KR20130043414A - Wire type built-in antenna for portable terminal and manufacturing method of the same - Google Patents

Abstract

PURPOSE: A wire type embedded antenna device for a portable terminal and a manufacturing method thereof are provided to improve productivity by comprising a PCB including a feeding part. CONSTITUTION: A wire antenna radiator(120) is fixed with a predetermined guide part. A feeding part(15) feeds the wire antenna radiator. A wire part(122) has a pattern layout for operating in the corresponding bandwidth of a portable terminal. A terminal part(115) is integrally formed with the wire part at one end of the wire part. The terminal part is electrically connected to the feeding part.

Description

WIRE TYPE BUILT-IN ANTENNA FOR PORTABLE TERMINAL AND MANUFACTURING METHOD OF THE SAME

The present invention relates to a wire type built-in antenna device for a portable terminal and a method for manufacturing the same, and in particular, to simplify the manufacturing process and improve the assemblability to increase production efficiency and contribute to miniaturization of the portable terminal. The present invention relates to a wire type embedded antenna device for a portable terminal and a method of manufacturing the same.

In recent years, in line with the full-fledged informatization era, there has been a rapid development of technology in the wireless communication field including IT (Information Technology), and in response to this, various portable terminals providing various services to users through the wireless data communication have arrived. Reached. Such portable terminals include PCS (Personal Communication Service) terminals, PDA (Personal Digital Assistant) terminals, DCS (Digital Cellular System), GPS (Global Positioning System), smart phones, cellular phones, notebook computers (Notebook Computers) Various handheld terminals have been introduced.

The portable terminal for wireless communication is equipped with an antenna device such as a helical antenna or a dipole antenna so as to improve transmission and reception sensitivity, all of which are external antenna devices. Protrude out of the.

However, while the external antenna device has a non-directional radiation characteristic, since the antenna device protrudes to the outside, there is a high risk of damage due to any external force, it is very inconvenient to carry, and the appearance of the terminal is beautifully designed. There was a problem.

Accordingly, in order to solve the problem of the external antenna device, an antenna device which is mounted inside the terminal without protruding to the outside, and has a flat plate built-in type such as a micro strip patch antenna device or an inverted F antenna device (PIFA). An antenna device is employed.

In general, in the above-described built-in antenna device, a carrier formed of an insulator such as polycarbonate is installed inside the portable terminal, and an antenna radiator having a circuit pattern shape capable of wireless transmission and reception in a specific frequency band is mounted on the upper surface of the carrier. Has a configuration.

Currently, the method of manufacturing the antenna radiator used in the built-in antenna device includes a SUS welding method in which a desired pattern is punched out of a metal piece and then thermally fused to the body, an etching method for plating the entire molding and removing only the pattern and removing the rest, and a molded body. Double injection method for plating patterns only in LDS, LDS method for plating after 3D surface of a part using laser, and plating plated after printing with conductive ink directly on the molded body (Printing Direct Structuring, PDS) And the like.

By the way, the antenna radiator used in the conventional built-in antenna device as described above is somewhat different depending on the manufacturing method, such as forming a pattern on the surface and etching, but must go through several steps, the production process is complicated and productivity is reduced to produce There is a problem of rising costs. In addition, since the space for installing the built-in antenna inside the portable terminal must be secured, there is a problem that the size of the portable terminal is increased.

In order to solve the above problems, a wire type antenna having a cross section formed of a polygon such as a circle or a square may be used. Generally, a wire having a fixed length and a pattern having a fixing protrusion in a case of a portable terminal is used. By fixing the antenna radiator and then electrically connecting the wire radiator and the printed circuit board (PCB) of the portable terminal through a separate grounding member, the production process is simplified and the productivity is always reduced. By reducing the installation space of the, disclosed is a portable terminal antenna that can reduce the size of the portable terminal.

However, the wire antenna device having such a configuration requires a separate procedure for connecting the grounding member and the wire antenna radiator because the wire antenna radiator and the PCB of the terminal are connected through a separate grounding member. The grounding member is shaken to cause a poor connection with the PCB, resulting in a problem that the reliability of the product is degraded.

In addition, as another wire antenna device, a method of fixing the ground part of the wire antenna radiator to a hole formed in a main body part constituting the wire antenna device is disclosed, and such a configuration also includes screwing the ground part of the wire antenna radiator and As a structure for grounding the contact spring of the PCB through, to form a screw coupled ground portion, there is a disadvantage that requires a separate procedure for connecting the ground portion and the contact spring.

In order to solve the above problems, an object of the present invention is to provide a wire type built-in antenna device and a method for manufacturing the same for a portable terminal that is implemented to simplify the manufacturing process to increase production efficiency and reduce cost. have.

Another object of the present invention is to provide a wire-type internal antenna device for a portable terminal and a method for manufacturing the same, which are relatively simple and firmly fixed so that the reliability of the product is not degraded even when used for a long time.

It is still another object of the present invention to provide a wire type embedded antenna device for a portable terminal and a method for manufacturing the same, which are implemented to contribute to slimming of the terminal by directly fixing the inner surface of the terminal case frame without using a separate carrier.

Still another object of the present invention is a wire type built-in antenna device for a portable terminal and a method of manufacturing the same, which implements a smooth power supply operation by excluding a separate grounding means and directly connecting to a feed terminal of a PCB with only a structure of a wire antenna radiator. To provide.

In order to solve the above object, the present invention provides a wire-type internal antenna device for a portable terminal, the wire antenna radiator having a predetermined shape fixed to the inner surface of the case frame of the portable terminal by a predetermined guide portion and the And a printed circuit board (PCB) having a feeding part for feeding a wire antenna radiator, wherein the wire antenna radiator is formed at a wire part having a pattern shape capable of operating in a corresponding band of the portable terminal and at an end of the wire part. A terminal part formed integrally with the wire part to be electrically connected to the power feeding part, wherein the terminal part has a plane facing the feed part in a flat plane than the wire part for smooth electrical connection with the power feeding part; Characterized in that formed.

In addition, according to the present invention, further comprising a conductive connection terminal spring for electrically connecting the terminal portion and the feeder, wherein the connection terminal spring is formed integrally with the connection portion and the connection portion fixed in contact with the feed portion of the PCB And an elastic portion that is bent in a curved shape and has a predetermined elasticity and contacts the terminal portion of the lower wire antenna radiator.

In addition, according to the present invention, a support portion having a predetermined height for supporting the terminal portion of the wire antenna radiator protrudes toward the feed portion in the case frame, and a protrusion for fixing the terminal portion is further formed on one side of the support portion. The projections can be fixed on the supporting portion by thermal fusion.

In addition, according to the present invention, the guide portion is a plurality of fixing protrusions protruding at regular intervals along the wire portion, and after the wire portion is close to the side of the fixing protrusion, the part or all of the outer surface of the wire portion is joined by heat fusion Is fixed as possible.

In addition, according to the present invention, the guide portion may be a fixing groove formed along the wire portion, in which the wire portion is partially or entirely clamped along the fixing groove, or by heat fusion after seating the wire portion in the fixing groove. The outer surface of the wire portion may be fixed by bonding the inner surface of the case frame.

In addition, according to the present invention, the terminal portion of the wire antenna radiator is formed as a contact portion which has a predetermined elastic force in the direction of the feed portion and bent upwards a number of times, the contact portion is parallel to the feed portion to widen the contact surface with the feed portion It can be bent to have one side.

Further, according to the present invention, the terminal portion may be formed by rolling one end of the wire portion into a flat surface by rolling, and then performing electroless plating with a material such as copper or nickel.

Furthermore, according to the present invention, there is provided a method of manufacturing the above-described wire type built-in antenna device. Accordingly, the present invention provides a wire type built-in antenna device manufacturing method for a portable terminal, the guide portion consisting of a plurality of fixing projections and the support portion protruding toward the feed portion in a position corresponding to the feed portion of the PCB disposed inside Forming a case frame so as to correspond to the guide part and the support part, forming a wire antenna radiator composed of a wire part and a terminal part integrally with the guide part, and fixing the wire part to the guide part, and fixing the terminal part to the support part. And a step of thermally fusion the upper part of the fixing protrusions, which are the guide parts, and bonding the upper end of the fixing protrusion to the side to firmly support the wire part.

In addition, the present invention may further comprise the step of forming the terminal portion in a plane by rolling after forming the wire antenna radiator, and then performing electroless plating with a material such as copper and nickel. Bending the terminal part upwards a number of times to have a predetermined elasticity, so as to directly contact the terminal part with the feeding part, wherein the contact part of the terminal part contacting the feeding part has a direction parallel to the feeding part; The method may further include directly connecting a terminal part of the wire antenna radiator to a feeding part of the PCB.

In addition, according to the present invention, after the step of bonding the wire portion, it may further comprise the step of electrically connecting each other via a separate conductive connection terminal spring between the terminal portion of the wire antenna radiator and the PCB feeder.

According to the present invention, since the terminal part connected to the PCB of the wire antenna radiator is integrally formed with the wire part, the assembly process is simplified by eliminating a separate connection member, thereby reducing manufacturing costs and improving productivity.

In addition, according to the present invention, by eliminating the carrier and directly fixing the wire antenna radiator to the inner surface of the case frame of the terminal, there is an effect that can contribute to the slimming of the portable terminal.

Furthermore, according to the present invention, the end portion of the wire antenna radiator is integrally formed with the wire portion and supported by the support portion protruding from the case, thereby making it possible to firmly fix and to improve the reliability of the product.

1 is an exploded perspective view illustrating a state in which a wire type embedded wire antenna device according to a preferred embodiment of the present invention is coupled to a printed circuit board (PCB) of a portable terminal;
FIG. 2 is an exploded perspective view of the wire type built-in antenna device of FIG. 1; FIG.
3 is a cross-sectional view illustrating main parts of a wire type embedded antenna device of FIG. 1 coupled to a printed circuit board of a portable terminal;
4 is an exploded perspective view illustrating a state in which a wire type embedded antenna device is coupled with a printed circuit board of a portable terminal according to another exemplary embodiment of the present invention; And
5 is an exploded perspective view of the wire type built-in antenna device of FIG. 4.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, if it is determined that the gist of the present invention may be unnecessarily obscured, the detailed description thereof will be omitted.

(First embodiment)

1 is an exploded perspective view illustrating a state in which a wire type embedded wire antenna device is coupled to a printed circuit board (PCB) of a portable terminal according to a preferred embodiment of the present invention, and FIG. 2 is a wire type of FIG. An exploded perspective view of the built-in antenna device.

1 and 2, the wire-type embedded antenna device 100 according to the present invention is a wire antenna radiator 120 formed in a pattern of a fixed shape fixed to an inner surface 111 of a case frame 110 of a portable terminal. ) And a connection terminal spring 130. The wire antenna radiator 120 may radiate a transmission signal to the outside using a current supplied from a printed circuit board (PCB) 10 or transmit a reception signal transmitted from the outside to the PCB 10.

The case frame 110 is a case frame at a position corresponding to the guide portion 112 capable of fixing the wire antenna radiator 120 to the inner surface 111 and the feeding portion 15 of the PCB 10. Protruding from the 110 in the direction of the feed section 15 includes a support 115, the upper portion is flat.

The guide part 112 includes a plurality of fixing protrusions at regular intervals on the inner surface 111 of the case frame 110 so that the wire part 122 of the wire antenna radiator 120 may be supported in a bent state. 1121 is formed to protrude. The wire part 122 may be bent while passing along the fixing protrusions 1121 in a predetermined form, thereby increasing the transmission and reception of radio waves by installing the wire part 122 longer. In addition, the fixing protrusions 1121 may fix the upper portion of the fixing protrusions 1121 when the wire portion 122 is fixed while contacting the fixing protrusions 1121 so that the wire portion 122 may be more firmly fixed. By heat fusion bonding to the outer surface of the wire portion 122 can support the wire portion 122 more firmly. In addition, although not shown, the guide portion 112 is formed in various ways, such as forming a fixing groove along the shape of the wire portion 122 and fixing all or part of the wire portion 122 in the fixing groove. Can be.

The support part 115 protruding from the inner surface of the case frame 110 toward the power supply part 15 of the PCB 10 has a flat plane on its upper portion. One side of the support 115 may include a protrusion 1151 for fixing the terminal 115 of the antenna.

The wire antenna radiator 120 is integrally formed with the wire 122 at one end of the wire part 122 and the wire part 122 that are bent along the guide part 112 while being supported by the guide part 112. It consists of the terminal part 125 of the planar shape located on 115. As shown in FIG. In the prior art, the wire part and the terminal part are separately formed and connected to each other using a separate ground member, but the wire antenna radiator 120 of the present invention is characterized in that the wire part 122 and the terminal part 125 are integrally formed. . The wire part 120 is generally formed of a conductive material such as copper (Cu) and has a circular or rectangular cross section. In addition, after the end of the wire portion 120 is rolled to form a terminal portion 125 for power feeding in a planar shape, electroless plating may be performed with copper (Cu), nickel (Ni), or the like. The built-in antenna device made of such a wire type has an advantage that the antenna device itself can be easily changed according to the purpose of use, etc., compared to the conventional built-in antenna device. In addition, the terminal portion 125 of the wire antenna radiator 120 may be positioned on the support 115 of the case frame, and then may be firmly fixed on the support 115 by heat-sealing the protrusions 1151.

Connection terminal spring 130 is bent in the center of the curved and has an elastic force to open to each other. Therefore, the connecting portion 132 located on the upper side of the connection terminal spring 130 may be electrically connected to the feeding portion 15 of the PCB 10 by contact, and the elastic portion 135 positioned below the wire antenna radiator ( It is interposed between the terminal portion 125 of the wire antenna radiator 120 and the terminal portion 15 of the PCB 10 to be in contact with the terminal portion 125 of the 120.

3 is a cross-sectional view illustrating main parts of a wire type embedded antenna device of FIG. 1 coupled to a printed circuit board of a portable terminal.

Referring to FIG. 3, the flat connection part 132 of the connection terminal spring 130 is fixed to the terminal part 15 of the PCB 10, and the PCB 10 and the case frame 110 are assembled while being aligned. At this time, the elastic portion 135 of the connection terminal spring 130 is in contact with the terminal portion 125 fixed on the support portion 115 formed on the inner surface of the case frame 110 to maintain the contact by the elastic force.

Hereinafter, a manufacturing method of a wire type built-in antenna device according to an exemplary embodiment of the present invention will be described with reference to FIGS. 1 to 3.

First, there is provided a support part 115 protruding from the case frame 110 at a position corresponding to the guide part 112 made up of a plurality of fixing protrusions 1121 and the feeding part 15 of the PCB 10. The case frame 110 is formed. In this case, the fixing protrusions 1121 and the support 115 may be integrally formed when the case frame made of a synthetic resin is injected.

Next, the wire antenna radiator 120 is formed. At this time, the wire portion 122 and the planar terminal portion 125 of the wire antenna radiator 120 are integrally formed. The wire part 122 of the wire antenna radiator 120 is bent in a pattern shape that can be installed on the support part 115 of the case frame 110, and the terminal part 125 is rolled to have a flat shape. Subsequently, electroless plating can be performed with copper and nickel.

Next, the wire antenna radiator 120 is positioned in the case frame 110, the wire part 122 is positioned in the guide part 112, and the terminal part 125 is connected to the support part 115 of the case frame 110. Position it.

Next, the upper end of the fixing protrusions 1121 which are the guide parts 112 are heat-sealed, so that the upper end of the fixing protrusions 1121 is spread to the side to firmly support the wire part 122.

Next, the power supply unit 15 of the PCB 10 and the terminal portion 125 of the wire antenna radiator 120 are connected in the state of interposing the connection terminal spring 130.

(Second Embodiment)

4 is an exploded perspective view illustrating a state in which a wire type embedded antenna device is coupled to a printed circuit board of a portable terminal according to another exemplary embodiment of the present invention, and FIG. 5 is an exploded perspective view of the wire type embedded antenna device of FIG. 4.

In this embodiment, compared to the first embodiment described above, a separate connection terminal spring is excluded, and the terminal part of the wire antenna radiator is directly connected to the feeding part of the PCB to be electrically connected.

4 and 5, the built-in wire type antenna device 200 according to the second embodiment of the present invention includes a case frame 210 and a wire antenna radiator 220 of a portable terminal. The wire antenna radiator 220 may radiate a transmission signal to the outside using a current supplied from the PCB 10 or transmit a reception signal transmitted from the outside to the PCB 10.

The case frame 210 has a case frame 210 at a position corresponding to the guide portion 212 that can fix the wire portion 222 of the wire antenna radiator 220 and the feed portion 15 of the PCB 10 therein. And a support 215 having an upper portion protruding from it.

The guide part 212 has a plurality of fixing protrusions 2121 protruding from the inner surface 211 of the case frame 210 at regular intervals so that the wire part 222 can be supported in a bent state. . The wire part 222 may be bent while passing through the fixing protrusions 2121 in a predetermined form, thereby increasing the transmission and reception of radio waves by installing the wire part 222 longer. In addition, the fixing protrusions 2121 of the fixing protrusions 2121 when the wire portion 222 is fixed while contacting the fixing protrusions 2121 so that the wire portion 222 can be more firmly fixed. The upper part may be thermally fused to be bonded to the outer surface of the wire part 222 so that the wire antenna radiator 220 may be more firmly fixed to the inner surface 211 of the case frame 210. In addition, unlike the fixing protrusions in the drawing, the guide part 212 may be formed in various ways such as a fixing groove.

The support part 215 protrudes from the case frame 210 toward the power supply part 15 at a position corresponding to the power supply part 15 of the PCB 10, and the upper part of the support part 215 has a flat plane. .

The wire antenna radiator 220 is integrally formed with the wire part 222 at one end of the wire part 222 bent along the guide part 212 while being supported by the guide part 212 and the wire part 222. And extending from the spring-shaped terminal portion 225 and the terminal portion 225 positioned on the support portion 215 and in contact with the feed portion 15 of the PCB 10 to enlarge the contact surface. It includes a contact portion 221 bent in parallel with the whole (15). In addition, the wire part 222, the terminal part 225, and the contact part 221 are integrally formed to form one wire antenna radiator 220.

Therefore, in the related art, the wire part 222 and the terminal part 225 are separately formed and connected using a separate connection member, but the wire antenna radiator 220 of the present invention has the wire part 222 and the terminal part 225. And the contact portion 221 is characterized in that formed integrally. The wire antenna radiator 220 described above may be formed of a conductive material such as copper (Cu) and may have a cross section of a polygon such as a circle or a quadrangle.

In this drawing, the terminal portion 225 and the contact portion 221 of the wire antenna radiator 220 having a circular cross section have a certain elasticity and are oriented in the upward direction (the feed portion direction of the PCB), and the PCB 10 is the case frame ( When mounted to 210, the contact portion 221 of the terminal portion 225 may be electrically connected to the power feeding portion 15 of the PCB 10 while storing a predetermined elasticity.

Although not shown, the above-described wire antenna radiator 220, as in the first embodiment of the present invention, rolls one end of the wire 222 to form a terminal portion having a planar shape, and then copper and nickel (Ni). Electroless plating can be performed. The built-in antenna device made of the wire-type antenna radiator has an advantage that the antenna device itself can be easily changed according to the purpose of use, etc., compared to the conventional built-in antenna device. Unlike the first embodiment, the terminal unit 225 of the wire antenna radiator according to the present embodiment has a spring shape having its own elasticity and does not include a connection terminal spring as in the first embodiment.

Hereinafter, a method of manufacturing the wire-type built-in antenna device 200 according to the second embodiment of the present invention.

First, there is provided a support part 215 protruding from the case frame 210 at a position corresponding to the guide part 212 made up of a plurality of fixing protrusions 2121 and the feeding part 15 of the PCB 10. The case frame 210 is formed. In this case, the fixing protrusions 2121 and the support part 215 may be integrally formed when the case frame made of a synthetic resin is injected.

Next, the wire antenna radiator 220 is formed. In this case, the wire part 222 and the terminal part 225 of the wire antenna radiator 220 are integrally formed. The wire part 222 of the wire antenna radiator 220 is bent in a pattern shape that can be installed on the support part 215 of the case frame 210, and the terminal part 225 is upward in order to have elasticity. Bend). At this time, the end portion of the terminal portion 225 forms a contact portion 221 bent again to extend the contact surface with the power feeding portion 15 of the PCB 10. In this case, the contact portion 221 may be formed to have a bending angle parallel to the power supply portion 15.

If the terminal portion 225 and the contact portion 221 is to be formed flat as in the first embodiment, the rolling process may be further performed. At this time, electroless plating can be performed with copper and nickel in a flat shape.

Next, the wire antenna radiator 220 is positioned in the case frame 210, the wire portion 222 is located in the guide portion 212, the terminal portion 225 and the contact portion 221 of the case frame 210 It is positioned on the support 215.

Next, the upper end of the fixing protrusions 2121, which are the guide portions 212, are thermally fused so that the upper ends of the fixing protrusions 2121 are spread sideways to firmly support the wire portion 222.

Next, the feeding portion 15 of the PCB 10 and the contact portion 221 of the terminal portion of the wire antenna radiator 120 are brought into contact with each other to be electrically connected.

Apparently, there are many different ways to modify these embodiments while remaining within the scope of the claims. In other words, there may be many other ways in which the invention may be practiced without departing from the scope of the following claims.

10: PCB (Printed Circuit Board) 15: feeding portion
100, 200: wire type antenna device 110, 210: case frame
111, 221: (case frame) inner 112, 212: guide part
115, 215: Supporting portions 1151, 2151: Fixing protrusion (s)
120, 220: wire antenna radiator 122, 222: wire part
125, 225: Terminal part 130: Connection terminal spring
132: connection portion 135: elastic portion
221: contact portion

Claims (11)

In the wire type built-in antenna device for a portable terminal,
A wire antenna radiator having a predetermined shape fixed to an inner surface of the case frame of the portable terminal by a predetermined guide part; And
It includes a PCB (Printed Circuit Board) having a feeder for feeding the wire antenna radiator,
The wire antenna radiator,
A wire part having a pattern shape capable of operating in a corresponding band of the portable terminal; And
A terminal part integrally formed with the wire part at an end of the wire part and electrically connected to the feeding part;
The terminal unit is a wire type built-in antenna device for a portable terminal, characterized in that the surface facing the feeder is formed in a flat plane than the wire portion for smooth electrical connection with the feeder.
The method of claim 1,
Further comprising a conductive connection terminal spring for electrically connecting the terminal portion and the feeder,
The connection terminal spring,
A connection part fixed to the feeding part of the PCB; And
And an elastic part which is integrally formed with the connection part and is bent in a curved shape to have a predetermined elasticity and is in contact with the terminal part of the lower wire antenna radiator.
The method of claim 1,
The support frame having a predetermined height for supporting the terminal portion of the wire antenna radiator is formed in the case frame protruding toward the feed portion,
One side of the support is further formed with a projection for fixing the terminal portion,
And the projection part fixes the terminal part on the support part by heat fusion.
The method of claim 1,
The guide part is a plurality of fixing protrusions protruding at regular intervals along the wire portion,
The wire type built-in antenna device for a portable terminal, characterized in that for fixing the part or all of the outer surface and the outer portion of the wire portion by the heat welding after the wire portion close to the side of the fixing projection.
The method of claim 1,
The guide portion is a fixing groove formed along the wire portion,
A portable terminal characterized in that the wire portion is partially or entirely fitted along the fixing groove, or the wire terminal is fixed to the inner surface of the case frame by bonding the outer surface of the wire portion by heat fusion after seating the wire portion in the fixing groove. Wire type built-in antenna device.
The method of claim 1,
The terminal portion of the wire antenna radiator has a predetermined elastic force in the direction of the feed portion and is formed of a contact portion bent up a number of times,
And the contact portion is bent to have a surface parallel to the feed portion in order to widen the contact surface with the feed portion.
The method of claim 1,
The terminal unit is formed by flattening one end of the wire portion by rolling, and then the wire type built-in antenna device for a portable terminal, characterized in that the electroless plating using a material such as copper, nickel.
In the method of manufacturing a wire-type built-in antenna device for a portable terminal,
Forming a case frame such that a support part protruding in the direction of the feed part is disposed at a position corresponding to the guide part made up of a plurality of fixing protrusions and the feed part of the PCB;
Forming a wire antenna radiator comprising a wire part and a terminal part integrally therewith to correspond to the guide part and the support part;
Fixing the wire part to the guide part, and positioning the terminal part to the support part; And
And heat-sealing an upper portion of the fixing protrusions that are the guide portions, and bonding the upper ends of the fixing protrusions to spread sideways to firmly support the wire portion.
9. The method of claim 8,
After forming the wire antenna radiator,
And forming the terminal portion into a flat surface by rolling, and then performing electroless plating with a material such as copper or nickel.
10. The method of claim 9,
In order to directly contact the terminal section with the feed section,
Bending the terminal portion a plurality of times in an upward direction to have a predetermined elasticity, wherein the contact portion of the terminal portion in contact with the feeding portion has a direction parallel to the feeding portion; And
And connecting the terminal portion of the wire antenna radiator directly with the feed portion of the PCB.
9. The method of claim 8,
After the step of joining the wire,
And electrically connecting each other between a terminal portion of the wire antenna radiator and a PCB feeding portion via a separate conductive connection terminal spring.

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