Resonant tag and method of manufacturing the same
First Claim
1. A method of manufacturing a resonant tag, comprising the steps of:
- printing by using an etch-resistant material a first conductive pattern to form a conductive inductor element and a conductive capacitor element of a resonant circuit on one surface of conductive thin films having a predetermined thickness formed on the two surfaces of an insulating thin film;
printing by using an etch-resistant material a second conductive pattern to form a capacitor element corresponding to the resonance frequency of the resonant circuit at a position opposing the disposed position of the capacitor element pattern on said one surface;
etching, subsequent to the printing steps, for removing the non-printed portion of the conductive thin film;
removing the ink on the remaining conductive pattern;
thinning down to obtain a thin film of a desired thickness at least the portion generally corresponding to the disposed position of said capacitor element patterns of the resonant circuit pattern formed by said etching step; and
forming an LC resonant circuit in the desired resonant circuit pattern portion by electrically connecting said first and second conductive patterns.
7 Assignments
0 Petitions
Accused Products
Abstract
A resonant tag is manufactured in the manner described below: a conductive thin film is formed to a predetermined thickness on two surfaces of an insulating thin film. Thereafter, a conductive pattern, composed of an inductor element and a capacitor element corresponding to a resonant frequency of a resonant circuit, is printed on a surface of one of the conductive thin films, and a conductive pattern, composed of a capacitor element corresponding to the resonant frequency of the resonant circuit, is printed on a surface of the other insulating thin film at a position which faces the capacitor element formed on one of the conductive thin films using an ink which resists etching. A non-printed portion of the conductive thin films is removed by etching to form a resonant circuit pattern. Thereafter, a portion of the insulating thin film, which corresponds to the capacitor element pattern, is thinned to a desired thickness by pressing a heating/pressing member heated to a predetermined temperature against that portion under a predetermined pressure for a predetermined period of time.
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Citations
12 Claims
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1. A method of manufacturing a resonant tag, comprising the steps of:
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printing by using an etch-resistant material a first conductive pattern to form a conductive inductor element and a conductive capacitor element of a resonant circuit on one surface of conductive thin films having a predetermined thickness formed on the two surfaces of an insulating thin film; printing by using an etch-resistant material a second conductive pattern to form a capacitor element corresponding to the resonance frequency of the resonant circuit at a position opposing the disposed position of the capacitor element pattern on said one surface; etching, subsequent to the printing steps, for removing the non-printed portion of the conductive thin film; removing the ink on the remaining conductive pattern; thinning down to obtain a thin film of a desired thickness at least the portion generally corresponding to the disposed position of said capacitor element patterns of the resonant circuit pattern formed by said etching step; and forming an LC resonant circuit in the desired resonant circuit pattern portion by electrically connecting said first and second conductive patterns. - View Dependent Claims (2, 3, 4)
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5. A method of manufacturing a resonant tag, comprising the steps of:
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(a) printing a first conductive pattern on one surface of a first conductive film by using an etch-resistant material to form an inductor and a first electrode plate, the first conductive film being positioned on one surface of an insulating film; (b) printing a second conductive pattern on one surface of a second conductive film by using an etch-resistant material to form a second electrode plate, the second conductive film being positioned on the second surface of the insulating film, the second electrode plate opposing the first electrode plate; (c) etching the non-printed portions of the first and second conductive films such that the first and second electrode plates form a capacitor; (d) pressing a portion of one of the electrode plates into the insulating thin film, wherein the pressing increases the capacitance of the capacitor and creates at least one crevasse extending between the pressed portion and the unpressed electrode plate; and (e) electrically connecting the first and second conductive thin films to form a resonant circuit. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
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Specification