allow simplified replacement of different manufacturer cradles and scanners without concern about the cable connection to the host system. The adapter device acts as an interface for data and power transmission between the cradle and the host system.

Embodiments of the disclosure relate generally to flicker reduction in a multi-imager environment. Embodiments include methods, computer program products, and apparatuses configured for producing a near-field illumination using a near-field illuminator, the near-field illumination produced at a defined pulse train. A near-field image sensor may be exposed near the start of a near-field illumination pulse, and a far-field image sensor may be exposed between pulses of the near-field illumination. Some embodiments, additionally or alternatively, are configured for detecting an illuminator switch event, deactivating the near-field illuminator source, and producing, using a far-field illuminator source, a far-field illumination. Upon switching the illuminator source, some such embodiments are configured for exposing a far-field illuminator near the start of the far-field illumination pulse, and exposing a near-field image sensor near the start of the next available far-field illumination pulse. Such image capture may repeat until an image processing task such as barcode reading is successful.

Various embodiments disclosed herein describe a method comprising receiving indicia data from an indicia scanner. The indicia data comprises at least decoded data obtained based on decoding an indicium in an image, an image tile comprising a portion of the indicium, and/or location of one or more corners of the portion of the indicium in the image. Further, the method includes generating an image of an ideal indicium based on at least the decoded data. Thereafter, the image of the ideal indicium is modified to generate a modified image of the ideal indicium. Further, the portion of the indicium is retrieved from modified image. A clean image tile comprises a portion of the ideal indicium. Furthermore, the method includes generating training data, wherein the training data includes the portion of the indicium and the portion of the ideal indicium.

An imaging device includes a housing having an optically transmissive window, a first imaging assembly, a second imaging assembly, and illumination emitter for generating a user interface visual indicator. The illumination emitter may be a light emitting diode or other light source. To prevent internal reflection of the user interface visual indicator off the window and appearing in captured images from the imaging assemblies, the imaging device synchronizes emitter-on times and sensor exposure-on times to prevent substantial overlap therebetween, thereby allowing for more accurate image captures, including color image captures of the imaging device.

An apparatus and assembly for redirecting the central illumination axis of an illumination assembly towards the central field of view (FOV) axis of an imaging assembly using an optical element that provides an optical magnification of less than 1.5×, where the central illumination axis at the point of the illumination assembly is non-parallel to the central FOV axis.

Symbology readers and methods of reading DPM codes on objects therewith are provided. The symbology reader include a housing that defines a cavity having a first portion and a second portion. A window that separates the first portion and the second portion of the cavity is positioned within the cavity. The symbology reader includes a diffuser configured to diffusingly reflect light that impinges thereon positioned within the first portion of the cavity. The symbology reader includes an imaging assembly and a first illumination assembly positioned within the second portion of the cavity. The symbology reader includes an optical element configured to direct illumination light to impinge upon the diffuser.

Methods and apparatus for providing indications of shutdown states for handheld barcode scanners are disclosed herein. An example handheld barcode scanner includes a power source, a power source monitor, an indicator, and a processor disposed inside a housing. The power source monitor is configured to detect whether the power source has reached a pre-determined amount of discharge at which the internal power source is to be shut down to prevent damage. The processor configured to, when the internal power source has reached the pre-determined amount of discharge: configure the indicator to provide, while the internal power source is in the shutdown state, an indication that the internal power source is shutdown, and configure the internal power source into the shutdown state such that an image sensor, an indicia decoder, and the processor are de-energized.