KR20060100721A - Antenna for receiving or transmitting multi-frequency and mobile communication terminal having thereof - Google Patents

Abstract

The present invention relates to a multi-frequency transmit and receive antenna and a mobile communication terminal having the antenna. According to the present invention, there is provided a multi-frequency transmit / receive antenna comprising: a basic body having two or more sides; A plurality of antenna patterns each independently formed on a first face of at least one face of the facets of the base body and at least one second face other than the first face of facets of the face of the base face; It has a plurality of feeding lines electrically connected one-to-one with the antenna pattern. Therefore, the present invention has an effect that can be optimized for a plurality of frequencies and antenna characteristics to transmit and receive each antenna pattern.

Mobile communication terminal, built-in antenna, multi frequency, multi band, feeding line

Description

Antenna for Receiving or Transmitting Multi-frequency and Mobile Communication Terminal

1 is a perspective view of a multi-frequency transmitting and receiving antenna according to an embodiment of the present invention.

2 is a circuit diagram of a multi-frequency transmit and receive mobile communication terminal according to another embodiment of the present invention.

3 is a block diagram illustrating components of the switch of FIG. 2.

<Description of the symbols for the main parts of the drawings>

10: built-in antenna 12: basic body

14: first antenna pattern 16: second antenna pattern

18: first feeding line 20: second feeding line

100: mobile communication terminal 102: switch unit

103: switching signal generation unit 105: first transmission and reception unit

106: second transmitting and receiving unit 108: key input unit

The present invention relates to a multi-frequency transmit and receive antenna and a mobile communication terminal having the antenna.

According to the multifunctionality of the frequency transceiver of the mobile communication terminal, especially the built-in antenna, cellular frequency (800 ~ 900MHz) and PCS frequency (1800 ~ 1900MHz), GPS satellite signal, AM / FM radio signal, broadcast signal, etc. There are many multiband internal antennas capable of transmitting and receiving all RF frequencies.

However, since the conventional multi-band internal antenna forms only one antenna pattern and one feeding line or feeding structure in the base body, there is a problem in that the size of the frequency band of the multi band or the characteristics of the antenna cannot be adjusted. That is, when the antenna pattern is formed in accordance with the high frequency characteristics, low frequency characteristics are inferior. On the contrary, when the antenna pattern is formed in accordance with the low frequency characteristics, the high frequency characteristics are inferior.

In addition, the conventional multi-band embedded type has a problem that adversely affects not only the shape of the pattern, but also the antenna characteristics or antenna design according to the characteristics of the frequency used.

An object of the present invention for solving the problems of the prior art, to provide a multi-frequency transmitting and receiving antenna that can be optimized for a plurality of frequencies and antenna characteristics to transmit and receive each antenna pattern and a mobile communication terminal having the antenna will be.

In addition, another object of the present invention is to provide a multi-frequency transmission and reception antenna and a mobile communication terminal having the antenna that can be modified in a variety of antenna patterns to optimize a plurality of frequencies and antenna characteristics.

The present invention for achieving the above object, and the base body having two or more sides; A plurality of antenna patterns each independently formed on a first face of at least one face of the facets of the base body and at least one second face other than the first face of facets of the face of the base face; Provided is a multi-frequency transmit / receive internal antenna having a plurality of feeding lines electrically connected one-to-one with an antenna pattern.

In this case, the surface may be a six-sided surface, the first surface may be an upper surface of the six-sided surface, the second surface may be any one of four side surfaces, and two feeding lines may be formed on the second surface.

In yet another aspect, the present invention provides an integrated antenna as described above; A switch unit for switching a plurality of frequencies transmitted and received from the internal antenna; At least one transceiver for transmitting and receiving a plurality of signals switched from the switch unit; A controller for controlling a plurality of signals according to a plurality of frequencies; Provided is a multi-frequency transmitting and receiving mobile terminal having a keypad.

In yet another aspect, the present invention provides an integrated antenna as described above; A switch unit for switching two frequencies transmitted and received from the internal antenna; At least one transceiver for transmitting and receiving two signals switched from the switch unit; A control unit capable of controlling two signals according to two frequencies; Provided is a multi-frequency transmitting and receiving mobile terminal having a keypad.

In this case, the switch unit may be an antenna switching module having two antenna terminals, two voltage control terminals, and two transmission and reception terminals, respectively, and adds a switching signal generator for generating and providing a control voltage to the two voltage control terminals. You can have

Meanwhile, two frequency bands may be 800 to 900 MHz and 1800 to 1900 MHz, respectively, and the keypad may further include a frequency selection mode or a selection button for controlling whether the control voltage of the switching signal generator is generated.

In addition, the built-in antenna may be an F antenna.

Hereinafter, a mobile communication terminal according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a multi-frequency transmission and reception antenna according to an embodiment of the present invention.

Referring to FIG. 1, a multi-frequency transmit / receive internal antenna 10 according to an embodiment of the present invention is an F-type antenna, including a basic body 12, first and second antenna patterns 14 and 16, and a first antenna. And a first and second feeding ling 18, 20, and a ground electrode 22.

The basic body 12 is a rectangular parallelepiped and is dielectric material, such as ceramic and resin which have dielectric constants 1-200. The base body 12 serves as a body in which the antenna pattern is formed and relatively insulates the first and second antenna patterns 14 and 16 and the first and second feeding lines 18 and 20.

The first antenna pattern 14 forms an antenna pattern capable of electromagnetically transmitting and receiving the first frequency F ₁ in the 800 to 900 MHz band on the upper surface of the base 12.

The second antenna pattern 16 forms an antenna pattern capable of electromagnetically transmitting and receiving the second frequency F ₂ in the 1800 to 1900 MHz band on one side of the base 12. As a result, an upper surface and a side surface of the base 12 having the first antenna pattern 14 and the second antenna pattern 16 are formed at right angles. Since the first antenna pattern 14 and the second antenna pattern 16 are formed on the other surface of the base body 12, the shapes, shapes, and characteristics of the patterns 14 and 16 are optimized according to the characteristics of the frequencies to be transmitted and received. It can also contribute to diversification of the pattern and characterization of the antenna.

The first feeding line 18 is formed on the side of the base 12 on which the second antenna pattern 16 is formed. The first feeding line 18 is made of metal such as silver (Ag), copper (Cu), an alloy of silver and palladium (Ag / Pd), and the like. The first feeding line 18 serves to electrically transfer the first frequency transmitted and received electromagnetically by the first antenna pattern 14 to the frequency switch 102.

The second feeding line 20 is formed on the side of the base 12 on which the first feeding line 18 is formed. Therefore, the second antenna pattern 16, the first feeding line 18 and the second feeding line 20 are formed on the side of the same basic body. Meanwhile, the second feeding line 20 is preferably the same metal material as the first feeding line, but may be another metal material.

The ground electrode 22 is an electrode connected to the ground, and is a general metal material such as silver (Ag), copper (Cu), an alloy of silver and palladium (Ag / Pd).

2 is a circuit diagram of a multi-frequency transceiving mobile communication terminal according to another embodiment of the present invention, and FIG. 3 is a block diagram of components of the switch of FIG.

Referring to FIG. 2, the multi-frequency transmit / receive mobile communication terminal 100 according to another embodiment of the present invention includes the multi-frequency transmit / receive internal antenna 10, the switch unit 102, and the switching signal generator 103. And first and second transmission / reception units 104 and 105, a control unit 106, and a keypad 108. Although general components of other mobile communication terminals are partially illustrated in FIG. 2, detailed descriptions thereof will be omitted.

The switch unit 102 separates and transmits the signals to / from the transceivers 104 and 105 according to a band of a plurality of frequencies electromagnetically received and transmitted from / to the internal antenna 10.

Referring to FIG. 3, the switch unit 102 includes two antenna terminals 110 and 112, two voltage control terminals 114 and 116, and first and second frequency transmission and reception terminals 118, 120, 122, 124 with an antenna switching module.

The two antenna terminals 110 and 112 are electrically connected to the first and second feeding lines 18 and 20, respectively. The two voltage control terminals 114 and 116 electrically receive the voltage control signals V _C1 and V _C2 . The first and second transmit / receive terminals 118, 120, 122, and 124 are electrically connected to the first frequency transceiver 104 and the second frequency transceiver 105, respectively.

The two antenna terminals 110 and 112 are connected to the first transmission and reception terminals 118 and 122 by the voltage control signals V _C1 and V _C2 applied to the voltage control terminals 114 and 116. , 124). As a result, the first and second frequencies may be transmitted and received by the voltage control signals V _C1 and V _C2 .

Referring back to FIG. 2, the switching signal generator 103 generates voltage control signals V _C1 and V _C2 that determine frequencies to be transmitted and received by the switch 102.

The first and second transmitter / receivers 104 and 105 transmit and receive the first frequency or the second frequency selected from the switch 102, respectively. Since the first and second transmitter / receivers 104 and 105 are the same as those of the normal transceiver, description thereof is omitted.

The control unit 106 controls all components of the mobile communication terminal according to the transmission and reception signals of the first and second transmission and reception units 104 and 105.

The keypad 108 is the same as a general keypad except that a mode or a button for determining a voltage control signal (V _C1 , V _C2 ) of the switching signal generator 103 is included. A specific mode (frequency selection mode) by the button operation of 108 or a specific button of the keypad 108, for example, an asterisk (*) or a well sperm (#) is pressed, so that the first frequency and the second frequency may be selected. Finally, the control unit 106 controls the switching signal generator 103 by a specific button operation of the keypad 108 so that the switching signal generator 103 controls the voltage control terminals 114 and 116 of the antenna switching module 102. And selectively generate voltage control signals (V _C1 , V _C2 ).

In the above, an embodiment of the present invention has been described with reference to the drawings, but the present invention is not limited thereto.

The mobile communication terminal 100 according to an embodiment of the present invention is not only a folder type mobile communication terminal, but also a bar type, a flip type, a sliding type, a rotating type, It can also be applied to a combination type mobile communication terminal.

In the above embodiment, the internal antenna 100 is described as being an F antenna, but a slot type antenna (Microstrip Slot Antenna), a ring antenna (Microstrip Ring Antenna), an aperture coupling antenna (Microstrip Aperture Array Antenna), stripline type Microstrip patch antennas, such as Microstrip Stripline Antennas, Microstrip antennas such as Inverted F Antennas, Surface Mount Antennas (SMDs), Single Microwave Integrated Circuit Antennas (MMICs), Modified It includes all types of built-in antennas, including various built-in antennas.

In the above embodiment, the base body 12 is a hexahedron, and the first feeding line 14 is described as being formed on the upper surface, the second feeding line 16 is formed on the side, the base body may be a multi-sided, the first feeding The line and the second feeding line may be formed on any of the faces. Meanwhile, whether the basic body is a cube or a polyhedron, an antenna pattern may be formed on as many planes as the number of frequencies to be transmitted and received to transmit and receive a plurality of frequencies electromagnetically.

In the above embodiment, it has been described that the control signal (V _c1 , V _c2 ) is generated in the switching unit 102 in the switching signal generation unit 103 by the manipulation of the keypad 108, but the control in the switch unit 102 It can also select the frequency bands transmitted and received without voltage automatically.

In the above embodiment, it has been described that there are two transceivers 104 and 106 corresponding to two frequencies. However, one transceiver may process two frequencies. Of course, if a plurality of frequencies can be transmitted and received may have a plurality of transceivers or a single integrated receiver.

In the above embodiment, the frequency bands to be transmitted and received are described as 800 ~ 900MHz, and 1800 ~ 1900MHz, but may include all RF frequencies, such as GPS satellite signals, AM / FM radio signals, broadcast signals, ham signals as well as these. . In order to maximize a plurality of frequency characteristics, a larger difference in frequency bands is preferable. For example, transmitting and receiving AM radio signals (500 to 900 KHz) and PCS signals (1800 to 1900 MHz) can maximize both frequency characteristics.

As described above, the present invention forms a plurality of antenna patterns on two or more different surfaces of the multi-faceted basic body and forms a plurality of feeding lines, so that each antenna pattern can be optimized for a plurality of frequencies and antenna characteristics to transmit and receive each antenna pattern. It can be effective.

In addition, the present invention may further modify the antenna pattern to optimize a plurality of frequencies and antenna characteristics.

Claims (8)

A base having two or more sides; A plurality of antenna patterns each independently formed on a first surface of at least one surface of the surface of the base body and at least one second surface of the surface of the base body other than the first surface; And a built-in multi-frequency transmit / receive antenna having a plurality of feeding lines electrically connected one-to-one with the antenna pattern. The method of claim 1, The multi-sided surface is a six-sided surface, the first surface is the upper surface of the six surface, the second surface is any one of four sides, the two feeding lines are formed on the second surface antenna. A built-in antenna of claim 1; A switch unit for switching a plurality of frequencies transmitted and received from the built-in antenna; At least one transceiver for transmitting and receiving a plurality of signals switched from the switch unit; A controller for controlling a plurality of signals according to a plurality of frequencies; Multi-frequency transmitting and receiving mobile terminal with a keypad. The method of claim 3, wherein The surface of the built-in antenna is a six-sided surface, the first surface is the upper surface of the six surface, the second surface is any one of four sides and the two feeding lines are formed on the second surface, The switch unit switches two frequencies transmitted and received from the built-in antenna, The transceiver unit transmits and receives two signals switched from the switch unit, The control unit is a multi-frequency mobile communication terminal having a keypad, characterized in that for controlling two signals according to two frequencies. The method of claim 4, wherein The switch unit is an antenna switching module having two antenna terminals, two voltage control terminals, and two transmission and reception terminals, respectively. And a switching signal generator for generating and providing a control voltage to the two voltage control terminals. The method according to claim 4 or 5, Multi-frequency transmitting and receiving mobile communication terminal, characterized in that the band of the two frequencies are 800 ~ 900MHz, and 1800 ~ 1900MHz, respectively. The method of claim 5, The keypad further includes a frequency selection mode or selection button for controlling whether the control voltage generation of the switching signal generation unit. The method of claim 6, The built-in antenna is a multi-frequency mobile terminal, characterized in that the F antenna (F antenna).

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