WO2008037737A1 - System consisting of rfid tags applied to objects, associated evaluation appliance, and applications that can be carried out using the same - Google Patents

Abstract

The use of transponders in the form of RFID tags is increasing. RFID tags are applied to objects, especially products to be sold, and require an evaluation appliance (called a reader) in order to collect information by means of radio or high frequency. According to the invention, the individual RFID tag (10) comprises a technological component provided with sensory elements (1, 2, 3), said technological component influencing the response behaviour of the RFID tag (10).

Description

description

System of RFID tags attached to objects and associated evaluation device, as well as applications that can be implemented therewith

The invention relates to a system of objects, in particular sales goods or the like, attached RFID tags and an associated evaluation device. In addition, the invention also relates to applications realizable with this system, i. specific applications of the system.

For merchandise management and logistics systems, it has been known for some time to replace the previously used barcodes with so-called RFID tags. Essentially, RFID tags of this type consist of stored information and an antenna which can be interrogated from the outside and which can be interrogated by an evaluation device called a reader. They are applied directly to items, such as sales items, which they accompany for use by the end user.

RFID tags are designed for a long service life. When queried by the radio field of the reader, they give the impressed them response signal and thus generate a data stream.

In certain applications, complete deactivation or activation of the response function is desired. Reasons for this may be that an object changes its properties and thus should no longer be used as intended. Examples include the shelf life of food, aging reactions in chemical products for z. As building materials, paints, adhesives or the like. Another reason may be that a day should have only a limited validity, because z. B. a time-dependent usage fee has been agreed and a certain reading frequency of the day is exceeded ü. For privacy reasons, a targeted deactivation of an RFID tag is often desired. This also serves to gain acceptance for the widespread introduction of RFID technology.

In practical merchandise management, the durability of an article has been made visible to the consumer by imprinting on the packaging. With an RFID tag, this is realized in a modified form as a stored date. Checks for durability or validity are made by reading the radio signal.

RFID tags are characterized in particular by a pulk readability. As a result, the read rate is advantageously already significantly reduced. Usually, the stored date must be tested against a reference time. This can be done by transferring it to a central data inspection instance or by an intelligent reader ("reader") with its own decision-making capability, but the individual RFID tag or the object provided with it must be replaced by additional measures, eg by a single read operation be identified by sorting out the tag via the tag identification.

On this basis, it is an object of the invention to provide an improved system using RFID tags or transponders and thus specify possible system-specific applications.

The object is achieved by the features of claim 1. Associated applications result from the independent claims 18 et seq. Further developments of the system and also of the respective applications are characterized in the subclaims.

In the not previously published German patent application of the applicant, AZ 10 2006 04 723.7, with older seniority and the term "optical element for a light-emitting diode, LED, LED arrangement and method for producing an LED array "are already described an RFID transponder or RFID tag that can be positioned in a radio field of a reading device and in an environment with at least one environmental condition, in particular the transponder At least one, at least one ambient condition detecting, electronic sensor element which influences the response behavior of the transponder relative to the reading device., In particular, an AND operation when reading a single RFID tag and thus a better specificity when reading larger amounts of data to be achieved.

In contrast, in the invention, the individual RFID tag itself now has a technological component that influences its response behavior. It is thus created intelligence throughout the system.

The response of the RFID tag is realized by at least one sensor element, which in the transponder and / or in the

Radio field is placed. The sensor element can preferably independently have a time-dependent behavior that leads to deactivation or activation of the RFID tag or it is in contact with the object or good to be monitored and is changed by measuring the physical and / or chemical properties of the goods of the tag used. If such a change has occurred, it can additionally be represented by a display element. Thus, it is also possible that a Sensing- and / or display function is independent of the RFID tag feasible.

Advantageously, a targeted deactivation of a tag can now take place. This can in particular be time-based or be represented in the targeted change of the read signal. With an intrinsic, sensory deactivation, the read rates are reduced to the desired readings of the active tags. In the sensory Activation of tags can further reduce the number of reads for certain applications.

Further details and advantages of the invention will become apparent from the following description of exemplary embodiments with reference to the drawing in conjunction with the claims.

Show it

Figure 1 shows a system of a transponder with sensory

Elements, wherein the transponder can be coupled to at least one further sensory element and can have an associated reading field, and FIG. 2 shows an example of the application in so-called "smart packaging".

FIG. 1 shows a transponder 10 which contains a first sensory element 1 and optionally a second sensory element 2. The sensory element 1 forms a chip with outputs, which are interconnected via electronic components 4 to 7 and in particular deliver a binary output signal.

Optionally, in the radio field, ie outside the transponder 10, a third sensory element 3 is present, which can be interrogated by the radio transmitter.

The transponder 10, also called RFID tag, with the sensor element 1 is advantageously directly connected to an object, i. the good itself or its packaging, connected and so registered the changes of the monitored goods. It is also possible to integrate certain tag / sensor combinations directly into a package. In this case one speaks also of the so-called "Smart Packaging".

Advantageously, such a realization of "smart packaging" misleads the consumer by converting Labeling excluded or at least hampered by intrinsic sensing. Assuming a suitable infrastructure, as described for example in another unpublished German patent application of the applicant, AZ 10 2006 040261.8 entitled "method for controlling goods, in particular goods and / or documents, and associated system", can now be Assign packaging date forgery-proof.

The sensory change may also be used to modify a date stored in the day using the sensor element 2. In this case, the RFID tag 10 keeps its response function and only the date is modified by changing memory cells directly or with advanced tags by varying the time response window.

Another embodiment is not to change the stored signal, but to directly deactivate the RF part of the transmitter. This can be z. B. with a chemically manipulated antenna material, in particular the sensor element 3, which responds to the conditions of use, take place.

In FIG. 2, an article 11 is surrounded by a packaging 12 that makes use of the RFID tag or transponder 10 according to FIG. 1, wherein a display 8, for example as an electrochromic display, is present. The transponder 10 may include one or more of the sensory elements 1, 2, 3 of FIG. 1 in combination. There is a closure 13 is provided, at the opening of a depot 14, a means 15 enters the package 12 and a startup process is initiated. This uniquely identifies the packaged item 11 and monitors its fate.

With the described in Figures 1 and 2, in a specific way trained transponders or RFID tags leave now realize new applications. These are for example:

Example 1: Lactic acid fermentation The lactic acid fermentation is determined by means of a chemosensor. Thus, the shelf life in foods and in particular beverages, such as beer, cola, canned drinks and / or dairy products, can be detected and queried.

Example 2: Temperature-Dependent Shelf Life A number of materials have a temperature-dependent shelf life. This applies, for example, to chemicals on the one hand, but also to foods, in particular frozen foods. The actual storage time can thus be queried directly.

Example 3: Time dependence of chemical reactions

In many cases, it is desirable to detect chemical reactions from a defined point in time. By means of the described transponder, it is now possible to initiate a chemical reaction with the creation of the tag and subsequently to determine its validity via the time recording.

Example 4: Reactive system

The read-out signal of the reader supplies a targeted amount of energy to an RFID tag located on the reactive system during each read process. This energy is now used to start or modify a chemical reaction and can be tracked with the RFID tag.

Example 5: Time-Dependent Discharging of Batteries The time-dependent process of discharging batteries or accumulators can be detected by a suitable measurement and RFID query. Example 6: Time dependence of operations

In physical and / or chemical processes, certain processes may be dependent on physical or chemical quantities of the articles themselves. For example, it is possible to achieve a determinable time dependence of a process by utilizing capillary action or diffusion barriers.

Example 7: Dielectric Properties of Systems Through non-contact detection of a change over the

Evaluation of dielectric properties, the coupling or the quality of the antenna via a dielectric can be done. In this case, the properties of the dielectric can be influenced by the parameter to be monitored so that a significant change in the signal transmission takes place.

Example 8: Detection of Optical Properties

With RFID tags, a detection of light, especially in the infrared, in the visible or in the ultraviolet (UV) range, take place at visually inaccessible places. The optical properties of the goods can represent a measure of its quality. Thus, an optical sensor coupled to the material can serve as a sensor element. As optical sensors, for example, photoresistors or photodiodes are suitable.

In addition, a change in the optical properties caused in an additional material by the property of the material to be monitored can be read out. This is especially true for the known discoloration of a material by changing the pH. The changes are read out via the RFID tag.

Example 9: Mechanical loads on objects Mechanical loads on a good, for example due to falling over or falling down, can influence the function of a RFID tag attached to the goods via a mechanical predetermined breaking point. Thus, it can be monitored whether during of transport od. Like. the specifications for mechanical loads were complied with. This feature can be extended by using an acceleration sensor.

Example 10: Moisture on objects

Undesirable effects of moisture, for example, during the transport of a good, can lead to a significant impairment or even the destruction of the goods. Since moisture ingress is usually localized, a central measurement via a leak detector is generally of limited use. A local measurement is possible by combining an RFID tag with a moisture-sensitive mechanism. It can be z. B. a short-circuit path are activated when exposed to moisture and thus the RFID tag are deactivated.

The applications described above have in common that RFID tags are used with specific technological properties. This opens up new application possibilities for the practical use of RFID tags.

Claims

claims 1. System of objects, in particular sales goods od. Like. , attached RFID tags and associated evaluation device (reader), characterized in that the individual RFID tag (10) has a technological component that influences the response behavior of the RFID tag (10). 2. System according to claim 1, characterized in that the technological component of the RFID tag (10) as additional Sensor element (1, 2, 3) is realized. 3. System according to claim 2, characterized in that the sensor element (1, 2, 3) has an independent, time-dependent behavior, which leads to the deactivation or activation of the RFID tag (10). 4. System according to claim 3, characterized in that the time-dependent behavior of the sensor element (1, 2, 3) is realized by a permanent measurement. 5. System according to claim 3, characterized in that the sensor element (1, 2, 3) is in contact with the object to be monitored (11) and that with the sensor element (1, 2, 3) carried out measurement of the physical and / or chemical properties of the object to be monitored (11) for influencing the RFID tag (10) is used. 6. System according to claim 5, characterized in that by influencing the RFID tags (10) a change in Meaning of activation / deactivation of the RFID tag (10). 7. System according to claim 6, characterized in that a sensory change for the direct and immediate modification fication of a date stored on the RFID tag (10) can be used. 8. System according to any one of the preceding claims, characterized in that a display device (8) is present. 9. System according to claim 5, characterized in that the display device (8) has a sensing and / or display function. 10. System according to any one of the preceding claims, characterized in that the RFID tag (10) with sensor element (1, 2, 3) directly to the article (11) or its packaging (12) is connected. 11. System according to one of claims 1 to 6, characterized in that RFID tag / sensor combinations (1, 2, 3, 10) are integrated directly into a package (12) of an article (11) / goods (so-called smart packaging). 12. System according to any one of the preceding claims, characterized in that a Umetikettieren by the intrinsic sensing by registered RFID tags (10) is detectable. 13. System according to any one of the preceding claims, characterized in that the packaging date, or minimum or Maximum durability date of the item (11) / good tamper-proof by registered RFID tags (10) is assignable. 14. System according to any one of the preceding claims, characterized in that the RFID tags (10) are registered in a neutral instance. 15. System according to one of the preceding claims, characterized in that the change of a date in memory cells or variations in the temporal response window of the RFID tag (10) are displayed. 16. System according to any one of the preceding claims, wherein the timing of the sensor function by opening the package (12) or a closure (13) is triggered. 17. System according to any one of the preceding claims, wherein when opening the package (12) or a closure (13) additives (14) from a depot (15) are added, which change the durability of the article (11). 18. Use of a system according to claim 1 or one of Claims 2 to 17 for monitoring the shelf life in food, in particular drinks - such as beer, cola, soft drinks, carbonated soft drinks, canned drinks, dairy od. Like. Substances z. For example, start fermentation processes after opening or air contact. B. with milk or juices. 19. Use according to claim 18 in substances in which z. B. after opening or air contact start fermentation processes, eg. B. with milk or juices. 20. Use of a system according to claim 1 or one of claims 2 to 17 for checking the temperature dependence of the storage conditions of chemicals, frozen food od. Like. 21. Use of a system according to claim 1 or one of Claims 2 to 17 in the monitoring of chemical reactions, eg. As fermentation processes in juices, drinks, dairy products, food, esp. Meat. 22. Use of a system according to claim 1 or one of claims 2 to 17 to the effect that in the creation / activation of an RFID tag (10), a chemical reaction is triggered, which determines the validity of the day by their temporal course. 23. Use of a system according to claim 1 or one of claims 2 to 17 for monitoring the time dependence of Reactions, for example when discharging batteries as a function of a measuring process. 24. Use of a system according to claim 1 or one of claims 2 to 17 in the supply of energy for the purpose of modifying a chemical reaction, wherein the read-out signal supplies the day with each read a targeted amount of energy that is used to modify the chemical reaction. 25. Use of a system according to claim 1 or one of claims 2 to 17 for the purpose of influencing time dependencies of physico-chemical transport processes, for example by utilizing capillary action and / or diffusion barriers, or other physical / chemical gradient. 26. Use of a system according to claim 1 or one of claims 2 to 17 in non-contact detection of a process change by evaluation of dielectric properties. 27. Use according to claim 26, characterized in that the coupling or the quality of an antenna is detected by means of a dielectric, the properties being influenced by the parameter to be monitored such that a significant change in the signal transmission takes place. 28. Use of a system according to claim 1 or one of claims 2 to 17 in a detection of optical properties, in particular in the discrimination of infrared / visible light and / or UV light. 29. Use according to claim 28, characterized by the detection of the optical properties of the material itself, wherein a change in the optical properties of a sensor substance causes a change of physical / chemical properties. 30. Use according to claim 29, characterized in that a discoloration by an indicator substance and / or a change in the pH takes place. 31. Use of a system according to claim 1 or one of claims 2 to 17 in processes which change the technical characteristics of the system. 32. Use according to claim 31, characterized in that a mechanical predetermined breaking point, for. B. an acceleration sensor element is used. 33. Use according to claim 32, characterized in that a Kurzschlusstrecke is activated. 34. Use according to claim 32, characterized in that a moisture measurement is carried out. 35. Use of a system according to claim 1 or one of claims 2 to 17, wherein the timing of the sensor function by opening the package (12) or a closure (13) is triggered. 36. Use of a system according to claim 35, wherein when opening the package (12) or a closure (13) additives (15) from a depot (14) are added, which change the durability of the article (11). 37. Use of a system according to one of claims 35 or 36, wherein the residual durability after opening a closure (13), the package (12) or admixture of an additive (15) from a depot (14) is measured when opening.