Method and apparatus for deactivating electromagnetic detection labels
First Claim
1. In a method of deactivating electromagnetic detection labels having a resonant circuit, in which an interrogation field is generated, the frequency of which is varied through a frequency range comprising the resonant frequency of the resonant circuit of a detection label, and in which the label is deactivated with an amplified interrogation field, the improvement comprising the steps of periodically varying the frequency of the interrogation field over a frequency range including the resonant frequency of the label, detecting the resonant frequency of the label and subsequently substantially increasing the field intensity of the interrogation field at the location of the detection label for a short period of time coincident with at least one of the subsequent times that the periodically varying frequency passes the detected frequency, wherein the increased field intensity is generated at one or more instants subsequent to one or more periods of the varying frequency of the interrogation field after the instant the resonant frequency is detected.
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Abstract
A method of deactivating electromagnetic detection labels comprising a resonant circuit, in which an interrogation field is generated, the frequency of which is varied through a frequency range comprising the resonant frequency of the resonant circuit of the detection label, and in which a label is deactivated with an amplified interrogation field. According to the invention, the frequency of the interrogation field is continuously and periodically varied between a first and a second frequency; upon detection of a detection label, the resonant frequency of the label is detected, and at at least one of the subsequent times the periodically varying frequency passes the detected frequency, the field intensity at the location of the detection label is greatly increased for a short period of time. Apparatus for deactivating detection labels comprises a transmitter/receiver comprising a transmitter/receiver circuit for generating an interrogation field with a continuously and periodically varying frequency, and determining at what value of the varying frequency a label is detected; and a circuit for greatly increasing the field intensity for a short period of time at one or more moments when the value of the varying frequency is again reached.
16 Citations
9 Claims
- 1. In a method of deactivating electromagnetic detection labels having a resonant circuit, in which an interrogation field is generated, the frequency of which is varied through a frequency range comprising the resonant frequency of the resonant circuit of a detection label, and in which the label is deactivated with an amplified interrogation field, the improvement comprising the steps of periodically varying the frequency of the interrogation field over a frequency range including the resonant frequency of the label, detecting the resonant frequency of the label and subsequently substantially increasing the field intensity of the interrogation field at the location of the detection label for a short period of time coincident with at least one of the subsequent times that the periodically varying frequency passes the detected frequency, wherein the increased field intensity is generated at one or more instants subsequent to one or more periods of the varying frequency of the interrogation field after the instant the resonant frequency is detected.
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5. In an electromagnetic detection system comprising at least one detection zone in which, in operation, by means of one or more transmitters/receivers, an electromagnetic interrogation field is generated for detecting detection labels comprising a resonant circuit, and a plurality of deactivating devices in which, in operation, detection labels are detected and deactivated by means of a transmitter/receiver, the improvement wherein the transmitter/receiver comprises means for generating an interrogation field with a continuously varying frequency, which frequency is varied periodically, and detection means capable of determining at what value of the varying frequency of the interrogation field a label is detected;
- said improvement further comprising means for substantially increasing the field intensity for a short period of time at one or more instants when the label detection value of the varying frequency is again reached, said means for increasing comprising a power end stage and a delay device for switching on the power end stage a pre-determined time after a label has been detected, said predetermined period of time being equal to the period of the periodically varying frequency.
- View Dependent Claims (6, 7, 8)
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9. In an electromagnetic detection system comprising at least one detection zone in which, in operation, by means of one or more transmitters/receivers, an electromagnetic interrogation field is generated for detecting detection labels having a resonant circuit, and a plurality of deactivating devices in which, in operation, detection labels are detected and deactivated by means of a deactivation field, the improvement comprising a central synchronizer coupled with all transmitters/receivers of the detection zones and with the deactivating devices, for supplying synchronization signals thereto for causing the interrogation and deactivation fields generated by said transmitters/receivers and deactivating devices to vary in frequency periodically and in synchronism.
Specification
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- Resources
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Current AssigneeNV Nederlandsche Apparatenfabriek Nedap OUDE Winterswijkseweg 7 7141 de Groenlo The Netherlands
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Original AssigneeN.V. Nederlandsche Apparatenfabriek "Nedap"
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Inventorsvan Breemen, Paulus J. W. M.
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Primary Examiner(s)Ng, Jin F.
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Assistant Examiner(s)MULLEN, THOMAS J
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Application NumberUS07/645,886Time in Patent Office620 DaysField of Search340/572, 340/825.14, 340/825.2, 340/825.72US Class Current340/572.3CPC Class CodesG08B 13/242 Tag deactivationG08B 13/2488 Timing issues, e.g. synchro...
