CN203536554U

CN203536554U - Metal frame antenna

Info

Publication number: CN203536554U
Application number: CN201320574368.XU
Authority: CN
Inventors: 吴鹏飞
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2013-09-16
Filing date: 2013-09-16
Publication date: 2014-04-09
Anticipated expiration: 2023-09-16
Also published as: WO2015035854A1

Abstract

The utility model provides a metal frame antenna. An antenna portion adopting a metal frame realizes an antenna radiating system; the antenna portion is isolated from a non-antenna portion of the metal frame through a gap of the metal frame; and the non-antenna portion is grounded. According to the metal frame antenna provided by the utility model, the metal frame is provided with the gap, the metal frame is isolated into the antenna portion and the non-antenna portion, and the antenna portion of the metal frame is directly used to realize the antenna radiating system. The metal frame antenna provided by the utility model does not like an antenna in the prior art which takes the whole metal frame as a radiating unit of the antenna, but takes the antenna portion of the metal frame as the radiating unit of the antenna, thereby reducing influences imposed by the hand on antenna signals.

Description

A kind of metal frame antenna

Technical field

The utility model relates to mobile communication terminal technical field, relates in particular to a kind of metal frame antenna that is applied to Long Term Evolution (LTE, Long Term Evolution) intelligent terminal.

Background technology

LTE, as mobile broadband technology of new generation, just strides forward to all data business from single data service.LTE development is also faced with a lot of challenges rapidly simultaneously.Because LTE frequency range is too disperseed, operator's voice scheme is different, and the trend that causes terminal and the roaming market business to be isolated is further serious.End product especially smart mobile phone product emerges in an endless stream, but seldom has product can meet the network demand of a plurality of operators simultaneously.One of bottleneck is Antenna Design, and LTE band limits is extremely wide, therefore after compatible 2G/3G frequency range, the beamwidth of antenna is had higher requirement.Recently, with the mobile terminal of metal shell, become fashion trend as smart mobile phone, a lot of producers have released the product with metal appearance.But research is found, because the antenna of metal shell structure part distance moving terminal is very near, needs complicated grounding to weaken the impact of metal shell on antenna performance, nonetheless, the performance of final antenna or not fully up to expectations.Especially have superthin structure and have on the mobile phone of metal shell, antenna performance is difficult to reach the network requirement of operator.

For the mobile terminal of metal shell, existing metal antenna is: bezel gap antennas.This bezel gap antennas is for utilizing metal frame, and the aperture slots of metal frame and impedance matching circuit form loop aerial series feed or that also present.Existing bezel gap antennas utilizes whole metal frame as the radiating element of antenna, and like this, when user's hand-held intelligent terminal is used, hand can exert an influence to the aerial signal of intelligent terminal.

Utility model content

The purpose of this utility model is to provide a kind of metal frame antenna structure, is applied to LTE intelligent terminal, can reduce the impact of hand on aerial signal.

In order to solve the problems of the technologies described above, the present invention proposes a kind of metal frame antenna, it is characterized in that, adopt the antenna part of metal frame to realize aerial radiation system; Described antenna part is isolated by the gap of metal frame or the non-antenna part of insulator and metal frame;

Wherein, described non-antenna part ground connection.

Further, described non-antenna part is arranged on user's handheld terminal contact area often.

Further, described aerial radiation system comprises main antenna radiating system, diversity antenna radiating system and global position system GPS aerial radiation system; Described gap comprises the first gap, the second gap, the 3rd gap, Fpir Crevices gap and the 5th gap; Described non-antenna part comprises the first non-antenna part and the second non-antenna part;

Described main antenna radiating system one end is connected with the first gap, and the other end is connected with the second gap; Described diversity antenna radiating system one end is connected with the 3rd gap, and the other end is connected with the 5th gap; Described gps antenna radiating system one end is connected with Fpir Crevices gap, and the other end is connected with the 5th gap;

The two ends of described the first non-antenna part are connected with described the 3rd gap with described the first gap respectively, and the two ends of described the second non-antenna part are connected with described Fpir Crevices gap with described the second gap respectively.

Further, the equal ground connection in the two ends of described the first non-antenna part, the equal ground connection in two ends of described the second non-antenna part.

Further, described main antenna radiating system comprises radiating element, coupling unit, RF excited port, the first radio frequency earth point and the second radio frequency earth point;

Described radiating element is the antenna part being connected with the second gap with the first gap;

Described coupling unit is positioned in empty regions, and by the first radio frequency earth point ground connection;

One end of described RF excited port and the second radio frequency earth point is all connected with described radiating element, the equal ground connection of the other end.

Further, described radiating element comprises high frequency radiation unit and low frequency radiation unit, described high frequency radiation unit is the antenna part between described RF excited port and the second gap, and described low frequency radiation unit is the antenna part between described RF excited port and the first gap.

Further, the length of described high frequency radiation unit is 30 millimeters, and the length of described low frequency radiation unit is 70 millimeters, and the width in described the second gap is 2 millimeters, and the width in described the first gap is 1 millimeter.

Further, described diversity antenna radiating system comprises radiating element, RF excited port and the 3rd radio frequency earth point;

The radiating element of described diversity antenna radiating system is the antenna part being connected with the 5th gap with the 3rd gap;

One end of described RF excited port and the 3rd radio frequency earth point is all connected with described radiating element, the equal ground connection of the other end.

Further, the radiating element of described diversity antenna radiating system comprises high frequency radiation unit and low frequency radiation unit, described low frequency radiation unit is the antenna part between described RF excited port and the 5th gap, and described high frequency radiation unit is the antenna part between described RF excited port and the 3rd gap.

Further, the length of described low frequency radiation unit is 65 millimeters, and the length of described high frequency radiation unit is 30 millimeters, and the width in described the 3rd gap, Fpir Crevices gap and the 5th gap is 1 millimeter.

Further, described gps antenna radiating system comprises radiating element, RF excited port and the 4th radio frequency earth point;

The radiating element of described gps antenna radiating system is the antenna part being connected with the 5th gap with Fpir Crevices gap;

One end of described RF excited port and the 4th radio frequency earth point is all connected with described radiating element, other end ground connection.

Further, in described gap, fill insulator.

The utility model metal frame antenna arranges gap on metal frame, and metal frame is isolated into antenna part and non-antenna part, and directly utilizes the antenna part of metal frame to realize aerial radiation system.The utility model metal frame antenna structure is unlike prior art, the radiating element using whole metal frame as antenna, and the radiating element using the antenna part of metal frame as antenna only, thus reduced the impact of hand on aerial signal.

Further, the width in the gap on metal frame is main relevant to the receive frequency of antenna, and therefore, the frequency that will receive according to antenna can arrange the width in gap on metal frame flexibly.

Further, by aperture slots is set on metal frame, the diversity antenna radiating system in isolated antennas radiating system and gps antenna radiating system, receive the phase mutual interference between signal separately thereby eliminated the two.

Accompanying drawing explanation

Below the accompanying drawing in the utility model embodiment is described, the accompanying drawing in embodiment is for to further understanding of the present utility model,, in the past for explaining the utility model, does not form restriction of the present utility model with specification.

Fig. 1 is the metal frame antenna structure view that is applied to LTE intelligent terminal in the utility model embodiment;

Fig. 2 is main antenna radiating system schematic diagram in the utility model embodiment;

Fig. 3 is diversity antenna radiating system and gps antenna radiating system schematic diagram in the utility model embodiment;

Fig. 4 is 0.5GHz-3.0GHz reflection coefficient curve schematic diagram under main antenna radiating system normal temperature and pressure in the utility model embodiment;

Fig. 5 is 0.5GHz-3.0GHz reflection coefficient curve schematic diagram under diversity antenna radiating system normal temperature and pressure in the utility model embodiment;

Fig. 6 is 0.5GHz-3.0GHz reflection coefficient curve schematic diagram under gps antenna radiating system normal temperature and pressure in the utility model embodiment.

In figure, 1 is the first gap, 2 is the second gap, 3 is the 3rd gap, 4 is Fpir Crevices gap, 5 is the 5th gap, 6 is the first earth point of non-antenna part, 7 is the second earth point of non-antenna part, 8 is the 3rd earth point of non-antenna part, 9 is the 4th earth point of non-antenna part, 10 is the first non-antenna part, 11 is the second non-antenna part, 12 is the low frequency radiation unit of main antenna radiating system, 13 is the high frequency radiation unit of main antenna radiating system, 14 is coupling unit, 15 is the first radio frequency earth point, 16 is RF excited port, 17 is the second radio frequency earth point, 18 is the radiating element of diversity antenna radiating system, 19 is the radiating element of gps antenna radiating system, 20 is the 3rd radio frequency earth point, 21 is the 3rd radio frequency earth point.

Embodiment

For the ease of those skilled in the art's understanding, below in conjunction with accompanying drawing, the utility model will be further described, can not be used for limiting protection range of the present utility model.

In order to cater to the demand of existing market to intelligent terminal outer cover metal, embodiment of the present utility model has proposed a kind of metal frame antenna, adopts the antenna part of metal frame to realize aerial radiation system; Antenna part is isolated by the gap of metal frame and the non-antenna part of metal frame; Non-antenna part ground connection.

Wherein, non-antenna part is arranged on user's handheld terminal contact area often.

Wherein, air or insulator can be filled in the gap of metal frame, and the present invention is not construed as limiting.

Wherein, aerial radiation system, comprises main antenna radiating system, diversity antenna radiating system and gps antenna radiating system;

Referring to Fig. 1, main antenna radiating system one end is connected with the first gap 1, and the other end is connected with the second gap 2; Diversity antenna radiating system one end is connected with the 3rd gap 3, and the other end is connected with the 5th gap 5; Gps antenna radiating system one end is connected with Fpir Crevices gap 4, and the other end is connected with the 5th gap 5.

The two ends of the first non-antenna part 10 are connected with described the 3rd gap 3 with described the first gap 1 respectively, and the two ends of the second non-antenna part 11 are connected with described Fpir Crevices gap 4 with described the second gap 2 respectively.

First tie point 6 at the first non-antenna part 10 two ends and the equal ground connection of the second tie point 7, the 3rd tie point 8 at the second non-antenna part 11 two ends and the equal ground connection of the 4th tie point 9.

Referring to Fig. 2, main antenna radiating system comprises radiating element, coupling unit 14, RF excited port one 6, the first radio frequency earth point 15 and the second radio frequency earth point 17;

Radiating element is the antenna part being connected with the second gap 2 with the first gap 1;

Coupling unit 14 is positioned in empty regions, and empty regions is known to the skilled person, and by the first radio frequency earth point 15 ground connection;

One end of RF excited port one 4 and the second radio frequency earth point 15 is all connected with radiating element, the equal ground connection of the other end.

Radiating element comprises high frequency radiation unit 13 and low frequency radiation unit 12, and high frequency radiation unit 13 is antenna part between RF excited port one 6 and the second gap 2, and low frequency radiation unit 12 is the antenna part between RF excited port one 6 and the first gap 1.

The length of high frequency radiation unit 13 is 30 millimeters (mm), and the length of described low frequency radiation unit 12 is 70 millimeters (mm), and the width in the second gap 2 is 2 millimeters (mm), and the width in described the first gap 1 is 1 millimeter (mm).

Referring to Fig. 3, diversity antenna radiating system comprises radiating element, RF excited port one 6 and the 3rd radio frequency earth point 20;

Wherein, the radiating element of diversity antenna radiating system is the antenna part 18 being connected with the 5th gap 5 with the 3rd gap 3;

One end of RF excited port one 6 and the 3rd radio frequency earth point 20 is all connected with radiating element, other end ground connection.

The radiating element of diversity antenna radiating system comprises high frequency radiation unit and low frequency radiation unit, low frequency radiation unit is the antenna part between RF excited port one 6 and the 5th gap 5, and high frequency radiation unit is the antenna part between RF excited port one 6 and the 3rd gap 3.

The length of the low frequency radiation unit of diversity antenna radiating system is 65 millimeters (mm), and the length of the high frequency radiation unit of diversity antenna radiating system is 30 millimeters (mm), and the width in the 3rd gap 3, Fpir Crevices gap 4 and the 5th gap 5 is 1 millimeter (mm).

Gps antenna radiating system comprises radiating element, RF excited port one 6 and the 4th radio frequency earth point 21;

The radiating element of gps antenna radiating system is the antenna part 19 being connected with the 5th gap with Fpir Crevices gap 4;

One end of RF excited port one 6 and the 4th radio frequency earth point 21 is all connected with radiating element, other end ground connection.

Fig. 4-6 are three aerial radiation systems 0.5GHz-3.0GHz reflection coefficient curve schematic diagrames at normal temperatures and pressures, as can be seen from the figure, according to the different requirements of different operators and intelligent terminal, the method the utility model proposes can both meet different frequency range requirements, for example, the reception band limits of LTE network is 0.7-0.9GHz and 1.7-2.1GHz, and the method as can be seen from the figure the utility model proposes can meet the frequency range requirement of LTE network.

It should be noted that; above-described embodiment understands for the ease of those skilled in the art; be not limited to protection range of the present utility model; do not departing under the prerequisite of inventive concept of the present utility model, any apparent replacement that those skilled in the art make the utility model and improvement etc. are all within protection range of the present utility model.

Claims

1. a metal frame antenna, is characterized in that, adopts the antenna part of metal frame to realize aerial radiation system; Described antenna part is isolated by the gap of metal frame and the non-antenna part of metal frame;

Wherein, described non-antenna part ground connection.

2. metal frame antenna according to claim 1, is characterized in that, described non-antenna part is arranged on user's handheld terminal contact area often.

3. metal frame antenna according to claim 1, is characterized in that, described aerial radiation system comprises main antenna radiating system, diversity antenna radiating system and global position system GPS aerial radiation system; Described gap comprises the first gap, the second gap, the 3rd gap, Fpir Crevices gap and the 5th gap; Described non-antenna part comprises the first non-antenna part and the second non-antenna part;

4. metal frame antenna according to claim 3, is characterized in that, the equal ground connection in two ends of described the first non-antenna part, the equal ground connection in two ends of described the second non-antenna part.

5. metal frame antenna according to claim 3, is characterized in that,

Described main antenna radiating system comprises radiating element, coupling unit, RF excited port, the first radio frequency earth point and the second radio frequency earth point;

6. metal frame antenna according to claim 5, it is characterized in that, described radiating element comprises high frequency radiation unit and low frequency radiation unit, described high frequency radiation unit is the antenna part between described RF excited port and the second gap, and described low frequency radiation unit is the antenna part between described RF excited port and the first gap.

7. metal frame antenna according to claim 6, is characterized in that, the length of described high frequency radiation unit is 30 millimeters, and the length of described low frequency radiation unit is 70 millimeters, and the width in described the second gap is 2 millimeters, and the width in described the first gap is 1 millimeter.

8. metal frame antenna according to claim 3, is characterized in that, described diversity antenna radiating system comprises radiating element, RF excited port and the 3rd radio frequency earth point;

9. metal frame antenna according to claim 8, it is characterized in that, the radiating element of described diversity antenna radiating system comprises high frequency radiation unit and low frequency radiation unit, described low frequency radiation unit is the antenna part between described RF excited port and the 5th gap, and described high frequency radiation unit is the antenna part between described RF excited port and the 3rd gap.

10. metal frame antenna according to claim 9, is characterized in that, the length of described low frequency radiation unit is 65 millimeters, and the length of described high frequency radiation unit is 30 millimeters, and the width in described the 3rd gap, Fpir Crevices gap and the 5th gap is 1 millimeter.

11. metal frame antennas according to claim 3, is characterized in that, described gps antenna radiating system comprises radiating element, RF excited port and the 4th radio frequency earth point;

12. according to the metal frame antenna described in claim 1～11 any one, it is characterized in that, fills insulator in described gap.