US2006219786A1PendingUtilityA1
Marker for coded electronic article identification system
Est. expiryApr 1, 2025(expired)· nominal 20-yr term from priority
Inventors:Ryusuke Hasegawa
G08B 13/2408G06K 19/06196G08B 13/2437G08B 13/2417H01F 1/15308H01F 1/15391G08B 13/2442G06K 7/08H01F 41/0226G08B 13/14G06K 19/06
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Claims
Abstract
A coded marker in a magnetomechanical resonant electronic article identification system, includes a plurality of ductile magnetostrictive elements or strips based on an amorphous magnetic alloy ribbon with improved magnetomechanical resonance performance. The coded marker takes full advantage of the improved magnetomechanical properties, and an electronic article identification system utilizes the coded marker. The improved encodable and decodable marker/identification system is capable of identifying considerably larger number of articles than conventional systems.
Claims
exact text as granted — not AI-modified1 . A coded marker of a magnetomechanical resonant electronic article identification system, adapted to resonate mechanically at preselected frequencies, comprising: a plurality of ductile magnetostrictive strips cut to predetermined lengths from amorphous ferromagnetic alloy ribbons that have curvatures along a ribbon length direction and exhibit magnetomechanical resonance under alternating magnetic field excitations with a static bias field, the strips having a magnetic anisotropy direction perpendicular to a ribbon axis, wherein at least two of the strips are adapted to be magnetically biased to resonate at a single, different one of the preselected frequencies.
2 . The coded marker of claim 1 , wherein a radius of curvature of the marker strip curvatures is less than about 100 cm.
3 . The coded marker of claim 1 , wherein encoding is carried out by cutting an amorphous magnetostrictrive alloy ribbon having its magnetic anisotropy direction perpendicular to ribbon axis to a rectangular strip with a predetermined length having a length-to-width ratio greater than 3.
4 . The coded marker of claim 3 , wherein the strips have a strip width ranging from about 3 mm to about 15 mm.
5 . The coded marker of claim 4 , wherein the strips have a slope of resonance frequency versus bias field ranging from about 4 Hz/(A/m) to about 14 Hz/(A/m).
6 . The coded marker of claim 4 , wherein the strips have a length greater than about 18 mm when a strip width is 6 mm.
7 . The coded marker of claim 6 , wherein the strips have a magnetomechanical resonance frequency less than about 120,000 Hz.
8 . The coded marker of claim 1 , wherein the amorphous ferromagnetic alloy ribbons have a saturation magnetostriction between about 8 ppm and about 18 ppm and a saturation induction between about 0.7 tesla and about 1.1 tesla.
9 . The coded marker of claim 8 , wherein an amorphous ferromagnetic alloy of the amorphous ferromagnetic alloy ribbons has a composition based on Fe a —Ni b —Mo c —B d with 30≦a≦43, 35≦b≦48, 0≦c≦5, 14≦d≦20 and a+b+c+d=100, up to 3 atom % of Mo being optionally replaced by Co, Cr, Mn and/or Nb and up to 1 atom % of B being optionally replaced by Si and/or C.
10 . The coded marker of claim 8 , wherein an amorphous ferromagnetic alloy of the amorphous ferromagnetic alloy ribbons has a composition of one of: Fe 40.6 Ni 40.1 Mo 3.7 B 15.1 Si 0.5 , Fe 41.5 Ni 38.9 Mo 4.1 B 15.5 , Fe 41.7 Ni 39.4 Mo 3.1 B 15.8 , Fe 40.2 Ni 39.0 Mo 3.6 B 16.6 Si 0.6 , Fe 39.8 Ni 39.2 Mo 3.1 B 17.6 C 0.3 , Fe 36.9 Ni 41.3 Mo 4.1 B 17.8 , Fe 35.6 Ni 42.6 Mo 4.0 B 17.9 , Fe 40 Ni 38 Mo 4 B 18 , or Fe 38.0 Ni 38.8 Mo 3.9 B 19.3 .
11 . A coded marker of claim 1 , wherein the coded marker comprises at least two marker-strips with different lengths.
12 . A coded marker of claim 11 , wherein the coded marker comprises five marker-strips with different lengths.
13 . A coded marker of claim 12 , wherein the coded marker has a magnetomechanical resonance frequency between about 30,000 and about 130,000 Hz.
14 . A coded marker of claim 13 , wherein the coded marker has an electronic identification universe containing up to about 1800 separately identifiable articles for a coded marker with two marker strips and about 115 million separately identifiable articles for a coded marker with five marker strips.
15 . A coded marker of claim 13 , wherein the coded marker has an electronic identification universe containing more than 115 million separately identifiable articles.
16 . An electronic article identification system having a capability of decoding coded information of a coded marker, the system comprising one of:
a pair of coils emitting an AC excitation field with varying frequency aimed at the coded marker to form an interrogation zone; a pair of signal detection coils receiving coded information from the coded marker; an electronic signal processing device with an electronic computer with a software to decode information coded on the coded marker; or an electronic device identifying the coded marker, wherein the coded marker is adapted to resonate mechanically at preselected frequencies, wherein the coded marker comprises a plurality of ductile magnetostrictive strips cut to predetermined lengths from amorphous ferromagnetic alloy ribbons that have curvatures along a ribbon length direction and exhibit magnetomechanical resonance under alternating magnetic field excitations with a static bias field, the strips having a magnetic anisotropy direction perpendicular to a ribbon axis, and wherein at least two of the strips are adapted to be magnetically biased to resonate at a single, different one of the preselected frequencies.
17 . The coded marker of claim 1 , wherein a radius of curvature of the marker strip curvatures is between about 20 cm and about 100 cm.Cited by (0)
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