RFID VIAL TRACKING WITH RFID INLAY

Abstract

A RFID label for use on a lid of a container, and a method of using the RFID label. The RFID label comprises a substrate component, a RFID antenna formed on the substrate component, and a RFID chip for storing data coupled to the RFID antenna. The RFID label is positioned or configured on the lid so as to limit or avoid any interference between the RFID antenna and the RFID chip by any metal component of the container. The RFID label is particularly useful for containers that have small lids or metal components, such as vials, where conventional RFID usage is limited.

Claims

1. A RFID label for use with a container having a lid, the RFID label comprising: a substrate component; a RFID antenna formed on the substrate component; and a RFID chip coupled to the RFID antenna; and wherein the RFID label is attached to an external surface of the lid.

2. The RFID label of claim 1, wherein the RFID antenna comprises a conductor sheet and a slot formed into the conductor sheet.

3. The RFID label of claim 2, wherein the slot comprises a closed end and an open end.

4. The RFID label of claim 1, wherein the RFID antenna is a slotted-loop antenna.

5. The RFID label of claim 1, wherein the RFID antenna generates a top-side field.

6. The RFID label of claim 1, wherein the container is a vial.

7. The RFID label of claim 1, wherein the container is used to store medication, biological samples, liquids, or powders.

8. The RFID label of claim 1, wherein the RFID chip is in electrical communication with the conductor sheet.

9. The RFID label of claim 1, wherein the RFID chip functions as a digital memory.

10. The RFID label of claim 1, wherein the RFID chip is encoded with information relating to a content of the container.

11. The RFID label of claim 1, wherein the RFID antenna is located spaced apart from any metal component of the container.

12. The RFID label of claim 1, wherein the RFID antenna generates a read range of greater than one inch.

13. The RFID label of claim 1, wherein the RFID label further comprises a spacer element positioned between the RFID antenna and the lid.

14. A RFID label for use with a container having a metal component, the RFID label comprising: a substrate component; a RFID antenna formed on the substrate component; a RFID chip coupled to the RFID antenna; and a spacer element positioned between the RFID antenna and the metal component.

15. The RFID label of claim 14, wherein the RFID label is adhered to an external surface of a lid of the container.

16. The RFID label of claim 14, wherein the container is a vial.

17. The RFID label of claim 14, wherein the RFID antenna is a slotted-loop antenna.

18. The RFID label of claim 14, wherein the RFID antenna generates a top-side field.

19. The RFID label of claim 14, wherein the RFID antenna generates a read range of greater than one inch.

20. A method of using a RFID in conjunction with a container having a lid, the method comprising the steps of: providing a RFID label comprising a substrate component, a RFID antenna connected to the substrate component, and a RFID chip coupled to the RFID antenna; securing the RFID label on an external surface of the lid; and achieving a read range of greater than one inch with a RFID reader.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 illustrates a perspective view of a RFID label and a container in accordance with the disclosed architecture.

[0014] FIG. 2 illustrates an overhead view of a first side of the RFID label in accordance with the disclosed architecture.

[0015] FIG. 3 illustrates an overhead view of a second side of the RFID label in accordance with the disclosed architecture.

[0016] FIG. 4 illustrates a perspective view of a RFID label in accordance with the disclosed architecture.

DETAILED DESCRIPTION

[0017] The innovation is now described with reference to the drawings, wherein like reference numerals are used to refer to like elements throughout. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding thereof. It may be evident, however, that the innovation can be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate a description thereof.

[0018] The present invention discloses a RFID label or tag attachable to a lid of a container. The invention is particularly useful for vials used in the medical and pharmaceutical industries and for other small containers, but is not limited to any particular purpose. Containers, such as used in the medical or pharmaceutical industry, typically have caps or lids with compact sizes and circular configurations that are not well suited to traditional RFID tagging techniques for a variety of reasons. The present invention, in one embodiment, uses a slotted antenna that can be conformed efficiently for these configurations and compact sizes. By orienting the RFID tag on a top, outer surface, or any side of the vial lid, the antenna of the RFID tag provides a field, such as a top side field, that increases the read range of the RFID label. Additionally, the path of the antenna, such as a slotted antenna, and location of the RFID chip may be chosen to avoid any metal components on the vial, mitigating signal interference caused by proximity of the antenna or chip to the metal. In one embodiment the RFID label or tag may be attachable to the inside of a lid container i.e. the side of the container not exposed to the outer environment. Thereby protecting the RFID label or tag from a potentially harmful environment.

[0019] Referring initially to the drawings, FIGS. 1-4 illustrate a RFID label for use with a container having a lid, and a method of using the same in accordance with the present invention. The present invention, as illustrated, contemplates the utilization of a singular RFID label, but it not limited to such, and a plurality of RFID labels may be utilized. As illustrated in FIG. 1, a RFID label 100 for use with a container 10 having at least one lid 20 is disclosed. The RFID label 100 is attachable or adherable to a surface such as an external surface 22 of the lid 20. In one embodiment a releasable or permanent or semi-permanent adhesive is utilized to attached the RFID label 100 to a surface of the lid 20. As such, the RFID label 100 will not cover or obscure any container markings, content labels, or the container contents themselves. The RFID label 100 is configured to be wirelessly interrogated by a RFID reader 30 or other such transceiver device, and to respond to such interrogation with a responsive radio signal. In one embodiment, the RFID label 100 may be detachable from an outside or external surface 22 of the lid 20. The RFID label 100 may further be reattached to an outside or external surface 22 of the lid 20 or another external layer container. This would be beneficial in the event the original surface 22 of the lid 20 becomes damaged but retention of RFID label 100 is desired.

[0020] The container 10 may comprise a vial that is generally tubular or bottle-like with a neck in configuration. However, the container 10 may be any vessel that uses a lid or cap having a relatively small size, such as, but not limited to medical vials, phials, ampules, jars, specimen bottles, or any other container utilizing a small cap or lid. These containers may also be used to contain biological samples, liquids, powders, chemicals, drugs, and the like. Vials are often used in healthcare applications to hold medications where tracking information such as, but not limited to dosage, concentration, expiration date, and lot number are particularly important.

[0021] In one embodiment, the container 10 is a vial comprising a body 12, a septum (not shown), a septum holder 16, and a lid 20. The body 12 is typically constructed from glass or plastic, and is open at the top. The septum is a cork, rubber, or plastic stopper used to plug the top of the body 12, and is held in place by the septum holder 16. The septum holder 16 is often a metal cap with a center hole that is crimped in place around the body 12. To access the contents of the vial, a needle is used to penetrate the septum material through the center hole. The lid 20 is typically a plastic or nonmetallic cap or cover that is placed over the septum and septum holder 16 to protect the exposed septum. The lid 20 may snap over the septum holder 16 and may be held in place with a connection component 24. The connection component 24 may be a metal rivet or any other kind of fastening component that could hold the lid 20 in place.

[0022] As illustrated in FIGS. 2 and 3, the RFID label 100 comprises a substrate component 102, a RFID antenna 108, and a RFID chip 118. In one embodiment, a strap may be used to connect the RFID chip 118 to the RFID antenna 108. The substrate component 102 can operate as a structural component that provides strength and structure to the RFID label 100. The substrate component 102 comprises an external surface 104 and an inside surface 106, and may be manufactured from a non-conductive material such as polyethylene terephthalate, polyvinyl chloride, polystyrene, polyethylene, nylons, or any other suitable material.

[0023] The RFID antenna 108 is formed on or attached to the substrate component 102 on the surface 106 which in this particular embodiment can be considered an interior or inside surface. The RFID antenna 108 comprises a conductor sheet 110 and a slot 112. The slot 112 is formed, cut via mechanical, rotary, or laser, or etched into the conductor sheet 110. The conductor sheet 110 is generally shaped geometrically similarly to the lid 20 of the container 10. The conductor sheet 110 is typically manufactured from a thin electrically conductive material such as, but not limited to an aluminum or copper foil. The slot 112 comprises a closed end 114 and an open end 116 and is fully contained within the conductor sheet 110, except that the open end 116 is neither closed by nor short circuited with respect to the conductor sheet 110.

[0024] The RFID antenna 108 may be a slotted-loop or hybrid loop-slot type antenna generally referred to as a sloop antenna. This type of antenna is advantageous as it is significantly more efficient than a dipole antenna in an equally compact size. The sloop antenna also alleviates the problem of a null signal that would be generated by a coil type antenna, as the slotted-loop antenna generates a top-side field. Additionally, a single loop antenna would typically be limited to a read range of less than one inch. The sloop antenna design is advantageous in a near field environment as the RFID antenna 108 can generate an acceptable read range for the RFID reader 30 of one inch or more when the RFID label 100 is placed on the exterior or top of the lid 20. An additional benefit to placing the RFID label 100 on the top side of the lid 20 is that the lid 20 acts as an insulator to limit any interference that would be caused by a metal septum holder 16.

[0025] The RFID chip 118 is a wireless communication device and is coupled to the RFID antenna 108. The RFID chip 118 is in electrical communication with the conductor sheet 110. The RFID chip 118 functions as a digital memory that may be encoded with information related to the container 10 and its contents, such as container product information. Furthermore, the chip 118 may be associated with an external database operated by a user on a computer, laptop, mobile device or the like. Where the database may hold information for encoding the RFID chip.

[0026] If the lid 20 is held in place with a metal rivet style connection component 24, the RFID antenna 108 may be designed with a slot path that avoids proximity to the rivet. This slot path design situates the RFID chip 118 and its strap area away from and not directly above the rivet which mitigates interference from the metal. Therefore, the sloop antenna design permits the RFID antenna 108 to be located non-adjacent to any metal component that the container 10 may have, thereby reducing the likelihood of interference.

[0027] FIG. 4 illustrates an embodiment for an RFID label 200 usable with a container 10 having a metal component such as a metal cap 16 or a metal rivet 24 for holding a lid 20 of the container 10 in place. The RFID label 200 comprises a substrate component 202, a RFID antenna 208, a RFID chip 218, and a spacer element 220. As described in previous embodiments, the RFID antenna 208 is formed on or attached to the substrate component 202 and the RFID chip 218 is coupled to the RFID antenna 208. The RFID label 200 is adhered or glued to an external surface 22 of the lid 20 with the spacer element 220 positioned in between. The RFID antenna 208 may comprise a slotted-loop antenna 212 that can generate a top-side field with an acceptable read range of greater than one inch.

[0028] The spacer element 220 may be manufactured from a non-conductive material similar to the substrate component 202 and is positional between the RFID antenna 208 and the external surface 22 of the lid 20. As such, the spacer element 220 increases the distance between the RFID antenna 208 and any metal parts of the container 10 providing a nonconductive buffer to further decrease interference and increase the read range for vials or containers 10 with metal components. The spacer element 220 may also be a non-conductive material different than the substrate component 202. For example, the spacer element 220 may be a plastic, a recyclable material or a combination of recyclable materials. Furthermore, the spacer element 220 may be of a material comprising thermochromic materials. This would be beneficial in the event a user would like an external/visual indication of the environmental condition the RFID label 100 is in. The thermochromic material may be customly configured to activate at various temperatures.

[0029] A method of using RFID in conjunction with a container 10 is also disclosed. The container 10 may be a vial, such as those commonly used in the healthcare industry. The method comprises providing a RFID label 100 comprising a substrate component 102, a RFID antenna 108, and a RFID chip 118. The RFID label 100 is attachable to a lid 20 of the container 10. The RFID antenna 108 may be a slotted-loop antenna that is formed on, connected to, or attached to the substrate component 102. The RFID chip 118 is in electronic communication with the RFID antenna 108. The method continues by securing the RFID label 100 to an external surface 22 or outside of the lid 20 with glue, adhesive, chemical or mechanical bonding, or the like. The method continues by achieving an acceptable read range of the RFID label 100 by a RFID reader 30 of greater than one inch.

[0030] What has been described above includes examples of the claimed subject matter. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the claimed subject matter, but one of ordinary skill in the art may recognize that many further combinations and permutations of the claimed subject matter are possible. Accordingly, the claimed subject matter is intended to embrace all such alterations, modifications and variations that fall within the spirit and scope of the appended claims. Furthermore, to the extent that the term includes is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term comprising as comprising is interpreted when employed as a transitional word in a claim.