A handheld optical information reading device is provided which comprises a housing, a grip arranged on the housing, an image capture device, an illuminator, an illumination controller, an imaging controller, an image processor, and a reader. The image capture device captures an image including a symbol. The illuminator includes lighting devices around the periphery of an optical axis of the image capture device. The illumination controller controls the illuminator to selectively successively light up the lighting devices based on a predetermined order whereby irradiating a symbol with light in different illumination directions with respect to the optical axis. The imaging controller controls the image capture device to capture images of the symbol every when the lighting devices are selectively successively lighted up. The image processor creates an outline image of the symbol based on the captured images. The reader reads the symbol based on the created outline image.

A card reading apparatus includes an insertion slot into which a card is inserted, a card reader configured to read information from the card inserted into the insertion slot, and a guide portion extending from the insertion slot and formed of a conductive material that removes static electricity.

A removable card-enabled BPID Security Device integrates a removable card reader with a biometric authentication component to provide secured access to electronic systems. The device allows for an individual to insert a removable card into an aperture in the physical enclosure of the BPID Security Device, allowing the removable card and the BPID Security Device to electronically communicate with each other. The BPID Security Device is based on a custom application specific integrated circuit that incorporates removable card terminals, such that the BPID Security Device can communicate directly with an inserted removable card. In an alternative embodiment of the invention, the BPID Security Device is based on a commercial off-the-shelf microprocessor, and may communicate with a commercial off-the-shelf microprocessor removable card receiver using a serial, USB, or other type of communication protocol. The device allows for enrolling a user's credentials onto the BPID Security Device and for authenticating an individual using the BPID Security Device.

Disclosed is a semi-rigid enrolment case for a smart card, formed by folding and gluing an envelope-like cardboard blank of the dimensions of the card. The case includes an electrical circuit printed directly on the cardboard of an inner surface. The circuit includes contact studs connected to a power supply interface and arranged to connect electrical contacts of the card to the power supply interface when the card is inserted into the case. A biometric sensor of the card remains accessible to the user when it is out of the case for making the enrolment. Through-openings are made in the cardboard on either side of contact stud lines and allow forming independent flexible areas, providing better contact between the studs and the electrical contacts of the card.

A handheld optical information reading device is provided which comprises a housing, a grip arranged on the housing, an image capture device, an illuminator, an illumination controller, an imaging controller, an image processor, and a reader. The image capture device captures an image including a symbol. The illuminator includes lighting devices around the periphery of an optical axis of the image capture device. The illumination controller controls the illuminator to selectively successively light up the lighting devices based on a predetermined order whereby irradiating a symbol with light in different illumination directions with respect to the optical axis. The imaging controller controls the image capture device to capture images of the symbol every when the lighting devices are selectively successively lighted up. The image processor creates an outline image of the symbol based on the captured images. The reader reads the symbol based on the created outline image.

A foldable circuit board that includes OLED display technology is provided. Apparatus may include embedded card reading technology (e.g., EMV, magnetic stripe, QR-Reader Technology) into a foldable OLEO-based mobile device. The mobile device may fold, to create a channel for swiping a purchasing instrument. Such a device may provide portable card reading technology and an ability to seamlessly transmit the captured information to a remote server/network for authorization. Such devices may avoid use of an external plug-in device to capture payment instrument information. Also, such devices may revive use of magnetically encoded information which is typically less-expensive-to-manufacture and provides a faster swipe time to read the magnetically encoded information as compared to other technology such as EMV chips.

Disclosures of the present invention describe a card reader device, which consists of a card reader unit, a human-machine interface and a physical keyboard. The human-machine interface is configured to show a first virtual keyboard comprising a plurality of first virtual buttons for a visually unimpaired to input a password thereon. Besides, the physical keyboard comprises a plurality of physical buttons formed with an embossed braille thereon. According to particular design of the present invention, a plurality of the second virtual buttons are showed on the human-machine interface, such that the plurality of physical buttons correspond to the plurality of second virtual buttons, respectively. Consequently, a blind user or a visually impaired is facilitated so as to be capable of completing a password input of the card reader unit through the physical keyboard.

A portable free-standing vertical RF antenna structure for use in an UHF timing system comprises a base structure for supporting the vertical antenna structure on a substantially horizontal surface. At least a first antenna unit comprising a first planar RF antenna and at least a second antenna unit comprising a second planar RF antenna, the second antenna unit being located above the first antenna unit, are coupled to the base structure and form a vertical RF antenna structure. The first and second antenna unit is positioned such that the inclination angle between a main axis of the radiation field of the first RF antenna and the horizontal surface is selected between 10 and 50 degrees. The inclination angle between a main axis of the radiation field of the second RF antenna and the horizontal surface is selected between 20 and 20 degrees.

Disclosures of the present invention describe a card reader device, which consists of a card reader unit, a human machine unit and a physical keyboard. The human machine unit is configured to show a first virtual keyboard comprising a plurality of first virtual buttons for a normal user to input a password thereon. Besides, the physical keyboard comprises a plurality of physical buttons formed with an embossed braille thereon. According to particular design of the present invention, a plurality of the second virtual buttons are showed on the human machine unit, such that the plurality of physical buttons correspond to the plurality of second virtual buttons, respectively. Consequently, a blind user or a visually impaired user is facilitated so as to be capable of completing a password input of the card reader unit through the physical keyboard.

A removable card-enabled BPID Security Device integrates a removable card reader with a biometric authentication component to provide secured access to electronic systems. The device allows for an individual to insert a removable card into an aperture in the physical enclosure of the BPID Security Device, allowing the removable card and the BPID Security Device to electronically communicate with each other. The BPID Security Device is based on a custom application specific integrated circuit that incorporates removable card terminals, such that the BPID Security Device can communicate directly with an inserted removable card. In an alternative embodiment of the invention, the BPID Security Device is based on a commercial off-the-shelf microprocessor, and may communicate with a commercial off-the-shelf microprocessor removable card receiver using a serial, USB, or other type of communication protocol. The device allows for enrolling a user's credentials onto the BPID Security Device and for authenticating an individual using the BPID Security Device.