Surface mount antenna, method of manufacturing same, and communication device
First Claim
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1. A surface mount antenna functioning as a capacitive-feed surface mount antenna including a radiation electrode and a feed-terminal electrode, the surface mount antenna comprising:
- a substrate having four continuous surfaces including a front end surface, a top surface, a rear end surface, and a bottom surface; and
a conductive film provided on the four continuous surfaces of the substrate;
wherein a plurality of spaced-apart slits is formed in the conductive film, the plurality of slits extending across a width of the substrate in a predetermined direction crossing the direction in which the four continuous surfaces surround the substrate and dividing the conductive film into a plurality of conductive film parts;
one of the plurality of conductive film parts defines the radiation electrode, which operates as an antenna, and one of the other conductive film parts defines the feed-terminal electrode, which is capacitively coupled to the radiation electrode;
at least one of the plurality of slits is formed between the radiation electrode and the feed-terminal electrode and defines a capacitance coupling element for capacitively coupling the radiation electrode to the feed-terminal electrode;
a ratio that is at least one of between and among capacitances generated by the plurality of slits is used to match a first impedance of the radiation electrode to a second impedance of the feed-terminal electrode; and
the at least one slit forming the capacitance coupling element defines an open end of the radiation electrode and sides of the slit forming the open end are formed by using a dicer.
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Abstract
A surface mount antenna includes a conductive film provided on four continuous surfaces, that is, a front end surface, a top surface, a rear end surface, and a bottom surface, of a dielectric substrate. A plurality of slits is formed in the conductive film so as to divide the conductive film into a plurality of conductive film parts. At least one of the divided conductive film parts functions as a radiation electrode. Sides of one of the slits, that is, the slit forming an open end of the radiation electrode, are formed by a dicer. The position of the open end of the radiation electrode affects the resonance frequency of the radiation electrode. Since the dicer can cut with high precision, the open end can be provided substantially at a desired position, whereby the radiation electrode can generate a substantially the desired resonance frequency.
26 Citations
32 Claims
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1. A surface mount antenna functioning as a capacitive-feed surface mount antenna including a radiation electrode and a feed-terminal electrode, the surface mount antenna comprising:
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a substrate having four continuous surfaces including a front end surface, a top surface, a rear end surface, and a bottom surface; and
a conductive film provided on the four continuous surfaces of the substrate;
whereina plurality of spaced-apart slits is formed in the conductive film, the plurality of slits extending across a width of the substrate in a predetermined direction crossing the direction in which the four continuous surfaces surround the substrate and dividing the conductive film into a plurality of conductive film parts;
one of the plurality of conductive film parts defines the radiation electrode, which operates as an antenna, and one of the other conductive film parts defines the feed-terminal electrode, which is capacitively coupled to the radiation electrode;
at least one of the plurality of slits is formed between the radiation electrode and the feed-terminal electrode and defines a capacitance coupling element for capacitively coupling the radiation electrode to the feed-terminal electrode;
a ratio that is at least one of between and among capacitances generated by the plurality of slits is used to match a first impedance of the radiation electrode to a second impedance of the feed-terminal electrode; and
the at least one slit forming the capacitance coupling element defines an open end of the radiation electrode and sides of the slit forming the open end are formed by using a dicer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A surface mount antenna functioning as a direct-feed surface mount antenna including a radiation electrode and a feed-terminal electrode, the surface mount antenna comprising:
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a substrate having four continuous surfaces including a front end surface, a top surface, a rear end surface, and a bottom surface; and
a conductive film provided on the four continuous surfaces of the substrate;
whereina plurality of spaced-apart slits is formed in the conductive film, the plurality of slits extending across a width of the substrate in a predetermined direction crossing the direction in which the four continuous surfaces surround the substrate and dividing the conductive film into a plurality of conductive film parts;
one end of one of the conductive film parts defines the feed-terminal electrode and the other end thereof defines the radiation electrode, which operates as an antenna, and wherein the feed-terminal electrode and the radiation electrode are arranged so as to be adjacent to each other;
at least two of the plurality of slits are formed between the end defining the feed-terminal electrode and the other end defining the radiation electrode, and an open end of the radiation electrode is defined by sides of one of the plurality of slits, the sides being formed by using a dicer. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. A surface mount antenna comprising:
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a substrate having four continuous surfaces including a front end surface, a top surface, a rear end surface, and a bottom surface; and
a conductive film provided on the four continuous surfaces of the substrate;
whereina plurality of spaced-apart slits formed in the conductive film, the plurality of slits extending across a width of the substrate in a predetermined direction crossing the direction in which the four continuous surfaces surround the substrate and dividing the conductive film into a plurality of conductive film parts;
one end of one of the conductive film parts defines a feed-terminal electrode connected to an external circuit and the other end thereof defines a direct-feed radiation electrode operating as an antenna adjacent to the feed-terminal electrode;
a conductive film part adjacent to the feed-terminal electrode via at least one of the slits defines a capacitive-feed radiation electrode;
the at least one slit between the feed-terminal electrode and the capacitive-feed radiation electrode defines a capacitance coupling element for capacitively coupling the feed-terminal electrode to the capacitive-feed radiation electrode;
the at least one slit defining the capacitance coupling element defines a first open end of the capacitive-feed radiation electrode and sides of the slit forming the first open end are formed by using a dicer; and
one of the plurality of slits defines a second open end of the direct-feed radiation electrode and sides of the slit forming the second open end are formed by using the dicer. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30)
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31. A method of manufacturing a surface mount antenna including at least one radiation electrode and at least one feed-terminal electrode that are formed of a conductive film and that are formed on a substrate, the method comprising the steps of:
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forming the conductive film on four continuous surfaces of a base, the four continuous surfaces including a top surface, a bottom surface, and two end surfaces facing each other;
forming a plurality of slits in the conductive film by cutting the conductive film by using a dicer so that the slits extend in a direction crossing the direction in which the conductive film surrounds the base; and
dividing the base along the surrounding direction into a plurality of pieces so as to form a plurality of the surface mount antennas.
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32. A method of manufacturing a surface mount antenna including at least one radiation electrode and at least one feed-terminal electrode that are formed of conductive film parts and that are formed on a substrate, the method comprising the steps of:
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forming the conductive film parts on each of four continuous surfaces of a base, the four continuous surfaces including a top surface, a bottom surface, and two end surfaces facing each other;
forming a plurality of slits in the conductive film parts so that the slits extend in a direction crossing the direction in which the conductive film parts surround the base; and
dividing the base along the surrounding direction into a plurality of pieces so as to form a plurality of the surface mount antennas;
whereinthe plurality of slits is formed on at least two of the four conductive film parts, and at least one of the slits is formed on at least one of the four conductive film parts by a predetermined slit-forming method without using a dicer and the other slits are formed on the other conductive film parts by using the dicer.
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Specification
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Current AssigneeMurata Manufacturing Co Limited
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Original AssigneeMurata Manufacturing Co Limited
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InventorsYamaguchi, Minoru, Kushihi, Yuichi
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current343/700.0MS
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CPC Class CodesH01Q 1/2283 mounted in or on the surfac...H01Q 1/38 formed by a conductive laye...H01Q 9/42 with folded element, the fo...Y10T 29/49016 Antenna or wave energy "plu...
