CN1797844A - Mobile communication device and antenna of satellite positioning system - Google Patents

Abstract

The mobile communication device includes printing circuit board and GPS antenna. The GPS antenna is made from a sheet metal, which is inserted to printing circuit board along vertical direction.

Description

Mobile communications device and antenna of satellite positioning system thereof

Technical field

(Global PositioningSystem, GPS) antenna particularly relate to a kind of mobile communications device and gps antenna thereof that designs gps antenna with the micro metal chip architecture to the present invention relates to a kind of mobile communications device and global position system thereof.

Background technology

Fig. 1 is the mobile communications device structural representation of the known GPS of having antenna component.Please refer to Fig. 1, mobile communications device 100 is, personal digital assistant (Personal Digital Assistant for example, PDA) or PDA-phone (Personal Digital Assistant Phone, PDA Phone) phone or intelligent mobile phone (Smart Phone) or mobile phone (Mobile Phone), it comprises GPS antenna component 110 and printed circuit board (PCB) 120.GPS antenna component 110 is arranged in the gps antenna restricted area 130 of printed circuit board (PCB) 120.The specification of general this restricted area 130 is 18mm * 3mm.GPS antenna component 110 comprises ceramic material portion 112 and antenna body portion 114.Antenna body portion 114 can utilize the high-dielectric coefficient of ceramic material for being arranged at the printed circuit on ceramic material portion 112 surfaces, antenna 110 miniaturizations and operating frequency can be reached the GPS working frequency range of 1575MHz.This GPS antenna component 110 can be the GPS antenna of ceramic core (HitachiSMA-15011C1 Small Ceramic Antenna for GPS) that HIT produces.

Yet the antenna component 110 with ceramic material is easy to break in falling to falling (Drop) experiment and damages.And the high-dielectric coefficient of ceramic material portion 112 can make the usefulness of antenna body portion 114 received signals reduce.In addition, antenna body portion 114 mainly is parallel to printed circuit board (PCB) 120 configuration, is subjected to the circuit on the printed circuit board (PCB) 120 and the interference of other antenna easily, and influences its received signal usefulness.Especially use the antenna structure of ceramic material more to increase manufacturing cost.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of mobile communications device and gps antenna thereof.The a plurality of oblique shape grooves of design on sheet metal, can be with the metal antenna miniaturization to being enough to be contained in above-mentioned GPS antenna component restricted area, and antenna surface not only can produce aerial radiation field pattern preferably perpendicular on the printed circuit board (PCB), and reduces the manufacturing cost of gps antenna.

According to purpose of the present invention, a kind of gps antenna is proposed, on the printed circuit board (PCB) that is arranged at mobile communications device.Gps antenna is made by a sheet metal, and comprises a plurality of grooves (Slots) on the sheet metal.

According to purpose of the present invention, a kind of mobile communications device is proposed, comprise printed circuit board (PCB) and gps antenna.Gps antenna is made by a sheet metal, with vertically being plugged on the printed circuit board (PCB).

Description of drawings

Fig. 1 is the mobile communications device structural representation of the known GPS of having antenna component;

Fig. 2 A illustrates a kind of according to the preferred embodiment of the invention mobile communications device structural representation;

Fig. 2 B illustrates the detailed structure view of gps antenna among Fig. 2 A;

Fig. 2 C illustrates the radiation pattern contrast figure of gps antenna of the present invention among the radiation pattern of known antenna component and Fig. 2 A.

Description of reference numerals

100,200: mobile communications device

The 110:GPS antenna component

112: ceramic material portion

114: antenna body portion

120,220: printed circuit board (PCB)

130,230:GPS antenna restricted area

The 210:GPS antenna

212: rectangular body portion

213: the location division

214: oblique shape groove

215: support chip

216: triangular slot

217: the absorption sheet

218: the turning point

219: feeding portion

Embodiment

For above-mentioned purpose of the present invention, feature and advantage can be become apparent, hereinafter utilize preferred embodiment, and conjunction with figs., be described in detail below:

Please be simultaneously with reference to Fig. 2 A and Fig. 2 B, its illustrate respectively a kind of according to the preferred embodiment of the invention mobile communications device structural representation with and the gps antenna structure chart.Mobile communications device 200 is, for example PDA or PDA mobile phone or intelligent mobile phone or mobile phone, and it comprises gps antenna 210 and printed circuit board (PCB) 220 and other assembly (not shown).Gps antenna 210 is arranged in the gps antenna restricted area 230 of printed circuit board (PCB) 220.Gps antenna 210 comprises rectangular body portion 212, location division 213, support chip 215, absorption sheet 217 and feeding portion 219.Main part 212 is used for vertically being plugged in printed circuit board (PCB) 220.Sheet metal 212 also comprises the oblique shape flutes 214 of groove width such as a plurality of that are parallel to each other, and the notch direction of adjacent two oblique shape flutes 214 is opposite.

Location division 213 is arranged at the base A of main part 212.In this preferred embodiment, be provided with 2 location divisions altogether.This location division 213 is used for being plugged in the corresponding hole (not label) of printed circuit board (PCB) 220.Be provided with scolding tin in this hole, (Surface MountTechnology, when SMT) being welded on the printed circuit board (PCB) 220, this scolding tin can melt this location division 213 is welded in the printed circuit board (PCB) 220 when this antenna 210 carries out surface mounting technology.Support chip 215 is connected in the short side B that oblique shape groove 214 is not set on the main part 212, and in order to being welded on the printed circuit board (PCB) 220, and supportive body portion 212 keeps perpendicular to printed circuit board (PCB) 220.In manufacture process, support chip 215 can utilize surface mounting technology to be welded on the printed circuit board (PCB) 220.Absorption sheet 217 is connected in a top margin C of main part 212, and is horizontally disposed with and perpendicular to main part 212 surfaces, in order to the absorption of SMT board to be provided, so that gps antenna 210 is arranged on the printed circuit board (PCB) 220.And feeding portion 219 is connected on the sheet metal 212 on the short side D with respect to support chip 215, in order to couple printed circuit board (PCB) 220 and to receive GPS working frequency range signal.This feeding portion 219 also utilizes surface mounting technology and is welded on the printed circuit board (PCB) 220.

As mentioned above, gps antenna restricted area 230 is of a size of 18mm * 3mm.The length that the common metal antenna must have a 40mm could produce the GPS working frequency range resonance mode of 1575MHz.Yet, the gps antenna 210 of present embodiment has main part 212 structural designs of four oblique shape grooves 214 and a triangular slot 216, Miniaturizable is contained in this restricted area 230 to being enough to, and can produce required GPS working frequency range resonance mode after tested.

Shown in Fig. 2 B, the length of gps antenna 210 is about 15mm with the length computation of rectangular body portion 212, and the high computational of the rectangular body portion 212 of its height is about 5.5mm, and its width is about 2.75mm mainly by the width decision of support chip 215.Therefore, gps antenna 210 can be contained in the above-mentioned gps antenna restricted area 230.In the present embodiment, each oblique shape flute 214 is about 30 degree with the angle of the short side D of rectangular body portion 212, and the groove angle of triangular slot 216 also is designed to 30 degree.

In addition, the groove width d of each oblique shape flute 214 is about 0.8mm.Because antenna 210 can produce opposite induced current I1 and the I2 of flow direction in the both sides of oblique shape groove 214 after receiving signal, therefore, if tiltedly the groove width of shape ditch structure 212 is too little, for example less than 0.8mm, induced current I1 and I2 just can produce the problem of cancelling each other.

Feeding portion 219 is arranged at the short side D of main part 212, and when antenna 210 received GPS working frequency range signal, induced electricity failed to be convened for lack of a quorum and flows through the longest active path, promptly by short side D through five turning points 218 of main part 212 to short side B.Though the total length of rectangular body portion 212 is 15mm only, yet utilize the ingenious design of these oblique shape grooves 214, can produce required GPS working frequency range resonance mode, to receive GPS working frequency range signal.In the present invention, this triangular groove 216 contiguous these short side D, and these 5 turning points 218 are formed at respectively between the two adjacent grooves (promptly, the 1st turning point 218 is formed between this triangular groove 216 and the adjacent oblique shape groove 214, and other 218 of 4 turning points are formed at respectively between the two adjacent oblique shape grooves 214).

Above-mentioned gps antenna 210 can be a kind of unipole antenna, to improve signal receiving efficiency.And gps antenna 210 can be a kind of foreign copper-nickel alloy material, or other has the material of sufficient intensity, with the damage of avoiding causing antenna 210 in the experiment falling to falling.

Please refer to Fig. 2 C, it illustrates the radiation pattern contrast figure of gps antenna 210 of the present invention among the radiation pattern of known antenna component 110 (being Hitachi SMA-15011C1 SmallCeramic Antenna for GPS) and Fig. 2 A.The first half view of Fig. 2 C is known antenna component 110 radiation pattern that (i.e. XZ plane among the figure), E1 plane (i.e. YZ plane among the figure) and E2 plane (i.e. XY plane among the figure) form respectively on the H plane.And the Lower Half view of Fig. 2 C be present embodiment gps antenna 210 respectively on the H plane, the radiation pattern that forms of E1 plane and E2 plane.By Fig. 2 C more as can be known, the radiation pattern of present embodiment gps antenna 210 than known antenna component 110 more near the elliptical polarization radiation pattern.This expression is vertically installed in micro metal antenna 210 on the printed circuit board (PCB) 220 can reduce the circuit on the circuit board 220 or the interference of other antenna really, effectively improves the usefulness of antenna receiving-sending signal.

As mentioned above, though utilize rectangular body portion gps antenna of the present invention to be described for example with four oblique shape grooves and a triangular slot, but gps antenna of the present invention can be to comprise any other sheet metal structure with groove, as long as through suitable trench design, Miniaturizable also is enough to produce GPS working frequency range resonance mode, neither disengaging technical scope of the present invention.

The advantage of disclosed mobile communications device of the above embodiment of the present invention and gps antenna thereof is to have the rectangular body portion design of a plurality of oblique shape grooves can be with the metal antenna miniaturization to being enough to be contained in the prior GPS antenna component restricted area, and produce required GPS working frequency range resonance mode, not only can improve antenna performance, produce elliptical polarization radiation pattern preferably, and the sheet metal material has the intensity height, produces easily and characteristic cheaply, make gps antenna can avoid causing damage in the experiment falling to falling, and can effectively reduce manufacturing cost.

In sum; though utilized preferred embodiment to disclose the present invention above, it is not that those skilled in the art without departing from the spirit and scope of the present invention in order to qualification the present invention; can carry out various changes and modifications, so protection scope of the present invention is defined by claims.

Claims (41)

1. antenna of satellite positioning system, on the printed circuit board (PCB) that is arranged at mobile communications device, this antenna of satellite positioning system comprises sheet metal, and this sheet metal comprises a plurality of grooves.

2. antenna of satellite positioning system as claimed in claim 1, it comprises rectangular body portion, this rectangular body portion comprises the oblique shape flutes of groove width such as a plurality of that are parallel to each other, and the notch direction of adjacent two oblique shape flutes is opposite.

3. antenna of satellite positioning system as claimed in claim 2, wherein the length of this rectangular body portion is less than 18mm, and the height of this rectangular body portion is less than 6mm.

4. antenna of satellite positioning system as claimed in claim 3, wherein the short side angle of each described oblique shape flute and this rectangular body portion is about 30 degree.

5. antenna of satellite positioning system as claimed in claim 4, wherein the groove width of each those oblique shape flute is not less than 0.8mm.

6. antenna of satellite positioning system as claimed in claim 2, it also comprises the location division, is connected in a base of this rectangular body portion, in order to be plugged in this printed circuit board (PCB).

7. antenna of satellite positioning system as claimed in claim 6, it also comprises support chip, is connected in a side of this rectangular body portion, in order to being welded on this printed circuit board (PCB), and supporting this antenna of satellite positioning system and keeps perpendicular to this printed circuit board (PCB).

8. antenna of satellite positioning system as claimed in claim 7, it also comprises the absorption sheet, is connected in a top margin of this rectangular body portion, and perpendicular to this main part, in order to the absorption of surface mounting technology board to be provided, so that this antenna of satellite positioning system is arranged on this printed circuit board (PCB).

9. antenna of satellite positioning system as claimed in claim 8, it also comprises a feeding portion, is connected in this rectangular body portion the side with respect to this support chip, in order to couple this printed circuit board (PCB) and to receive the feed-in of GPS working frequency range signal.

10. antenna of satellite positioning system as claimed in claim 1, it is a unipole antenna.

11. antenna of satellite positioning system as claimed in claim 1, it is made by foreign copper-nickel alloy material.

12. a mobile communications device comprises:

Printed circuit board (PCB); And

Antenna of satellite positioning system, this antenna is made by sheet metal, and is plugged on this printed circuit board (PCB) with the direction perpendicular to printed circuit board (PCB).

13. mobile communications device as claimed in claim 12, wherein this antenna of satellite positioning system system comprises that rectangular body portion, this rectangular body portion comprise the oblique shape flutes of groove width such as a plurality of that are parallel to each other, and the notch direction of adjacent two oblique shape flutes is opposite.

14. mobile communications device as claimed in claim 13, wherein to be arranged at a length of this printed circuit board (PCB) be that 18mm and width are in the zone of 3mm to this antenna of satellite positioning system.

15. mobile communications device as claimed in claim 14, wherein one of each described oblique shape flute and this rectangular body portion short side angle is about 30 degree.

16. mobile communications device as claimed in claim 15, wherein the groove width of each described oblique shape flute is not less than 0.8mm.

17. mobile communications device as claimed in claim 13, wherein this antenna of satellite positioning system also comprises the location division, is arranged at a base of this rectangular body portion, in order to be plugged in this printed circuit board (PCB).

18. mobile communications device as claimed in claim 17, this antenna of satellite positioning system and comprise support chip wherein, be connected in a side of this rectangular body portion, in order to being welded on this printed circuit board (PCB), and supporting this antenna of satellite positioning system and keep perpendicular to this printed circuit board (PCB).

19. mobile communications device as claimed in claim 18, wherein this antenna of satellite positioning system also comprises feeding portion, be connected in this rectangular body portion a side, in order to couple this printed circuit board (PCB) and to receive the feed-in of GPS working frequency range signal with respect to this support chip.

20. mobile communications device as claimed in claim 19, wherein this antenna of satellite positioning system also comprises the absorption sheet, be connected in a top margin of this rectangular body portion, in order to the absorption of surface mounting technology board to be provided, so that this antenna of satellite positioning system vertically is plugged on this printed circuit board (PCB).

21. mobile communications device as claimed in claim 12, wherein this antenna of satellite positioning system is a unipole antenna.

22. mobile communications device as claimed in claim 12, wherein this antenna of satellite positioning system is made by foreign copper-nickel alloy material.

23. mobile communications device as claimed in claim 12, it is one of among personal digital assistant and the PDA-phone.

24. mobile communications device as claimed in claim 12, it is one of in intelligent mobile phone and the mobile phone.

25. an antenna that is used for global position system, it is made by sheet metal, and comprises:

Main part which is provided with at least one groove;

Feeding portion connects first side of this main part, in order to receive the signal of GPS working frequency range; With

The support portion is connected to second side of this main part, in order to be soldered on the printed circuit board (PCB).

26. the antenna that is used for global position system as claimed in claim 25, it also comprises the adsorption section, be connected to the 3rd side of this main part, be used to provide the absorption of surface mounting technology board to be arranged at this printed circuit board (PCB) with the antenna that this is used for global position system.

27. the antenna that is used for global position system as claimed in claim 26, it also comprises the location division, is connected in the 4th side of this main part, is used for inserting this printed circuit board (PCB).

28. the antenna that is used for global position system as claimed in claim 27, wherein this main part is provided with 4 oblique shape grooves, and the notch of wherein adjacent two grooves is towards different directions.

29. the antenna that is used for global position system as claimed in claim 28, it also comprises triangular slot, contiguous this feeding portion of this triangular slot.

30. the antenna that is used for global position system as claimed in claim 29, it has and can be accommodated in one and long be 18mm, and wide is size in the zone of 3mm.

31. the antenna that is used for global position system as claimed in claim 30, wherein this oblique shape groove is with respect to oblique 30 degree of this first inclination.

32. the antenna that is used for global position system as claimed in claim 31, it is made by foreign copper-nickel alloy.

33. an antenna that is used for global position system, it is made by sheet metal, and have can be accommodated in one long for 18mm with widely be the size in the zone of 3mm.

34. the antenna that is used for global position system as claimed in claim 33 is formed with a plurality of grooves on it, its notch is towards different directions.

35. the antenna that is used for global position system as claimed in claim 34 is formed with the adsorption section on it, be used to allow the surface mounting technology machine adsorb this antenna.

36. the antenna that is used for global position system as claimed in claim 35, wherein this groove is oblique shape groove.

37. the antenna that is used for global position system as claimed in claim 36, wherein the width of this oblique shape groove is not less than 0.8 millimeter.

38. as being used for the antenna of global position system as described in the claim 37, it comprises feeding portion and support portion, the position is in the relative both sides of this antenna respectively, and this feeding portion is in order to receive GPS working frequency range signal, and this support portion is in order to be fixed on this antenna on one printed circuit board (PCB) securely.

39. the antenna that is used for global position system as claimed in claim 38, it comprises the location division, in order to insert in this printed circuit board (PCB).

40. as being used for the antenna of global position system as described in the claim 39, it comprises triangular slot, contiguous this feeding portion of this triangular slot.

41. as being used for the antenna of global position system as described in the claim 40, it has and can be accommodated in one and highly be the size in the space of 6mm.

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