SE514842C2 - Double band antenna device and antenna unit - Google Patents

Abstract

The present invention relates to a multiple frequency band antenna means for transmitting and/or receiving RF signals. The antenna means comprising a ground plane means arranged to be connected to ground of a circuitry of a radio communication device and a conductive radiating structure (2, 3 and 4) having a first arm (2) and a second arm (3). Said second arm (3) having a length different from that of the first arm (2). Said first arm (2) and said second arm (3) being electrically connected by a bridge (4), where said bridge (4) being means for matched feeding of said second arm (3) at a second frequency. A dielectric is separating said radiating structure (2, 3 and 4) and said ground plane means. A first end (21) of said first arm being a feed portion (5) and a second end (22) of said first arm (2) being a free end. A first end (33) of said second arm (3) being electrically connected to a frequency tuning arm (35) for said second frequency in said second arm (3) and a second end (34) of said second arm (3) being a free end, where said first and second arms (2 and 3) are forming an angle with said frequency tuning arm (35).

Description

Another advantage of the present invention is that independent trimming of both belts can be performed in a simple manner.

An additional advantage of the invention is that the antenna has relatively small dimensions.

Yet another advantage of the present invention is that the various parts of the antenna can be easily stored.

Yet another advantage of the present invention is that a ground plan structure has a small physical volume.

Yet another advantage of the present invention is that the antenna is relatively easy to manufacture.

Yet another advantage of the present invention is that the antenna is relatively easy to mount.

The invention will now be described in more detail with reference to preferred embodiments thereof and also with reference to the accompanying drawings.

Brief description of the drawings Figure 1 shows an antenna device according to the invention.

Figure 2 schematically shows the current fates of the antenna device according to Figure 1.

Figure 3 shows an antenna assembly comprising an antenna device according to the invention.

Description of a Preferred Embodiment In this description, it is to be understood that the antenna system of the present invention is operable to receive and / or transmit radio signals. Although a tin is used herein which suggests a specific signal direction, it should be appreciated that such a situation may cover this signal direction and / or its opposite.

Referring to Figure 1, an embodiment of an antenna device 1 according to the invention is shown. The antenna device is arranged for transmitting / receiving RF waves in two frequency bands, for example, in the 900 MHz and 1800 MHz bands. The antenna device 1 shall be connected to a radio communication device (not shown), preferably portable, and / or arranged on (i) a vehicle. As shown in the clock, the antenna device 1 is arranged on a conductive part 8, such as a vehicle body. 10 20 25 30 about 3 This conductive part 8 will function as a ground plane. The conductive part 8 can be omitted or replaced by conductive parts of a radio communication device, for example, a PCB (printed circuit board). In these cases, the antenna device 1 may be attached to a radio communication device, such as a radio telephone or a computer.

The antenna device 1 comprises a radiation structure 2, 3, 4 comprising a radiating first arm 2 for transmitting / receiving RF waves in a first, higher frequency band, and a radiating second arm 3 for transmitting / receiving RF waves in a second, lower frequency band . The first 2 and second 3 arms are conductively connected to a bridge 4. The radiation structure 2, 3, 4 must be connected to a transmission line at a supply section 5. The supply line is connected to transceiver circuits of a radio communication device. The first arm 2 has a first end 21, in the vicinity of which the feed portion 5 is arranged. A second end 22 of the first arm 2 is a free end. The distance between the first 21 and the second 22 end along the arm is about 7i1 / 4, where X1 is the wavelength of the first frequency band. The first arm 2 can be easily tuned to its frequency by adjusting the distance between the ends 21 and 22, for example, by cutting at the second end 22.

The second arm 3 comprises a first portion 31 and a second portion 32.

The bridge 4 connects the second arm 3, between the first portion 31 and the second portion 32 to the first arm 2 in connection with the feed portion 5. The second arm 3 is fed from the feed portion 5 via the bridge 4. The second arm 3 has a first end 33 at one end of the first portion 31. A second end 34, which is a free end of the second arm 3, is arranged at the second portion 32. The distance between the first 33 and second 34 ends, along the second second 3, is preferably about 7t2 / 4, where k; is the wavelength of the second frequency band. The second arm 3 can be easily tuned to its frequency by adjusting the distance between the ends 33 and 34, for example, by cutting at the other end 34.

The radiation structure 2, 3, 4 is arranged on a dielectric substrate 6. The dielectric substrate carries a C-shaped, or meander-shaped conductive pattern 35 with a first end 36 and a second end 37. The first end 36 of the conductive pattern 35 The conductive pattern 35 is arranged on the same side of the dielectric substrate 6 as the radiation structure 2, 3, 4. The conductive 15 however, the pattern 35 may be arranged on the opposite side of the dielectric substrate 6. In this case the second radiating radius 3 may be provided with connecting legs passing through holes in the substrate 6 and the pattern 35. The legs are then preferably soldered to the pattern. Such legs can be found even if the conductive pattern 35 is arranged on the same side of the dielectric substrate 6 as the radiation structure 2, 3, 4, in order to facilitate the mounting of the radiation structure 2, 3, 4, The length of the conductive pattern 35, i.e. the distance between the first end 36 and the second end 37 along the arm, is selected or adjusted to tune the second radiation arm 3 to a desired frequency. This distance is preferably about 7t2 / 4, where X2 is the wavelength of the second frequency band.

The dielectric substrate 6 is further provided with a ground plane 7 in the form of a generally C-shaped conductive pattern 7, preferably with portions which at least partially surround a region of the dielectric substrate 6 which supports the radiation structure 2, 3, 4, in the vicinity. of the feed portion 5, which makes the pattern more E-fom1at. The C-shaped conductive pattern 7 is connected to ground of transceiver circuits of the radio communication device, preferably by connection to ground of the transmission line. The generally C-shaped conductive pattern 7 has a first end 71 and a second end 72. The length of the C-shaped pattern 7, i.e. the distance between the first 71 and other 72 ends along the pattern, is substantially preferably 7t1 / 2, where X1 is the wavelength of the first (higher) frequency band. This ground plane 7 is satisfactory for the antenna function, and the antenna device _t can be mounted on a portable radio communication device. - also the leading portions 8 as ground planes. If they are mounted on (i) a portable radio communication device, such as a handheld radio telephone, the conductive portions, for example, a PCB of the radio communication device, can be connected, preferably capacitively, to the ground plane 7, these conductive portions also acting as ground planes.

Since the conductive pattern 35 for the frequency tuning in the second (lower) frequency band and the ground plane 7 in the form of a generally C-shaped conductive pattern 7 are located adjacent to each other, there will be a capacitive coupling between the two patterns. This coupling can be adjusted to achieve the desired antenna performance. The coupling can preferably be made stronger and the conductive portions 8 and their equivalents released.

The radiation structure 2, 3, 4 is shown to be arranged in a plane perpendicular to the dielectric substrate 6 and its conductive pattern 7, 35. However, the radiation structure 2, 3, 4 may be arranged in a plane intersecting the plane with the dielectric the substrate 6 at a different angle or, depending on the application and the available space. This can also be expressed as if a key to an extension direction of the second arm at the first end forms an angle u with a key of an extension direction of the tuning arm at the connecting portion, which is also applicable if the radiation structure is not planar. The angle α can, for example, be in the range 45 ° - 135 °, preferably 90 °.

The radiation structure 2, 3, 4 is preferably manufactured by punching out or cutting out the structure from a conductive plate, for example a metal plate. The arms 2 and 3 and the bridge have band shapes, i.e. the width of the arms and the bridge in the plane of the structure are substantially greater than the thickness (perpendicular to the plane of the structure). The conductive pattern 35 for the frequency tuning in the second (lower) frequency band and the ground plane 7 in the form of a generally C-shaped conductive pattern 7 is formed on the conductive substrate by printing, etching, deposition or the like. The radiation structure 2, 3, 4 is preferably formed with guide and possible connecting legs at the end 21 and connecting and guide legs at the end 33. The dielectric substrate 6 and the conductive pattern 35 are then provided with holes for receiving the legs. The legs and / or ends 21 and 33 are glued or soldered to the dielectric substrate 6 and the conductive pattern 35.

Figure 2 shows the current fates in the antenna device in Figure 1 schematically with arrows. The currents in the bridge 4 and the first portion 31 of the second arm 3 fl surface as shown in the same direction. The first portion 31 is the part of the antenna device which radiates most in the second (lower) frequency band, and the bridge 4 radiates less but substantially. The currents in the conductive pattern 35 for the frequency tuning in the second (lower) frequency band are directed in opposite directions, which results in almost no radiation from this pattern 35. For the first frequency band (higher) », the arm 2 will perform the essential radiation - one. Arrow 9 indicates the polarization direction of the RF waves radiated from the radiation structure 2, 3 and 4. 10 20 25 30 1551-44- 642 6 <V. r i.

Figure 3 shows an antenna assembly 10 specially adapted for mounting on a vehicle body, for example on the roof. The antenna device 1, which comprises the radiation structure 2, 3, 4, the conductive pattern 35 for the frequency tuning in the second (lower) frequency band and the ground plane 7 in the form of a generally C-shaped conductive pattern 7, is mounted on a base 11. A GPS antenna 12 is also mounted on the base. In the center portion of the base 11, a hole is provided for feeding via cables. A clamp 13 is provided on the PCB for clamping a coaxial antenna cable 14, which provides electrical contact with the outer conductor of the cable and is connected to the generally C-shaped conductive pattern 7 on the back side (not shown). The center conductor of the coaxial cable is connected to the PCB. PCB 6 is provided on the back side (not shown) with a pattern which connects the center conductor of the coaxial cable 14 and the feed portion 5 of the radiation structure 2, 3, 4, via guide and connecting legs arranged on the first end 21 of the first arm. The conductive pattern 35 for the frequency tuning in the second (lower) frequency band is also arranged on the back of the PCB and is connected to the other arm by means of guide and connection legs, as described above. The unit is covered and protected by a housing 15. To support the radiation structure 2, 3, 4, a support 16 is attached to the radiation structure 2, 3, 4 and PCB 6. The support 16 is preferably made of dielectric material.

The first and second arms of the antenna member may be substantially band-shaped. The band-shaped first and second arms of the antenna member may have substantially the same thickness. The band-shaped first and second arms of the antenna member may have substantially the same width. The width of the band-shaped first and second arms of the antenna member may be less than the length of the respective section.

Alternatively, the radiation structure 2, 3 and 4 may be arranged on or in a dielectric substrate. The frequency tuning arm 35 and the ground plane structure 7 can alternatively be manufactured by punching or cutting out the structure from a metal plate.

The frequency tuning arm and the ground plane structure can be glued to a dielectric substrate.

Alternatively, the thickness and / or the width may be different for different parts of the radiation structure 2, 3, 4.

Claims (10)

A antenna means for transmitting and receiving RF signals in at least a first and a second frequency band, comprising: - a ground plane means arranged to be connected to ground of a circuit arrangement of a circuit board. radio communication device, - a conductive radiation structure (2, 3 and 4) with a first arm (2) and a second arm (3), - which second arm (3) has a length different from that of the first arm (2), the first arm (2) and the second arm (3) are electrically connected to a bridge (4), the bridge (4) being a means for adaptively feeding the second arm (3) at the second frequency band, - a dielectric separating the radiation structure (2, 3 and 4) and the ground plane means, characterized in that a first end (21) of the first arm (2) is a feed portion (5) and a second end (22) of the first arm (2) is a free end, a first end (33) of the second arm (3) being electrically connected to a connecting portion of a frequency tuning arm (35) for the second frequency in the second arm (3) and wherein a second end (34) of the second second (3) is a free end, where a tangent to an extension direction of the second second (3) at the first end (33) forms an angle (a) with a tangent of an extension direction of the frequency tuning arm (35) at the connection portion. The antenna means according to claim 1, characterized in that the free end (22) of the first arm (2) is a means for tuning a first frequency. The antenna means according to claim 1 or 2, characterized in that the free end (34) of the second arm (3) and a free end (37) of the frequency tuning arm (35) are means for tuning the second frequency. The antenna means according to any one of claims 1 to 3, characterized in that the ground plane means is a ground plane structure (7) with a length of substantially M2 at the first frequency. 10 15 20 25 30 fs14ls42 8 The antenna means according to any one of claims 1 to 4, characterized in that the first arm (2) has a length of substantially M4 at the first frequency. The antenna means according to any one of claims 1 to 5, characterized in that the second arm (3) has a length of substantially M4 at the second frequency. The antenna means according to any one of claims 1 to 6, characterized in that the frequency tuning arm (35) has a length of substantially H4 at the second frequency. The antenna means according to any one of claims 4 to 7, characterized in that a capacitive coupling is established between the frequency tuning arm (35) and the ground plane structure (7) for stabilizing the second frequency. The antenna means according to any one of the preceding claims, characterized in that the angle (oc) between the tangent to an extension direction of the second arm (3) at the first end (33) and a tangent of an extension direction of the frequency tuning arm (35) at the connecting portion is an angle in the range 45 ° - 135 °. The antenna means according to any one of claims 1 - 9, characterized in that at least one of the arms (2 or 3) in the conductive radiation structure and / or the frequency tuning arm (35) is meander-shaped. The frequency tuning arm (35) and the ground plane structure (7) are conductive patterns. The antenna means according to any one of claims 4 to 10, characterized in that they are arranged on a dielectric substrate (6). The antenna means according to claim 11, characterized in that the conductive patterns are arranged on one side of the dielectric substrate (6). The patterns are arranged inside the dielectric substrate (6). The antenna means according to claim 11, characterized in that the conductive 10 14. The antenna means according to any one of the preceding claims, characterized in that the frequency tuning arm (35) is substantially C-shaped and wherein the first end (33) of the second the arm (3) is connected to one end of the substantially C-shaped frequency tuning arm (35). 5. 5. 5. Since the ground plane structure (7) is substantially E-shaped with the connection to the antenna means according to any one of the preceding claims, characteristic ground of the circuit device of the radio communication device in the middle of the E-shaped structure. The antenna means according to any one of the preceding claims, characterized in that the bridge (4) which connects the first arm (2) electrically to the second arm (3) is arranged between the first and the second end of the first and second arms, respectively. . The antenna means according to claim 16, characterized in that the bridge (4) is arranged at substantially the same distance from the first and second ends of the second arm and arranged closer to the feed portion than the free end of the first arm. The antenna means according to any one of the preceding claims, characterized in that the first and second arms (2 and 3) are substantially band-shaped. The antenna means according to claim 18, characterized in that the band-shaped first and second others (2 and 3) have substantially the same thickness. 20. made the first and second arms (2 and 3) have substantially the same width. The antenna means according to claim 18, characterized in that the band-shaped 21. The antenna means according to claim 18, characterized in that the band-shaped first arm (2) has a different thickness compared to the second arm (3) - 10 15 20 1 0 22. The antenna means according to claim 18, characterized in that the band-shaped first arm (2) has a different width compared to the second arm (3). The antenna means according to any one of claims 18 to 22, characterized in that the width of the band in each arm (2, 3, and 35) is less than the length of the respective section. The antenna means according to any one of the preceding claims, characterized in that the radiation structure (2, 3 and 4) and / or the tuning arm and / or the ground plane structure (7) are arranged on or in a dielectric substrate (6). The antenna means according to any one of the preceding claims, characterized in that the radiation structure and / or the tuning arm (35) and / or the ground plane structure are made of a conductive plate. The antenna means according to any one of claims 9 to 25, characterized in that the angle (α) is an angle of 90 °. An antenna assembly (10) comprising an antenna means (1) according to any one of the preceding claims, wherein the assembly (10) comprises at least one further radiation structure (12) for receiving at least circularly polarized radio frequency signals, for example a GPS antenna.