n/a
The present invention relates to electronic article surveillance (“EAS”) systems and more particularly to an adoptive security tag for EAS and non-EAS devices.
Electronic article surveillance (“EAS”) systems are detection systems that allow the identification of a marker or tag within a given detection region. EAS systems have many uses, but most often they are used as security systems for preventing shoplifting in stores or removal of property in office buildings. EAS systems come in many different forms and make use of a number of different technologies.
A typical EAS system includes an electronic detection unit, tags and/or markers, and a detacher or deactivator. The detection units can, for example, be formed as pedestal units, buried under floors, mounted on walls, or hung from ceilings. The detection units are usually placed in high traffic areas, such as entrances and exits of stores or office buildings. The tags and/or markers have special characteristics and are specifically designed to be affixed to or embedded in merchandise or other objects sought to be protected. When an active tag passes through a tag detection zone, the EAS system sounds an alarm, a light is activated and/or some other suitable alert devices are activated to indicate the removal of the tag from the prescribed area. Another way to protect the asset is to lock the device in a base unit until authorized personnel can remove it. This is cumbersome and inefficient.
Capital assets used in radio frequency identification (“RFID”) and electronic article surveillance (“EAS”) systems such as mobile barcode scanners, RFID readers, EAS devices and other inventory and security devices often need to be protected from theft. One typical way to prevent theft of these devices is to tether the mobile device to a fixed object or surface such as a counter top or under-counter scanner, deactivator or pedestal unit. Such tethering of devices is a poor way to protect these devices because it greatly limits the mobility of the devices and makes operation difficult and frustrating.
One way to protect these devices without tethering them is to affix a non-deactivatible EAS hard tag to the device being protected (preferably in a concealed or internal location), so that if someone tries to leave the premises with the device, EAS detection units will alarm. One remaining problem is that sometimes the device being protected is itself an EAS device, in which case the EAS hard tag would not work as it would be detected by the EAS device itself. Another remaining problem is that sometimes the device is required to operate in or around other EAS security units, e.g., pedestals, and their corresponding detection/deactivation and/or interrogation zones. This usage proximate other EAS devices can trigger alarms because it will be detected by the other EAS devices.
Therefore, what is needed is an adaptive security tag and system for protecting capital assets from theft that can operate in EAS detection zones without causing false alarm, yet be detected by EAS exit systems.
The present invention advantageously provides a method, adaptive security device and EAS sensor for protecting EAS and non-EAS capital assets from theft. The adaptive security device allows EAS security tag modules to be selectively activated and deactivated by a control signal.
In one embodiment of the present invention, an adaptive security device includes a tag module and a processor module containing a tag disable electronic circuit and a controller. The controller provides at least one control command to the tag disable circuit for selectively enabling and disabling the tag module. The tag module may be an electronic article surveillance (“EAS”) tag module.
In another embodiment, an adaptive EAS sensor for enabling and disabling an EAS tag includes a sensing element, a tag disable electronic circuit, and a controller adapted to receive signals from the sensing element. The controller provides at least one tag control command to the tag disable circuit based upon signals received from the sensing element. The tag disable electronic circuit, upon receiving the signal, is operable to selectively enable or disable the EAS tag based on the at least one tag control command.
In another embodiment, a method for protecting assets from theft includes receiving at least one tag control command that indicates the activation state of an adaptive security device and selectively enabling and disabling the adaptive security device based on the received tag control command.
A more complete understanding of the present invention, and the attendant advantages and features thereof, will be more readily understood by reference to the following detailed description when considered in conjunction with the accompanying drawings, wherein like designations refer to like elements, and wherein:
Referring now to the drawing figures in which like reference designators refer to like elements, there is shown in
The processor module 102 also includes a tag disable electronic circuit 108. The tag disable electronic circuit 108 receives a transmit control signal, e.g., receive off (“RXOFF”), from the controller 106. In this embodiment, and for illustrative purposes only, when the RXOFF signal is a logical high, the tag disable electronic circuit 108 does not generate a disable signal and the analog module 104 remains active or enabled. On the other hand, when the RXOFF signal is a logical low, the tag disable electronic circuit 108 generates a disable signal that causes the analog module 104 to be disabled. The transmit control signal RXOFF is one example of a control command issued by controller 106. Other examples of potential disable events include but are not limited to proximity of the protected device to other EAS devices or systems such as an EAS tag detector or a counter top deactivator.
The processor module 102 can optionally include a sensor 110, transmit/receive circuitry 112 and a power supply 114. The optional sensor 110 can be any of various sensor devices including but not limited to proximity sensors that can detect or measure the proximity of the device 100 to an EAS unit such as, for example, a pedestal located at the exit of a commercial store. The optional sensor 110 can be used in addition to any sensor functionality supplied by the tag analog module 104. For example, as the tag analog module 104 approaches a detection or interrogation zone created by an EAS pedestal located at the exit of a store, the tag analog module 104 can “sense” the detection zone signals and then report this information to the processor module 102 for appropriate processing. In this embodiment, the processor module 102 can be a portion of any standard processing circuit board that can be inserted or integrated into a portable device for use with EAS systems and non-EAS systems.
Although the following discussion of the adaptive security device 100 is with reference to mobile EAS devices such as EAS tag deactivators, the invention applies equally to non-EAS devices, such as barcode scanners and RFID readers, or any other equipment that is used near or within an EAS detection zone and would cause false alarms.
The tag disable circuit 108 can further include various resistors, e.g., R1, R2, R3 and R4, and various capacitors, e.g., C1, C2, to filter and condition the current signals and provide any necessary voltage drops for the operation of tag disable circuit 108. For example, R1 provides DC biasing for Q1, and R2, R3 and R4 provide DC biasing for Q3. C1 and C2 provide AC ground at the power source, i.e. +3.3V and at the positive side of the output signal. A tag disable control signal, e.g., RXOFFB, controls the “opening” and “closing” of the low side switch Q1 and a high side switch Q2 of the tag disable circuit 108.
The exemplary circuit of
The op-amp U1 operates using negative feedback from the analog tag module 104, connected to the negative input (pin 4). R5, in combination with the impedance of the analog tag module 104, determines the actual closed-loop gain of the op-amp U1. In this embodiment, the op-amp U1 can output a DC current waveform, e.g., 300 mAT, to drive the inductor 210 (
The present invention thus provides an adaptive security device 10 that includes a tag disable circuit 108 and, optionally, a sensor 110, such that an EAS tag 104 can be enabled and disabled at the appropriate time. For example, in one embodiment, the above can be achieved by wrapping small gauge wire (e.g., 30 AWG) around the longitudinal axis of an EAS tag 104 and running a current through the wire such that the product of number of turns and the current is greater than or equal to 300 milliamp turns. The bias on tag 104 can thus be changed with a voltage-controlled current source (see
In an alternative embodiment, the small gauge wire may be wrapped around a supporting device, such as a bobbin, which may be fashioned such that each end of the wire terminates at a connector or at printed circuit board mounting posts for easy assembly. The bobbin may preferably be formed from a non-conductive material such as plastic.
In another alternative embodiment, an external bias strip or wire can be wound around a non-deactivatible tag body to permanently degauss the tag with a unipolarity pulse of sufficient magnitude, e.g., >100 gauss. The non-deactivatible tag could be reactivated by applying a bi-polar (AC) pulse of sufficient magnitude, e.g., >100 gauss.
In each embodiment, the adaptive security tag 100 is protected from power-loss by defaulting to the enabled state during a power loss. The present invention advantageously provides and defines an adaptive security device and system for protecting capital assets from theft that can operate in EAS detection zones without causing false alarm. The present invention further advantageously provides and defines a tag disable electronic circuit that disable the adaptive security device when a protect capital asset is used near or within an EAS detection zone.
It will be appreciated by persons skilled in the art that the present invention is not limited to what has been particularly shown and described herein above. In addition, unless mention was made above to the contrary, it should be noted that all of the accompanying drawings are not to scale. A variety of modifications and variations are possible in light of the above teachings without departing from the scope and spirit of the invention, which is limited only by the following claims.
This application is related to and claims priority to U.S. Provisional Patent Application Ser. No. 60/926,477, filed Apr. 27, 2007, entitled SECURITY TAG SENSOR AND SECURITY METHOD FOR CAPITAL ASSETS, the entirety of which is incorporated herein by reference.
Number | Date | Country | |
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60926477 | Apr 2007 | US |