SE525359C2 - The multiband antenna - Google Patents

Abstract

A multiband antenna for a mobile telephone has an earth plane (1) with a first section (4) which is discrete and separate in RF terms from a second section (5). An antenna pattern (2) is designed for resonance in one upper and one lower frequency range and is disposed a distance from the first section of the earth plane (1) on a carrier (12) of electrically insulating and non-magnetic material. The configuration and size of the carrier (12) coincide approximately with those of the first section (4) of the earth plane. Both sections of the earth plane are, in DC terms, connected to one another via an inductance (9). The interior space in the carrier or between the carrier and the first section (4) of the earth plane (1) is utilised for mounting electric components that use the first section of the earth plane as DC return.

Description

25 30 35 40 525 359 THE DRAWING The invention will now be described in more detail with reference to the accompanying drawing, which in perspective shows the connecting antenna according to the invention.

PREFERRED EMBODIMENT The description, which will be given below of the object of the invention, will give position and direction indications. In the first place, these refer to the så clock so that, for example, a "front" side is a side, which is facing the viewer of the uren clock.

The band antenna, which will be described in detail below, can be manufactured with a very small space requirement, approx. 3.5 cm3. Furthermore, it can be considered as a broadband dual band antenna or as a four-band antenna which can operate at least between the frequencies 825 and 960 MHz in a lower frequency range and at least between the frequencies 1.71 and 1.99 GHz in an upper frequency range. These frequencies correspond to GSM 850 and 900 as well as DCS and PCS, respectively. If the antenna is considered a broadband dual band antenna, the bandwidth is in the order of 15% within each of the frequency ranges.

In the figure, reference numeral 1 denotes a ground plane in its entirety, reference numeral 2 an antenna pattern and reference numeral 3 an RF generator. The ground plane 1 is arranged on a circuit board for the mobile telephone, which circuit board is usually stored so that it has conductive layers on both the front and back. The circuit board can also be double-sided. The ground plane 1 is divided into a first portion 4 and a second portion 5. The two portions of the ground plane are electrically separated from each other via a slot 6, which is continuous through the electrically conductive layer of the circuit board both on the front and the back. Suitably the back and front of the circuit board are electrically joined to each other within each of the first portion 4 and the second portion 5. Such a connection between the front and back of the circuit board can be achieved, for example, by plating.

The second portion 5 of the ground plane 1 constitutes both DC-wise and RF-wise earths for the mobile telephone. The drawing shows that the RF generator 3 is grounded via a line 7 in a grounding point 8 on the second portion 5 of the ground plane 1.

The first portion 4 of the ground plane 1 is only DC-like ground and gets its ground potential via an inductance 9, which intersects at RF frequencies between the two parts. Preferably, the inductance 9 is connected to the portions 4 and 5 of the ground plane on the back side of the ground plane 1, i.e. the side facing away from the antenna pattern 2.

The antenna pattern 2 has a high frequency part 10 and a low frequency part 1 1.

According to the invention, the antenna pattern 2 is arranged in its entirety on a carrier 12, which in the embodiment shown is made of an electrically insulating and non-magnetic material, for example a suitable plastic material. If an insulating material is chosen whose dielectric constant> 1, this means that the physical dimensions of the antenna pattern 2 can be reduced. The carrier 12 has in its main embodiment the geometric shape of a substantially parallelepiped box, which in a practical embodiment can have the approximate dimensions 35 x 17 x 6 mm. The box has an open back side, which thus faces the 1Gets card 1 and more specifically its first portion 4. The open side of the box coincides approximately in terms of origin and size with the first portion 4 of the ground plane 1.

The drawing shows that the slot 6 is located only insignificantly below the lower side of the carrier.

Furthermore, the drawer has a front side, which is closed and which can thus be said to be the bottom of the drawer. The upper and lower sides of the box are also closed and form long sides, while its end surfaces, which are also closed, have a significantly smaller height than the length of the long sides.

In alternative embodiments, the shape of the box may be adapted to the shape of the housing in which the antenna device is housed, so that, for example, one or some of its limiting surfaces are more or less arched. The corners can also be more or less rounded.

The low frequency part 11 of the antenna pattern 2 is located on the outside of the substantially flat and closed side of the box, i.e. its front or bottom. The high frequency part 10 is located on an upper long side of the box and is therefore located on the side of the box which is turned away from the second part 5 of the ground plane 1. The antenna pattern 2 can in its entirety be produced by so-called MID technology (Molded Interconnected Device), but can also consist of an fl ex-film or other electrically conductive layer arranged on the box.

In an alternative embodiment, the high-frequency part of the antenna pattern 2 can also be arranged on the outside of the bottom of the box 12.

The box-shaped carrier 12 together with the first portion 4 of the sound card forms a closed space, which can be used for mounting various components in the mobile telephone since the first portion 4 of the ground plane 1 is only DC earth. Preferably, this enclosed space can be used as a resonant box for a speaker included in the mobile telephone.

The low frequency part 11 of the antenna pattern 2, which is arranged on the outside of the closed bottom of the box, has a feed section 13, an intermediate section 14, which is the main radiator, and a top section 15, which has the function of capacitive top load to the intermediate section. Both the feed section 13 and the top section 15 are in the form of electrically conductive surfaces arranged on the carrier which in height cover the entire height of the carrier and which extend from the opposite short sides of the carrier some distance into the flat fi side of the carrier. The intermediate section 14 is formed as a meander formation on the flat front of the carrier and is galvanically connected to both the feed section 13 and the top section 15.

As a result, the intermediate section can be given an electrical length which is greater than its physical length.

The high frequency part 10 of the antenna pattern 2 is, as mentioned above, preferably located on the upper side of the box-shaped carrier and is in the form of an elongate, strip-shaped conductor 16 which at one end has a widened portion 17, which is galvanically connected to the upper edge 18 and which can be made in the same piece as this.

The length of the strip-shaped conductor 16 determines the resonant frequencies in the two upper frequency bands. If necessary, the strip-shaped conductor 16 can be given such a length that its outer, free end is folded around the edge 19 and extends down to some extent on the end surface of the box-shaped carrier 1.

The main part of the length of the low-frequency part 11 of the antenna pattern consists of the meander-shaped intermediate section 14, which means that the need for physical space is reduced. The capacitive peak load, which constitutes the peak section 15, further contributes to the fact that the low-frequency part II can be made physically shorter than its electrical length and that a well-defined termination is obtained.

The antenna pattern 2 has a feed point 20 and a ground point 21. The ground point and the feed point are located at diagonally opposite corners of the feed section 13, which in the embodiment shown is rectangular to the form. The rectangular shape means that there are great possibilities for selectively placing the feed point 20 and the ground point 21. The ground point 21 is connected via an inductance 22 to the second portion 5 of the ground plane 1.

The mutual position of the supply point 20 and the ground point 21 10 01 PO 0 "! 5 determines the supply impedance of the antenna. By suitable placement of these two points, the antenna can be adapted to the impedance of the mobile telephone, usually about 50..

The intermediate section 14 of the antenna pattern is connected to the feed part 13 in the vicinity of the upper edge 18 of the feed section 13, whereby this connection point and the ground point 21 are located at opposite end areas of this edge line.

Claims (10)

10 15 20 25 30 35 40 525 359 6 PATENT REQUIREMENTS A multi-band antenna for a portable terminal device, such as a mobile telephone, comprising: a ground plane (1) with a first portion (4) and a second, from the first portion (5) separated from a slot (6), an antenna pattern ( 2) arranged at the first portion of the ground plane, characterized in that the first (4) and second (5) portions of the ground plane (1) are RF-separated, that the antenna pattern (2) is arranged on a carrier (12) of electrically insulating and non-magnetic material, and that the antenna pattern (2) is arranged at some distance from the first portion (4) of the ground plane (1). 2. A multi-band antenna according to claim 1, characterized in that the first (4) first (4) and its second (5) portions of the ground plane are DC-connected via an inductance (9). Multi-band antenna according to claim 1 or 2, characterized in that the carrier (12) and the first portion (4) of the ground plane (1) together form an enclosed space, useful as a resonant volume for a loudspeaker arranged in the mobile telephone. Multi-band antenna according to one of Claims 1 to 3, characterized in that the antenna pattern (2) has a first part (11) arranged for the resonance in the lower frequency range and a second part (10) arranged for the resonance in the higher frequency range. the frequency range, the first part (1 1) having a feed section (13), an intermediate section (14) and a top section (15), which sections are galvanically connected in series with each other. Multi-band antenna according to claim 4, characterized in that the feed section (13) has the shape of an electrically conductive surface arranged on the carrier (12) with a feed point (20) for RF feeding, a ground point (21), which via an inductance (22) is connected to the second portion (5) of the ground plane (1) and a connection point (23) for connection to the intermediate section (14). 10 15 20 25 30 \ l Multi-band antenna according to claim 4 or 5, characterized in that the intermediate section (14) comprises an electrically conductive meander formation, which is arranged with its windings on the carrier (12) and which with one end is connected to the connection point of the supply section (13). (23) while the other end is connected to the top section (15). Multi-band antenna according to one of Claims 4 or 6, characterized in that the top section (15) has the shape of an electrically conductive surface arranged on the carrier (12) with a connection point to which the meander formation is connected. - A multi-band antenna according to any one of claims 4-7, characterized in that the second part (10) of the antenna pattern (2) is arranged on a long side of the carrier (12) which long side is turned away from the second portion (5) of the ground plane (1). ). Multi-band antenna according to claim 8, characterized in that the second part (10) of the antenna pattern is an elongate conductor (16), which is connected to the supply section (13) at its face from the second portion (5) of the ground plane (1). edge (18). Multi-band antenna according to one of Claims 5 to 9, characterized in that the feed point (20) and the connection point (23) are located at opposite ends of an edge of the feed section (13) located close to the intermediate section (14). Multi-band antenna according to one of Claims 5 to 10, characterized in that the earthing point (21) and the connection point (23) are located at opposite end regions of an edge line (18) facing away from the second portion (5) of the ground plane (1). of the feed section (13).