Disclosed is a smart device housing configured to fixably attach to a beverage vessel comprising a domed surface at a distal end, the domed surface adjacent a wall terminating at a lip, the smart device housing comprising an exterior configured as a transformable shape enabling a locking fit between the lip and the domed surface of the beverage vessel. Also disclosed is a system wherein a smart device comprises at least one proximity, image or distance sensor having a beam of detection with a path, the sensor located and directed such the beam of detection covers a location where a coupler can be attached to the beverage vessel, the smart device configured to determine whether the coupler is attached to the beverage vessel by measuring whether the path is obstructed by the coupler. Also disclosed is a method of determining the fill status of a beverage container.

Disclosed is a smart device housing configured to fixably attach to a beverage vessel having a domed surface at a distal end, the domed surface adjacent a wall terminating at a lip, the smart device housing having an exterior configured as a transformable shape enabling a locking fit between the lip and the domed surface of the beverage vessel. Also disclosed is a system wherein a smart device has at least one proximity, image or distance sensor having a beam of detection with a path, the sensor located and directed such the beam of detection covers a location where a coupler can be attached to the beverage vessel, the smart device configured to determine whether the coupler is attached to the beverage vessel by measuring whether the path is obstructed by the coupler. Also disclosed is a method of determining the fill status of a beverage container.

A smart device for a beverage vessel having a domed surface adjacent a wall terminating at a lip, the smart device having a housing, and at least one expanding member, the at least one expanding member being one of integral to the housing, attached to the housing, or separate from the housing. The at least one expanding member may be configured to be manipulated by way of a force. The smart device housing and the expanding member being configured to fixably attach to the beverage vessel enabling a secure fit between the lip and the domed surface of the beverage vessel. The at least one expanding member may also be a lockable expanding member lockable into a deployed state. The at least one expanding member may also enable a dimension change from an initial vertical dimension to a greater locking fit dimension to provide a secure fit.

The present invention relates to a document comprising at least one RFID transponder, the RFID transponder comprising an antenna (3, 23) and an integrated circuit (4, 24) electrically coupled to the antenna (3, 23). The document comprises at least one detachable detuning element (7, 27) electrically coupled to the antenna (3, 23). The invention also relates to a method for manufacturing a document comprising an RFID transponder.

The disclosed embodiments generally relate to transaction card constructions, and particularly, to a two-piece transaction card construction. Disclosed embodiments include a generally planar first card component including a first surface and a generally planar second card component including a second surface wherein the first card component is separate from the second card component. In disclosed embodiments, for example, the generally planar first card component and the generally planar second card component may be configured such that one forms a cavity and the other forms an inlay component configured to be seated within the cavity. In other embodiments the generally planar first card component and the generally planar second card component may be configured such that one forms a container and the other forms a lid configured to close the container.

A transaction card is disclosed. The transaction card may include a first card component of non-plastic card material having a thickness of no more than about 0.3 mm, a second card component of composite fiber material having a thickness of no more than about 0.3 mm, and an adhesive for affixing the first layer and second layer together. The non-plastic card material may be selected from a group including wood, bamboo, steel, copper, aluminum, silver, gold, platinum, granite, marble, and slate and the composite fiber material may include at least one of a glass fiber composite, a carbon fiber composite, or a natural fiber composite.

Disclosed is a smart device housing configured to fixably attach to a beverage vessel comprising a domed surface at a distal end, the domed surface adjacent a wall terminating at a lip, the smart device housing comprising an exterior configured as a transformable shape enabling a locking fit between the lip and the domed surface of the beverage vessel. Also disclosed is a system wherein a smart device comprises at least one proximity, image or distance sensor having a beam of detection with a path, the sensor located and directed such the beam of detection covers a location where a coupler can be attached to the beverage vessel, the smart device configured to determine whether the coupler is attached to the beverage vessel by measuring whether the path is obstructed by the coupler. Also disclosed is a method of determining the fill status of a beverage container.

The disclosed embodiments generally relate to transaction card constructions, and particularly, to a two-piece transaction card construction. Disclosed embodiments include a generally planar first card component including a first surface and a generally planar second card component including a second surface wherein the first card component is separate from the second card component. In disclosed embodiments, for example, the generally planar first card component and the generally planar second card component may be configured such that one forms a cavity and the other forms an inlay component configured to be seated within the cavity. In other embodiments the generally planar first card component and the generally planar second card component may be configured such that one forms a container and the other forms a lid configured to close the container.

Devices and methods are disclosed related to Radio Frequency Identification (RFID) tags and RFID Integrated Circuit (IC). In some embodiments, the RFID tags are configured to facilitate the changing of the RFID tag values read without having to reprogram the data stored in the memory of the Integrated Circuits (“ICs”) associated with the RFID tags. In one embodiment, a RFID tag is provided with multiple ICs and the configuration of antennas associated with the ICs causes interference so that only certain ICs are active at a given time. In another embodiment, a RFID tag having multiple substrates and ICs, and a blocking material, is configured to effectively inactivate some of the ICs until the blocking material is removed. In some embodiments, couplings external to the RFID ICs are provided to change the RFID tag value read when the couplings are uncoupled. In one embodiment, a method of managing tags with multiples ICs is disclosed.

An accessory for a tag device and a RFID tagging device using the accessory. The accessory includes a tag holder defining with a slot arranged to receive the tag device and to removably secure the tag device in a predetermined position; and an antenna provided on the tag holder, wherein the antenna has a radiator arranged to couple to a feeder of the tag device when the tag device is positioned in the predetermined position within the slot.