SE518988C2 - Built-in multi-band multi-antenna system for mobile telephone has high impedance block placed between two closely situated antennas - Google Patents

Abstract

The antenna system (1) has a main antenna (2) comprises a dual band Planar Inverted-F Antenna (PIFA) with GSM (4), DCS (5) and parasitic PCS (6) sections. The main and Bluetooth (RTM) (3) antennas are printed close together on the same flexible substrate. The parasitic part acts as a high impedance block between the antennas. The antenna system is connected to radio circuitry via electrical feeding. The parasitic PCS section is resonant at 1900 MHz, about 1/4 wavelength.

Description

20 25 30 518 988 2 ~ ø u u n o. n. .. othni antenna has been found in the market along with such an antenna in a mobile phone.

Thus, the known antennas operate on only two frequency bands, and a Bluetoothm antenna is not included.

Summary of the Invention It is an object of the present invention to provide a very compact multiband, multi-antenna system with a cheap and sophisticated mechanical concept to obtain good insulation by suitable design of a parasite element as a high impedance block.

The object of the present invention is fulfilled by means of an antenna system according to the appended independent patent claim.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of a preferred embodiment, from the accompanying drawings as well as from the subclaims.

Brief Description of the Drawings A present exemplary embodiment of an antenna system according to the present invention will now be described in more detail with reference to the accompanying drawings, in which: Fig. 1 is a schematic perspective view of the antenna system, Fig. 2 is a schematic side view of the antenna system , shown in Fig. 1, Fig. 3 is a schematic perspective view of a mobile telephone with an antenna carrier and an antenna connection for the antenna system in Figs. 1 and 2, Fig. 4 corresponds to Fig. 3 with the antenna system in Figs. 1 and 2 in a folded state Fig. 5 shows the folded antenna system of Fig. 4 together with the antenna connection mounted on a printed circuit board, Fig. 6 is a loss diagram of a main antenna and a Bluetooth antenna, which are included in the antenna system, Fig. 7 illustrates the insulation between the two antennas in Fig. 6, Fig. 8 is a dimensioned drawing of a preferred embodiment of antenna system. system, and FIGS. 9-12 are alternative embodiments of the antenna system of the invention.

Detailed Description A simplified illustration of the antenna system 1 according to the invention is shown in Figures 1 and 2. The antenna system has a main antenna 2 for GSM / DCS / PCS and a separate, smaller Bluetootnm antenna 3, which is located very close to the main antenna 2. As shown in Fig. 2, the antennas are folded and occupy a first plane, in which the main part of the antenna pattern is located, a second plane, which is perpendicular to the first plane and a third plane, which is perpendicular to the second plane and parallel to the first planet.

The main antenna 2 is a built-in patch antenna with a parasite element, the smaller Bluetootnm antenna 3 being a PIFA, which, however, is slightly bent to fit in the small, accessible space. The combination of the antennas, their individual placement and the folding together with the electrical connection are remarkable properties.

A significant advantage of the antenna system of the present invention is the size reduction obtained by placing the antennas close together as well as the folding of the antenna patterns.

The main antenna 2 comprises a dual band PIFA antenna with a GSM part 4 and a DCS part 5. In addition, the main antenna 2 comprises a parasitic PCS part 6. The main antenna 2 and The Bluetooth PIFA antenna 3 is printed on the same flexible substrate (not shown in the drawings) and together form a flexible film.

The metal path of the parasitic PCS part 6 is located between the main antenna 2 and the Bluetoothm antenna 3. It is resonant at PCS 1900 MHz, approximately one M wavelength and will act as a high impedance block between the main antenna 2 and the Bluetooth antenna 3.

By arranging the antennas in this way, it is possible to reduce the overall size of the antenna system compared to if the parasite element was not included. It is understood that by moving the antennas apart, which would be necessary in the absence of the parasitic element, oth “The antenna increase. The isolation between the main antenna and the Blueto antenna system 1 would have five connection paths 7a-7e, all of which are located on the third plane. Of these connection ("Ground #1") and a feed path 7b ("Feed # 1") for the GSM part 4 and feed paths, the main antenna 2 has a ground path 7a the DCS part 5. The parasitic PCS part 6 has only one ground path 7c ("Earth # 2"), the Bluetooth antenna 3 having an earth path 7d ("Earth # 3") ("Feed # 2"), as shown in FIG. between size and performance. By widening the tracks, a better performance is obtained. However, wider feed paths result in an increased size of the antenna system.

As shown in Fig. 2, the antenna system 1 is connected (Fig. 5) risk supply 8. As can be seen from Figs. 3-5, it is to radio circuits on a circuit board 13 via an electrical measurement 8 in the form of an antenna connection 11, which is mounted on the circuit board 13 and includes a group of five pogo pins ("Pogo pins") 12 (one for each connection path 7a-7e). 10 15 20 25 30 ooooou n n nn n o en vu nu ou-. vu I u n n I u. cnv 1 nv nu uvnrn ~ aaannoofuuo un: nun fqoaouvaapo nu ou 1 an nsnsnuup A uouu »- no u: ou .o In a preferred embodiment, the flexible film with the antenna system 1 is placed on a plastic antenna carrier 9, which will hold the film. in the correct position with respect to the circuit board 13. Fig. 3 illustrates the antenna carrier 9 together with the antenna connection 11 and the main side of the mobile telephone 10.

The material used for the antenna carrier will affect the performance of the antenna. This is because the antenna carrier will act as a dielectric load, which changes the resonant frequency of the antennas slightly. A lossy material, ie a material with a high dielectric constant, ("Voltage Standing Wave Ration, VSWR") more bandwidth, but will at the same time provide one will provide a better standing wave ratio and thus a wider antenna gain. As mentioned above, the antenna carrier is made of plastic in a preferred embodiment.

However, other materials, such as ceramics, mica or glass, can also be used as carrier material depending on the desired functional properties of the antenna system.

Fig. 4 illustrates the base of the antenna system 1 in the unfolded state in a plane above the antenna carrier 9. The antenna connection 11 with its pogo pins 12 is shown below the antenna carrier 9.

Fig. 5 again illustrates the antenna system 1 in the unfolded state above the antenna connection 11 and the pogo pins 12. The only circuit board 13 is also shown.

Fig. 6 shows the reflection losses of the main antenna 2 and the Bluetoothm antenna 3. It can be seen that the antennas are tuned (designed) to operate at slightly too high frequencies. This is done to compensate for losses, which are introduced by the plastic casing and the rest of the mechanisms below.

Fig. 7 illustrates the insulation between the two antennas in Fig. 6. Obviously the insulation is very good, even now one. _. _ .oo. us: 518 988 6 0. '. . . 'I I I OO in the highest band, despite the short distance between the antennas.

Fig. 8 is a dimensioned drawing of the presently preferred embodiment of the antenna system.

Finally, Figures 9-12 illustrate four alternative embodiments of the antenna system according to the invention. As can be seen from the figures, different parts of the antenna system may look different depending on, for example, the available space inside the portable communication unit.

The invention has been described above with reference to a presently preferred embodiment. However, embodiments other than those described above, as well as many modifications, variations, and equivalent devices, are possible within the spirit of the invention as defined by the appended independent claim.

Claims (9)

10 15 20 25 30 35 518 988 v PATENTKRAV Built-in, multi-band, multi-antenna system (1) for a portable communication unit (10), comprising, in combination: a first antenna (2, 4, 5), which is resonant in a first and a second frequency band, a parasitic element (6 ), which is located next to the first antenna, which is resonant in a third frequency band, and a second antenna (3), which is resonant in a fourth frequency band, the first antenna, the parasite element and the second antenna being arranged on a common flexible substrate. Antenna system according to claim 1, wherein the first antenna (2, 4, 5) and the second antenna (3) are PIFA antennas » Antenna system according to claim 2, wherein the first antenna (2, 4, 5) has a first feed path (7b) and a first earth path (7a), the parasite element (6) has a second earth path (7c), and the second antenna ( 3) has a second feed path (7e) and a third earth path (7d). An antenna system according to claim 3, wherein the first antenna (2, 4, 5) has a GSM part (4) and a DCS part (5), the parasitic element operates in the PCS band, and the second antenna (3) is and Bluetooth ”antennas. Antenna system according to any one of the preceding claims, wherein the parasite element (6) is placed between the first antenna (2, 4, 5) and the second antenna (3) for 10 15 20 25. . . . . .. ...... ": 518 9888 .no o» to provide a high impedance block between the antennas. An antenna system according to any one of the preceding claims, further comprising an antenna carrier (9), on which the common flexible substrate is provided in a weight distribution. A portable communication device (10) comprising a circuit board (13), an antenna system (1) according to any one of claims 1-6, characterized by and an antenna connection (11) for connecting the antenna system to the circuit board (13). A portable communication unit according to claim 7, the antenna system (1) as defined in claim 3, wherein the antenna connection (11) comprises a group of five pogo pins (12), each of which is aligned with each of (7a) ), the second ground path (7c), the second feed path (7e) and the first feed path (7b), the first ground path the third ground path (7d). A portable communication device according to claim 7 or 8, wherein the device is a mobile telephone.