KR20080071406A - Integral internal antenna and thereof making method - Google Patents

Abstract

An integrated internal antenna and a manufacturing method thereof are provided to secure the optimum volume of the antenna by using an inner surface of a mobile phone case. An integrated internal antenna includes a mobile phone case(100), a radiator(200), a feed unit(300), and a ground unit(400). The mobile phone case has a first region(110) made of material incapable of being plated and a second region(120) made of material capable of being plated. The first and second regions of the mobile phone case are formed by double injection. The radiator is formed by plating the second region of the mobile phone case with conductive material. The feed unit is formed on one surface of the radiator to feed a signal. The ground unit grounds the signal by being spaced apart from the feed unit.

Description

 Integrated antenna and method of manufacturing the same

1 is a block diagram showing a conventional built-in antenna device

2 is a block diagram showing an integrated internal antenna according to an embodiment of the present invention

Figure 3 is a detailed view of the integrated internal antenna according to Figure 2 of the present invention

4 is a flowchart illustrating a method of manufacturing an integrated internal antenna according to another embodiment of the present invention.

* Description of the main drawing codes *

10 lower casing frame 20 main part

30: antenna line 40: printed circuit board

50: terminal 100: mobile phone case

110: first region 120: second region

200: radiator 210: first radiator

220: second radiator 300: feeder

400: grounding part

The present invention relates to an integrated built-in antenna, and more particularly, to an integrated built-in antenna that can maximize the volume of the antenna by using a part of the space of the mobile phone case as an antenna, and omit unnecessary antenna assembly process.

As a technology of a conventional built-in antenna device, Korean Patent Laid-Open Publication No. 10-2002-0009810 discloses an antenna characteristic on a bottom portion 20 and a recess portion 20 formed at a predetermined depth on an upper side of a rear casing frame 10. According to the present invention, a groove formed in a predetermined pattern and an antenna line 30 filled with a conductor by using a printing method, a coating method, or a double injection method along the groove are selected on the antenna line 30. The built-in antenna is composed of a coating portion and at least one connection terminal 50 connected to one end of the antenna line 30 and connected to the main printed circuit board 40.

However, since the conventional technology is formed by directly filling a conductor in a recess formed to a predetermined depth, the thickness of the conductor should be at least 0.5 to 0.7 mm (0.1 to 0.7 mm), which is the minimum injection possible, which is excessive power consumption of the mobile phone. In addition to the cause of the problem, it was difficult to implement a frequency band with a long resonance length in a mobile phone having a narrow antenna space.

Therefore, the present invention has been made to solve the above problems, an object of the present invention is to form a mobile phone case in which a second region formed of ABS for plating on a first region formed of plastic is formed by double injection, Since the radiator is formed by plating with a conductive material (copper, nickel, gold, silver) in the second area, the volume of the antenna can be maximized in the limited space inside the mobile phone, and the radiator is controlled by the permittivity of the second area. An object of the present invention is to provide a miniaturized antenna having a longer resonance length than a radiator of the same size.

In order to achieve the above object, the integrated internal antenna according to an embodiment of the present invention is a cell phone case and the cell phone forming a first region made of a non-plating material and a second region made of a plateable material by double injection. A radiator plated with a conductive material on the second region of the case, a feeder formed on one surface of the radiator to feed a signal, and a ground portion formed to be spaced apart from the feeder at predetermined intervals to ground the signal; do.

According to an embodiment of the present invention, the material of the second region is characterized in that the ABS for plating.

According to an embodiment of the present invention, the radiator is formed in a rectangular shape, and one surface of the rectangle is formed with a first radiator operated in a first frequency band and a second radiator operated in a second frequency band by opening at a predetermined interval. It is done.

According to an embodiment of the present invention, the first frequency band is characterized in that the GSM band.

According to an embodiment of the present invention, the second frequency band is characterized in that the DCS band.

According to an embodiment of the present invention, the radiator is formed of copper and nickel.

According to another embodiment of the present invention, the first step of forming a mobile phone case in which a first region made of a non-plating material and a second area made of a material capable of plating is formed by double injection and plating the mobile phone case. And a third step of forming a radiator in the second region and a third step of forming a feeder and a short circuit in the radiator.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram illustrating an integrated internal antenna according to an embodiment of the present invention, in which a first region 110 made of a non-plating material and a second region 120 made of a material which is plateable are applied to a double injection. A power supply unit formed on one surface of the radiator 200 and the radiator 200 plated with a conductive material on the mobile phone case 100 and the second region 120 of the mobile phone case 100 and feeding a signal. And a ground portion 400 formed to be spaced apart from the class 300 and at a predetermined interval to ground the signal.

More specifically, the first region 110 of the mobile phone case 100 is formed of a plastic material that is not plated.

In addition, the second region 120 of the mobile phone case 100 is formed of a material of plating ABS that can be plated so as to be stacked on the first region 110 in a predetermined pattern.

In particular, when the second region 120 of the mobile phone case 100 has a specific dielectric constant and is formed on the lower surface of the radiator, and the size of the radiator 200 is the same, the radiator 200 is formed by the dielectric constant of the second region 120. By increasing the resonant length of), it can contribute to the final miniaturization of the antenna.

In addition, if the size of the antenna is fixed and the resonance length needs to be long, the resonance length may be further increased by using a material having a high dielectric constant as the material of the second region 120.

The radiator 200 is formed of any one material of copper, nickel, gold, and silver, and the radiator 200 is formed in a rectangular shape, and one surface of the rectangular shape is opened at a predetermined interval so that the first frequency band GSM ( Global System for Mobile communication: The first radiator 210 is operated in the 880 ~ 960 ㎒) band and the second radiator 220 is operated in the DCS (Digital Communication System: 1,710 ~ 1,880 MHz) band of the second frequency band It works with each.

The power supply unit 300 is formed on one side of the radiator 200 to feed a signal supplied from the outside to the radiator 200.

The ground part 400 is formed on the radiator 200 to be spaced apart from the power supply part 300 at a predetermined interval to ground a signal.

3 is a detailed view of the integrated internal antenna according to FIG. 2 of the present invention, in which a radiator 200 formed of a conductive material is plated on a second region 120 of a mobile phone case 100 of the power supply unit 300. The location is divided into a first radiator 210 operating in the GSM band and a second radiator 220 operating in the DCS band, and simultaneously operate in each frequency band.

4 is a flowchart illustrating a method of manufacturing an integrated antenna according to another embodiment of the present invention, in which a first region 110 made of a non-plating material and a second region 120 made of a material which is plateable are shown. First step S10 of forming the formed mobile phone case 100 by double injection and second step S20 of forming the radiator 200 in the second area 120 by plating the mobile phone case 100. ) And a third step S30 of forming a feed part 300 and a short circuit part 400 in the radiator 200.

More specifically, the first step S10 is a mobile phone in which a first region 110 made of a non-plating material (plastic) and a second region 120 made of a material capable of plating (plating ABS) are formed. It is shown that the case 100 is formed by double injection.

In the second step S20, copper is plated on the second region 120 of the mobile phone case 100 formed in the first step S10, and nickel is plated on the upper surface of the copper to form the radiator 200. It shows.

In the third step S30, a feeder 300 for feeding a signal supplied from the outside to the radiator 200 is formed at one side of the radiator 200 formed in the second step S20, and the feeder The radiator 200 spaced apart from the 300 at a predetermined interval shows that the ground unit 400 for grounding a signal is formed.

The present invention has been described in detail so far, but the embodiments mentioned in the process are only illustrative and are not intended to be limiting, and the present invention is provided by the following claims and the technical spirit and field of the present invention. Within the scope not departing from the scope of the present invention, changes in the components that can be coped evenly will fall within the scope of the present invention.

 As described above, the present invention forms a mobile phone case in which a second region formed of ABS for plating is laminated on a first region formed of plastic by double injection, and a material (copper, nickel, Gold, silver) to form a radiator, which has the effect of maximizing the volume of the antenna in the limited space inside the mobile phone, and the radiator has a longer resonance length than the radiator of the same size due to the dielectric constant of the second region. It has the effect of providing a miniaturized antenna, using the inner surface of the mobile phone case to secure the optimum volume that the antenna can have, as well as the cost savings by the simple process without additional parts.

Claims (7)

A mobile phone case for forming a first region made of a non-plating material and a second region made of a plateable material by double injection; A radiator plated with a conductive material on the second region of the mobile phone case; A feeder formed on one surface of the radiator to feed a signal; And The integrated internal antenna is formed to be spaced apart from the power supply at a predetermined interval to ground the signal. The method according to claim 1, The integrated region of claim 2, wherein the material of the second region is ABS for plating. The method according to claim 1, And the radiator is formed in a rectangular shape, and one surface of the rectangle is opened at predetermined intervals, and includes a first radiator operated in a first frequency band and a second radiator operated in a second frequency band. The method according to claim 3, And said first frequency band is a GSM band. The method according to claim 3, And said second frequency band is a DCS band. The method according to claim 3, The radiator is an integrated internal antenna, characterized in that formed of copper, nickel, gold and silver. A first step of forming a mobile phone case having a first region made of a non-plating material and a second region made of a material capable of plating by double injection; A second step of forming a radiator in the second area by plating the mobile phone case; And And a third step of forming a feeding part and a shorting part in the radiator.

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